Buchi K-375 Operation Manual

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KjelMaster K-375 with KjelSampler K-376 / K-377

Operation Manual

11593514E en

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Imprint

Product Identiﬁcation: Operation Manual (Original), KjelMaster K-375 with KjelSampler K-376 / K-377

11593514 en

Publication date: 12.2018

BÜCHI Labortechnik AG Meierseggstrasse 40 Postfach CH-9230 Flawil 1

E-Mail:

BUCHI reserves the right to make changes to the manual as deemed necessary in the light of experience; especially in respect to structure, illustrations and technical detail.

This manual is copyright. Information from it may not be reproduced, distributed, or used for competitive purposes, nor made available to third parties. The manufacture of any component with the aid of this manual without prior written agreement is also prohibited.

quality@buchi.com

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Document History

Index Date Author Changes A 25/MAY/2012 NAGG Initial version B 16/JUL/2013 NAGG First revised version C 17/NOV/2014 HILS/BRUS Second revised version

(update colorimetric titration) D 28/APR/2016 HILS Removal of Declaration of Conformity E 12/DEC/2018 HOES Third revised version

(update colorimetric titration)

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Read this manual carefully before installing and running your system and note the safety precautions in chapter 2 in particular. Store the manual in the immediate vicinity of the instrument, so that it can be consulted at any time. No technical modiﬁcations may be made to the device without the prior written agreement of BUCHI. Unauthorized modiﬁcations may affect the system safety or result in accidents. This manual is copyright. Information from it may not be reproduced, distributed, or used for competitive purposes, nor made available to third parties. The manufacture of any component with the aid of this manual without prior written agreement is also prohibited.

If you need another language version of this manual, you can download it at www.buchi.com.

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Table of contents

1 About this manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

1.1 Trademarks 9

1.2 Abbreviations 9

2 Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

2.1 User qualiﬁcation 10

2.2 Proper use 10

2.3 Improper use 10

2.4 Safety warnings and safety signs used in this manual 11

2.5 Product safety 12

2.5.1 General hazards 12

2.5.2 Instrument-related hazards 13

2.5.3 Other hazards 14

2.5.4 Personal protective equipment 14

2.5.5 Built-in safety elements and measures 15

2.6 General safety rules 16

3 Technical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17

3.1 Scope of delivery 17

3.1.1 Basic devices 17

3.1.2 Standard accessories for K-375 19

3.1.3 Standard accessories for K-376 / K-377 21

3.1.4 Operation Manuals for K-375 22

3.1.5 Optional accessories K-375 23

3.1.6 Optional accessories K-376 / K-377 25

3.2 Technical data overview 26

3.2.1 Technical data KjelMaster K-375 and KjelSampler K-376 / K-377 26

3.2.2 Technical data titrator 27

3.3 Determination parameters 28

3.4 Information on type plate 29

3.4.1 Titrator module and dosing unit 29

3.4.2 Material on the K-375 29

3.4.3 Material on the K-376 / K-377 30

4 Description of function . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31

4.1 Device overview 31

4.1.1 Opening the service door 32

4.2 Functional principle of KjelMaster System K-375 / K-376 / K-377 33

4.3 Standby function 35

4.4 System preparation 35

4.4.1 Preheating 35

4.4.2 Priming 35

4.4.3 Cleaning 35

4.4.4 Aspiration 35

4.5 Distillation and titration 36

4.5.1 Distillation and Titration Options 36

4.5.2 Distillation Mode 36

K-375 / K-376 / K-377

Operation Manual, Version E

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Table of contents

4.5.3 Titration Type 36

4.5.4 Sensor Type 36

4.5.5 Titration Mode 37

4.5.6 Measuring Mode 37

4.5.7 Titration Algorithm 37

4.5.8 Determination Mode 37

4.6 Different methods 38

4.7 Blank values 38

4.7.1 Blanks 38

4.7.2 Control blanks 39

4.8 Reference substances 39

4.9 Indicator for colorimetric titration 40

4.10 Result Groups 40

4.11 Explanation of alkaline direct distillation 41

5 Putting into operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43

5.1 Installation site 43

5.2 Electrical connections 44

5.2.1 Connec

tions of the KjelMaster K-375 44

5.2.2 Connections of the K-376 / K-377 45

5.3 Transfer connection K-376 / K-377 to K-375 46

5.3.1 Connecting the K-376 to the K-375 46

5.3.2 Connecting the transfer hoses of the K-377 48

5.4 Reagent/water and waste connections 49

5.5 Buret unit for titrant 51

5.6 Positioning of the dosing tip 53

5.7 Storage tank connection 53

5.8 Level sensors 54

5.9 Installation of the titration sensor 56

5.9.1 Potentiometric sensor 56

5.9.2 Colorimetric sensor 56

5.10 Connections to peripheral devices 57

5.10.1 Connecting a printer 57

5.10.2 Connecting a network cable 57

5.10.3 Connecting a KjelSampler K-376 or K-377 57

5.10.4 Connecting a balance 57

5.10.5 Connecting a bar code reader 58

5.10.6 External dosing unit for back titration 58

5.11 Preparing the system 58

5.11.1 Preparing the software 58

5.11.2 Preparing the hardware 59

6 Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .60

6.1 The operating principle 60

6.2 The home screen 60

6.2.1 The title bar 62

6.2.2 The bottom bar 62

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Operation Manual, Version E

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Table of contents

6.2.3 System status icons 63

6.3 User concept 63

6.4 Editable and non-editable menu items 63

6.5 The status view 65

6.5.1 RESULT display 66

6.5.2 CHART display 67

6.6 Determination 67

6.6.1 System Preparation 69 Single Sample 77

6.6.3 Sample Lists 79

6.6.4 Sequences 84

6.7 Results 92

6.7.1 Result groups 92

6.7.2 Last Results 94

6.7.3 Blank Correction 95

6.8 Determination Parameters 99

6.8.1 Methods 99

6.8.2 Volumetric Solutions 108

6.8.3 Reference Substances 109

6.9 Device 110

6.9.1 Settings 110

6.9.2 Utilities 117

6.9.3 Diagnostics 118

6.9.4 Logout 119

7 Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .119

7.1 Daily maintenance 120

7.1.1 Before sample determination (potentiometry) 120

7.1.2 Before sample determination (colorimetry) 121

7.1.3 After sample determination 122

7.1.4 pH electrode 122

7.1.5 Filling boric acid into receiving vessel after last sample of rack was determined (potentiometry only) 123

7.1.6 Sample tube cleaning 124

7.2 Weekly maintenance 125

7.2.1 Cleaning the housing 125

7.2.2 Cleaning the titrator 125

7.2.3 Cleaning the glass parts of the dosing unit 125

7.2.4 Cleaning the dip tube of the KjelSampler 125

7.2.5 Device monitoring 126

7.2.6 Cleaning colorimetric sensor and mesh 127

7.3 Monthly maintenance 127

7.3.1 Calibrating the pump 127

7.3.2 Checking the distillate amount 129

7.3.3 Inspecting the buret 130

7.3.4 Inspecting the titrator 130

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Operation Manual, Version E

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Table of contents

7.3.5 Inspecting the sample tubes 130

7.4 Half-yearly maintenance 132

7.4.1 K-375 Sealing between sample tube and splash protector 132

7.4.2 K-376 / K-377 dip tube and sealing cap 133

7.4.3 Replacing the splash protector 134

7.5 Yearly maintenance 136

7.5.1 Replacement of wear parts 136

7.5.2 Decalciﬁcation of the steam generator 137

7.5.3 Replacement of the sodium hydroxide pump 137

7.5.3 Replacement of the wave spring 138

7.6 Replace every two years 139

7.6.1 Replacement of the transfer connection 139

7.7 Maintenance work if required 141

7.7.1 Changing the buret tip 141

7.7.2 Cleaning the pH electrode 141

7.7.3 Replacing the buret 142

7.7.4 Cleaning the splash protector and the rubber seal 142

7.7.5 Glass parts 142

7.7.6 Troubleshooting the dosing unit 143

7.7.7 Adjusting the sample tube holder 143

7.8 Customer service 144

8 Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 145

8.1 Problems that may occur 145

8.2 Error messages on the display of the K-375 149

8.3 Eliminating errors of the KjelSampler K-376 / K-377 153

8.4 Eliminating errors of the titrator 154

9 Taking out of operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 155

9.1 Emptying the steam generator 155

9.2 Emptying the buret of the titrator 156

9.3 Storage/shipping 156

9.4 Disposal 156

10 Spare parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 157

10.1 Spare parts K-375 157

10.2 Spare parts K-376 / K-377 160

10.3 Hosing connection scheme Kjeldahl Sampler System K-375 / K-376 160 11 Declarations and requirements 161

11.1 FCC requirements (for USA and Canada) 161

K-375 / K-376 / K-377

Operation Manual, Version E

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1 About this manual

This manual describes the KjelMaster System K-375 / K-376 / K-377 and provides all information required for its safe operation and to maintain it in good working order. It is addressed to laboratory personnel in particular.

NOTE

The symbols pertaining to safety (DANGER, CAUTION and WARNING) are explained in chapter 2.

1.1 Trademarks

DURAN® is a registered trademark of the SCHOTT AG. Nylﬂex® is a registered trademark of the Pedex & Co. GmbH.

1.2 Abbreviations

CSM: Chopped Strand Mat ETFE: Polytetraﬂuorethylene FEP: Fluorinated Ethylene Propylene KCI: Potassium chloride PCTFE: Polychlorotriﬂuoroethylene PMMA: Polymethyl methacrylate POM: Polyoxymethylene PP: Polypropylene PTFE: Ethylenetetraﬂuoroethylene PUR: Polyurethane UV: Ultraviolet EPDM: Ethylene propylene diene monomer PVDF: polyvinylidene diﬂuoride PA: Polyamides

1 About this manual

K-375 / K-376 / K-377

Operation Manual, Version E

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2 Safety

This chapter points out the safety concept of the device and contains general rules of behavior and warnings from hazards concerning the use of the product. The safety of users and personnel can only be ensured if these safety instructions and the safety related warnings in the individual chapters are strictly observed and followed. Therefore, the manual must always be available to all persons performing the tasks described herein.

2.1 User qualiﬁcation

The device may only be used by laboratory personnel and other persons who on account of training or professional experience have an overview of the dangers which can develop when operating the instrument. Personnel without this training or persons who are currently being trained require careful instruction. The present Operation Manual serves as the basis for this.

1 About this manual

2.2 Proper

The device has been designed and built for laboratories. It serves for nitrogen determination according to Kjeldahl. The KjelMaster K-375 as stand-alone device may also be used for distillations of steam-volatile substances.

use

2.3 Improper use

Applications not mentioned above are improper. Also applications which do not comply with the technical data are considered improper.

During any improper use, the effectiveness of the protection systems of the devices can be affected.

∙ Avoid any improper use of the devices!

The operator bears the sole risk for any damages caused by such improper use. The following uses are expressly forbidden:

∙ Use of the device in rooms which require ex-protected devices. ∙ Use on samples which can explode or inflame (e.g.: explosives, etc.) due to shock, friction, heat

or spark formation.

Danger

K-375 / K-376 / K-377

Operation Manual, Version E

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2.4 Safety warnings and safety signs used in this manual

DANGER, WARNING, CAUTION and NOTICE are standardized signal words for identifying levels of hazard seriousness of risks related to personal injury and property damage. All signal words, which are related to personal injury are accompanied by the general safety sign.

For your safety it is important to read and fully understand the table below with the different signal words and their deﬁnitions!

Sign Signal word Deﬁnition Risk level

DANGER

WARNING

CAUTION

NOTICE

Supplementary safety information symbols may be placed in a rectangular panel on the left to the signal word and the supplementary text (see example below).

Indicates a hazardous situation which, if not avoided, will result in death or serious injury.

Indicates a hazardous situation which, if not avoided, may result in serious injury or death.

Indicates a hazardous situation which, if not avoided, may result in minor or moderate injury.

Indicates possible material damage, but no practices related to personal injury.

★★★★

★★★☆

★★☆☆

☆☆☆☆

2 Safety

Space for supplementary safety information symbols.

Table of supplementary safety information symbols The reference list below incorporates all safety information symbols used in this manual and their

meaning.

Warning safety symbols

Symbol Meaning Symbol Meaning

General warning Corrosive hazard

Electrical hazard Flammable

Biohazard Explosive environment

SIGNAL WORD

Supplementary text, describing the kind and level of hazard / risk seriousness.

∙ List of measures to avoid the herein described, hazard or hazardous situation. ∙ ... ∙ ...

Broken glass Inhalation harmful

K-375 / K-376 / K-377 Operation Manual, Version E

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Symbol Meaning Symbol Meaning

Device damage Hot surface

Hand bruising Magnet

Mandatory safety symbols

Symbol Meaning Symbol Meaning

Wear protective goggles Wear protective clothes

Wear protective gloves Heavy load, lift with assistance

2 Safety

Additional user information Paragraphs starting with NOTE transport helpful information for working with the device / software or

its supplementaries. NOTEs are not related to any kind of hazard or damage (see following example).

NOTE

Useful tips for the easy operation of the instrument / software.

2.5 Product safety

The device is designed and built in accordance with current state-of-the-art technology. Nevertheless, risks to users, property, and the environment can arise when the device is used carelessly or improperly.

The manufacturer has determined residual dangers emanating from the instrument if the device is operated by insufﬁciently trained personnel.

if the device is not operated according to its proper use. Appropriate warnings in this manual serve to make the user alert to these residual dangers.

2.5.1 General hazards

The following safety messages show hazards of general kind which may occur when handling the instrument. The user shall observe all listed counter measures in order to achieve and maintain the lowest possible level of hazard.

Additional warning messages can be found whenever actions and situations described in this manual are related to situational hazards.

K-375 / K-376 / K-377 Operation Manual, Version E

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Danger

Death or serious injuries by use in explosive environments.

∙ Do not store or operate the device in explosive environments. ∙ Remove all sources of flammable vapors. ∙ Do not store chemicals in the vicinity of the device.

Caution

Risk of minor or moderate cuts by sharp edges.

∙ Do not touch defective or broken glassware with bare hands. ∙ Do not touch thin metal edges.

Notice

Risk of device damage by liquids or mechanical shocks.

∙ Do not spill liquids over the device or its components. ∙ Do not drop the device or its components. ∙ Keep external vibrations away from the instrument.

2 Safety

2.5.2 Instrument-related hazards

CAUTION

Risk of injury.

∙ Never touch the surface of the touch screen with pointed or sharp objects!

Otherwise the screen might get damaged and splinter.

CAUTION

Risk of burns by hot surface. Surface temperature exceeds 60 °C.

∙ Do not touch hot surfaces of the instrument.

CAUTION

Risk of pinch point injuries.

∙ In order to avoid injuries to the hands and fingers the K-376 and K-377 Kjel-

Samplers may not be manipulated during the moving action of the sampler arm.

CAUTION

Risk of burns by hot steam.

∙ The system works with hot steam. Avoid any contact with hot steam.

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2 Safety

DANGER

Risk of chemical burns by corrosives.

∙ Wear laboratory coat, protective gloves and protective goggles at all times.

DANGER

Risk of chemical burns by corrosives.

∙ During operation the sample tube contains either strong acid or strong base. In

case the sample tube brakes, the content of the sample tube is collected in the drip tray on the bottom of the housing. Wear laboratory coat protective gloves and protective goggles when emptying the drip tray.

2.5.3 Other hazards

Fundamental dangers arise from.

∙ acids and lye ∙ flammable gases or solvent fumes in the direct vicinity of the instrument ∙ damaged glass parts ∙ insufficient distance between the device and the wall (see chapter 5.1, Installation site) ∙ burns caused by contact with hot glass parts ∙ burns caused by contact with steam at the waste-outlet ∙ defective transfer tube: escape of steam and/or sulfuric acid

2.5.4 Personal protective equipment

Always wear personal protective equipment such as protective eye goggles, protective clothing and gloves. The personal protective equipment must meet all requirements of all data sheets for the chemicals used. These instructions are an important part of the K-375, K-376 and K-377 and must be made available at all times to the operating personnel at the place where the equipment is deployed. This also applies to additional language versions of these instructions, which can be reordered separately.

K-375 / K-376 / K-377 Operation Manual, Version E

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WARNING

Serious chemical burns by corrosives.

∙ Observe all data sheets of the used chemicals. ∙ Handle corrosives in well ventilated environments only. ∙ Always wear protective goggles. ∙ Always wear protective gloves. ∙ Always wear protective clothes. ∙ Do not use damaged glassware.

2.5.5 Built-in safety elements and measures

The KjelMaster K-375 has monitored protective doors which prevent a distillation to start while a door is open. A running distillation is immediately interrupted when a door is opened. The dosing of reagents is also immediately stopped. The sample changers K-376 / K-377 have monitored protective shields. Running a sample changer with opened shield is impossible. For the K-377 only the shield of the tray, that is currently not in use can be opened.

2 Safety

K-375:

∙ Protective door: Safety appliance to protect users from burns at the splash protector (distillation

area) which is hot during distillation.

∙ Protective door sensors: Prevents to start a distillation with the protective doors open and stops the

distillation as soon as a protective door is opened during the process. ∙ Sample tube sensor: Prevents to start a distillation without a sample tube inserted. ∙ Service door sensor/switch: Electrical power is disconnected immediately when the service door is

opened, thus preventing electrical shock during maintenance.

K-376:

∙ Protective shield with sensor/switch: As soon as the shield is opened an alarm sound is triggered

and any movement of the arm is stopped.

K-377:

∙ Protective shield with sensor/switch: As soon as the shield of the tray in use is opened an alarms

sound is triggered and any movement of the arm is stopped. (The shield of the respective tray that

is not operated can still be opened without any restrictions.)

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2.6 General safety rules

Responsibility of the operator The head of the laboratory is responsible for training his/her personnel.

The operator shall inform the manufacturer without delay of any safety-related incidents which might occur during operation of the device or its accessories. Legal regulations, such as local, state and federal laws applying to the device or its accessories must be strictly followed.

Duty of maintenance and care The operator is responsible for the proper condition of instrument. This includes maintenance, service

and repair jobs that are performed on schedule by authorized personnel only.

Spare parts to be used Use only genuine consumables and spare parts for maintenance to assure good system perfor-

mance, reliability and safety. Any modiﬁcations of spare parts or assemblies are only allowed with the prior written permission of the manufacturer.

Modiﬁcations Modiﬁcations to the device are only permitted after prior consultation and with the written approval

of the manufacturer. Modiﬁcations and upgrades shall only be carried out by an authorized BUCHI technical engineer. The manufacturer will decline any claim resulting from unauthorized modiﬁcations.

2 Safety

K-375 / K-376 / K-377 Operation Manual, Version E

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3 Technical data

This chapter introduces the reader to the device speciﬁcations. It contains the scope of delivery, technical data, requirements and performance data.

3.1 Scope of delivery

3.1.1 Basic devices

3 Technical data

KjelMaster K-375 Order number

KjelMaster K-375 with glass splash protector and potentiometric sensor (220 – 240 V, 50/60 Hz)

KjelMaster K-375 with glass splash protector and colorimetric sensor (220 – 240 V, 50/60 Hz)

KjelMaster K-375 with plastic splash protector and potentiometric sensor (220 – 240 V, 50/60 Hz)

KjelMaster K-375 with plastic splash protector and colorimetric sensor (220 – 240 V, 50/60 Hz)

113751700

113752700

113753700

113754700

KjelSampler K-376 Order number

KjelSampler K-376 with one tray (100 – 240 V, 50/60 Hz)

KjelSampler K-377 Order number

KjelSampler K-377 with two trays (100 – 240 V, 50/60 Hz)

K-375 / K-376 / K-377 Operation Manual, Version E

113750710

113750720

Page 18

2 Safety

KjelMaster System K-375 / K-376 Order number

KjelMaster System K-375 / K-376

113751710 K-375 with glass splash protector and potentiometric sensor K-375: 220 – 240 V, 50/60 Hz K-376 / K-377: 100 – 240 V, 50/60 Hz

KjelMaster System K-375 / K-376

113752710 K-375 with glass splash protector and colorimetric sensor K-375: 220 – 240 V, 50/60 Hz K-376 / K-377: 100 – 240 V, 50/60 Hz

KjelMaster System K-375 / K-376

113753710 K-375 with plastic splash protector and potentiometric sensor K-375: 220 – 240 V, 50/60 Hz K-376 / K-377: 100 – 240 V, 50/60 Hz

KjelMaster System K-375 / K-376

113754710 K-375 with plastic splash protector and colorimetric sensor K-375: 220 – 240 V, 50/60 Hz K-376 / K-377: 100 – 240 V, 50/60 Hz

KjelMaster System K-375 / K-377 Order number

KjelMaster System K-375 / K-377

113751720 K-375 with glass splash protector and potentiometric sensor K-375: 220 – 240 V, 50/60 Hz K-376 / K-377: 100 – 240 V, 50/60 Hz

KjelMaster System K-375 / K-377

113752720 K-375 with glass splash protector and colorimetric sensor K-375: 220 – 240 V, 50/60 Hz K-376 / K-377: 100 – 240 V, 50/60 Hz

KjelMaster System K-375 / K-377

113753720 K-375 with plastic splash protector and potentiometric sensor K-375: 220 – 240 V, 50/60 Hz K-376 / K-377: 100 – 240 V, 50/60 Hz

KjelMaster System K-375 / K-377

113754720 K-375 with plastic splash protector and colorimetric sensor K-375: 220 – 240 V, 50/60 Hz K-376 / K-377: 100 – 240 V, 50/60 Hz

K-375 / K-376 / K-377 Operation Manual, Version E

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3.1.2 Standard accessories for K-375

Description Order number Picture

Sample tube (300 mL) —

3 Technical data

Pair of glass tongs 002004

Connection cable RJ45 length 2 m 044989

Mains cable of the following types

Type CH

Type Schuko/Japan

Type GB

Type AUS

Type USA

pH electrode

010010

010016

017835

017836

033763

11056842

or (according to purchase order)

colorimetric sensor

Accessory kit for colorimetric sensor (if device version with colori-

11066601

11068260

metric sensor is shipped)

Indicator according to Sher, 100 mL (if device version with colori-

003512

metric sensor is shipped)

Buffer set pH 4 and pH 7, 3 x 20 mL each (if device version with

043188

potentiometric sensor is shipped)

KCI electrolyte, sat. , 250 mL (if device version with potentiometric

11059759

sensor is shipped)

Connection grommet for Chiller 049151

Hose connector in line 11–13 for waste tank 043178

Hose chemical supply, Nylﬂex, length 6 m, Ø 5/10 mm 043185

Suction tube to tanks, FEP, length 580 mm 043407

Hose waste drain, EPDM, L = 1.8 m, ø 11/18 mm 043457

Clamp D15.6 049167

Clamp D12.8 043297

Clamp D11.9 043841

Silicone hose ø 8 mm/12x1.8m 11058157

Y-piece ø12 mm 11058358

Cooling water hose complete: G 3/4”, G 1/2”, L = 1.5 m 037780

O-ring 190.1 x 3.53 EPDM 75 049676

O-ring 247.2 x 3.53 EPDM 11058241

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3 Technical data

Description Order number Picture

FEP tube, 1.2 m, to driving motor 11056837

Capacitive level sensor for chemical or waste tank 11055914

Laboratory vessel 053203

Driving motor for dosing unit 11056835

Dosing unit (20 mL) 11056836

Test gauge sample tube holder 11059802

Tank 10 L 043410

Cap for 10 L tank, large 025869

Cap for 10 L and 20 L tank, small 043477

Tank labels 043434

Tank 20 L 043408

Cap for 20 L tank, large 043478

Distance holder for dosing tip 043203

Mini gender changer 043108

Weighing boats (20 pcs) 11060522

EPDM sealing for tanks 043048

Open end spanner 11058252

Tool SVL 22 11057779

CD KjelLink PC software (with 60 days test license) 11058664

1 2

15 18 20

3 4

10 11

16 17

13 14

K-375 / K-376 / K-377 Operation Manual, Version E

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3.1.3 Standard accessories for K-376 / K-377

Description Order number Picture

K-376 / K-377 cable RS232 (crossed) 043920

3 Technical data

Sample tube 500mL 026128

Clamp ring 043238

Hose clamp 022352

Fastener for transfer tube (K-376 only) 043482

Sample tubes (set of 4), 300mL 037377

Express rack, 4 places (K-376 only) 11057711

Rack, 20 places 11059831

Mains cable of the following types:

Type CH

Type Schuko/Japan

Type GB

Type AUS

Type USA

10010

10016

17835

17836

33763

Test gauge for sample tubes 11058240

3 42

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3.1.4 Operation Manuals for K-375

Description Order number

English 11593514

German 11593515

French 11593516

Italian 11593517

Spanish 11593518

Chinese 11593519

Japanese 11593520

Russian 11593653

KjelMaster K-375 Network Connection 11593539

KjelMaster K-375 - Data Export 11593558

3 Technical data

K-375 / K-376 / K-377 Operation Manual, Version E

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3.1.5 Optional accessories K-375

Description Order number Picture

Sample tubes (set of 4) 100 mL 11057442

3 Technical data

Sample tubes (set of 4) 300mL 037377

Sample tubes (set of 20) 300 mL 11059690

Sample tubes (set of 4) graduated 300 mL 043049

Sample tubes (set of 4), 500mL 043982

Sample tube holder for 4 sample tubes 500mL each 016951

Receiving vessel 340mL 043333

Receiving vessel 420mL 043390

10 L chemicals 043468

10 L waste 043470

20 L chemicals 043469

20 L waste 043471

O-ring level sensor (10 L tank) 049676

O-ring level sensor (20 L tank) 11058241

Buffer solution pH 4, 250mL 11064974

Buffer solution pH 7, 250mL 11064975

Temperature sensor for titrator 11056851

2% boric acid with Sher indicator 11064972

4% boric acid with Sher indicator 11064973

4% boric acid with bromocresol green/methyl red indicator 11064976

Dosing unit (for back titration) 11056836

Driving motor for dosing unit 11056835

IQ/OQ set K-375 (English) 11058677

IQ/OQ set K-375 / K-376 / K-377 (English) 11058678

Repeating OQ set K-375 (English) 11058679

Repeating OQ set K-375 / K-376 / K-377 (English) 11058680

Glass splash protector 043332

Plastic splash protector 043590

Devarda splash protector 043335

Adapter set for 3rd party sample tubes 11058410

Receiving vessel, colorimetric titration 11068263

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3 Technical data

1 6

8 109

3 4

11 12

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3.1.6 Optional accessories K-376 / K-377

Description Order number Picture

Stand for rack 11058659

3 Technical data

Rack for 12 sample tubes, 500mL 043970

Retainer plate (holds tubes ﬁrmly in rack for machine washing)

Set of 10 boiling rods for digestion of samples with tendency of boiling retardation (alternative for boiling chips)

038559

043087

Dip tube with cross-slot for soil/stone containing samples 047845

Glassﬁnger for sample tubes for soil samples

2 3

048638

4 5 6

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3.2 Technical data overview

3.2.1 Technical data KjelMaster K-375 and KjelSampler K-376 / K-377

KjelMaster K-375 KjelSampler K-376 KjelSampler K-377

Connection voltage 220 – 240 VAC

±10%

Frequency 50/60 Hz 50/60 Hz 50/60 Hz

Power consumption max. 2.2 kW max. 150 W max. 150 W

100 – 240 VAC ±10%

3 Technical data

100 – 240 VAC ±10%

Current consumption

9.5 A 650 mA 650 mA

(230 V)

Weight 32 kg 40 kg

(without rack and sample tubes)

Dimensions (W x H x D) 458 x 670 x 431 mm 505 x 750* x 655

* 1000 mm height required to allow free movement of the sampler arm

64 kg

(without rack and sample tubes)

1015 x 750** x 655 **1250 mm height required to allow free movement of the sampler arm

Interfaces RS232 RS232 RS232

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3 Technical data

Recovery rate

Reproducibility (RSD)

Measuring range 0.02 – 200 mg N

Environmental conditions

Temperature Altitude Humidity

Mains connection Device plug C14 Device plug C14 Device plug C14

Overvoltage category II II II

Pollution degree 2 2 2

Approval CE/CSA CE/CSA CE/CSA

3.2.2 Technical data titrator

The following sensors can be connected to the titrator:

∙ combined pH glass electrode ∙ optical sensor

∙ temperature measuring sensor for Resistance Thermometer Pt 1000, connection: 2 x 4 mm

sockets and 1 x 2 mm socket

> 99.5% (1 – 200 mg N)

< 1%

for indoor use only + 5 °C to + 40 °C up to 2000 m above sea level maximum relative humidity 80% for temperatures up to 31 °C, decreasing linearly to 50% relative humidity at 40 °C

Dosing accuracy: According to DIN EN ISO 8655, Part 3, or better

Typical accuracy: Fulﬁlls ISO/DIN 8655-3 regulation

Measuring input: pH/mV input with 12 bit transducer for accurate resolution during the titration

Connection:

electrode socket according to DIN 19 262 or BNC socket and reference elec

Measuring range Display resolution Accuracy* without

trode 1 x 4 mm socket

Input resistance (Ω)

sensor

pH 0…14 0.01 0.05 ±1 digit > 5·10

mV –1400 ... +1400 0.1 2 ±1 digit > 5·10

sensor Measuring range Display resolution Accuracy* without

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T [°C] –30…115 0,1 0,5 K ±1 digit

*Accuracy: Indicated in terms of measuring incertainty with a conﬁdence of 95%. In addition the measuring uncertainty of the sensor has to be taken into account as well. For pH electrodes e.g.: pH=0.012...0.03 according to DIN 19 266, Part 3.

3.3 Determination parameters

The amount of sample and the concentration of the titrant should be optimized, so that the titrant volume is between 3 and 17mL (buret volume: 20mL).

3 Technical data

∆

Nitrogen content absolute

Nitrogen content relative

Protein content relative (Protein factor 6.25)

Sample size

Boric acid concentration

0.02 mg 20 ppm 1.0 g 2 % (+3 g

Titrant concentration

0.005 N 2 mL

Titrant volume

KCl/L)

0.1 mg 100 ppm 1.0 g 2 %

0.005 N 3 mL

1 mg 0.2 % 1 % 0.2 g 2 % 0.01 N 8 mL

5 mg 1 % 6 % 0.5 g 2 % 0.1 N 4 mL

10 mg 1 % 6 % 1.0 g 4 % 0.1 N 8 mL

20 mg 2% 13 % 1.0 g 4 % 0.1 N 14 mL

50 mg 5 % 31 % 0.4 g 4 % 0.1 N 14 mL

100 mg 10 % 63 % 1.0 g 4 % 0.5 N 14 mL

100 mg 20 % 0.5 g 4 % 0.5 N 14 mL

200 mg 20 % 1.0 g 4 % 0.5 N 28 mL

General recommendation The correction factor for self prepared solutions is called titer.

The use of standardized titration solutions make a titer determination unnecessary. Exact titrant concentration = concentration x titer The titer of the titrant must be known. In case, it is unknown, it must be determined. Example: Exact titrant concentration = 0.100 mol/L x 0.998

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3.4 Information on type plate









 

Device type code

Serial number

Supply voltage range/type

3 Technical data

Frequency of supply voltage

Nominal power rating

Year of manufacture

Materials used

3.4.1 Titrator module and dosing unit

part Material designation

Housing sheet steel

Note

For the materials of the Dosing Unit, please refer to its manual which is delivered together with dosing unit.

3.4.2 Material on the K-375

Part Material Material code

Housing Polyurethane PUR/UL VO

Glass parts Borosilicate glass 3.3 DIN/ISO 3585

Insulation steam generator Ceramic ﬁber Multitherm 550

Steam generator housing Stainless steel 1.4301

Protective door Polymethyl methacrylate PMMA

Seal ring

Chlorosulfonyl polyethylene elastomer

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3.4.3 Material on the K-376 / K-377

Part Material Material code

Housing (mounting plate) Steel sheet St 12 ZE 1.0330

Housing (casing-below) Stainless steel 1.4301 (L 314)

Housing (top cover) Alu-sheet AlMgSi1

Guide express rack PP PP

Coating Polyester/Epoxy PEP 31

Protective shield Polymethyl methacrylate/Alu PMMA/Alu

Drip tray Polypropylene PP

Housing y-axle Alu-sheet AlMgSi1

End cap y-axle POM POM

Dip tube PVDF PVDF

Sealing cap EPDM EPDM

3 Technical data

Transfer hose linear PTFE PTFE

Steam tube Silicone/polyester MQ-PU

Protective hose PP PP

Hose chain PA PA

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4 Description of function

This chapter explains the basic principle of the instrument, shows how it is structured and gives a functional description of the assemblies. The KjelMaster K-375 is dedicated to Kjeldahl and Devarda nitrogen deter mination including potentiometric or colorimetric titration. Automation of Kjeldahl determination is possible with the KjelSampler K-376 / K-377.

4.1 Device overview









3 Technical data









KjelMaster K-375

KjelSampler K-376

Protective shield

Rack with sample tubes

Handle for protective shield

Transfer hose

Splash protector

Sample tube bracket

Fig. 4.1: Device overview













Sample tube

Protective door

Condenser

Receiving vessel

Touch screen with display

pH electrode or optical sensor

Service door

External buret





NOTE

The main switch of each device can be found on the rear right side of the housing.

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4.1.1 Opening the service door

The service door is secured with a sensor/switch: Electrical power is disconnected immediately when the service door is opened, thus preventing electrical shock during maintenance.

To open the the service door for maintenance proceed as follows:

3 Technical data

To open the service door,

∙ pull the door lock ∙ open the door

upwards

Fig. 4.2: Opening the service door

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4.2 Functional principle of KjelMaster System



K-375 / K-376 / K-377









K-376 / K-377

K-375

Sample tube

Dip tube

Splash protector

Steam generator

Condenser

Distillate outlet tube

Receiving vessel

4 Description of function





Fig. 4.3: Functional principle of the K-375 with K-376 or K-377

The sampler arm with dip tube is positioned in a sample tube in the K-376 / K-377. The steam generator of the K-375 generates steam which is led into the sample tube in the K-376 / K-377 via the steam hose. The steam presses the sample into the dip tube, so that the sample is transferred into the sample tube in the K-375 via the transfer hose. Water and sodium hydroxide is dosed into the sample tube in the K-375. Then steam is introduced to drive out ammonia. The ammonia evaporates into the splash protector and condensates in the condenser. Boric acid is dosed into the receiving vessel, where the condensated ammonia is collected and ﬁnally titrated. During the entire distillation process, steam is transferred via the sample tube of the K-376 / K-377 to the sample tube of the K-375, thus ensuring a thorough cleaning of the sample tube and the transfer hose.





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4 Description of function

Fig. 4.4: Sample transfer principle

Fig. 4.5: Steam transfer during distillation

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4.3 Standby function

Fig. 4.6: Status view

4 Description of function

Press the key READY to start heating the steam generator.

Press the key STANDBY to stop heating the steam generator.

After 30 minutes without operation, the heating of the steam generator is automatically turned off. In this case „Standby“ is displayed on the Status view. To activate the device press the READY key. The steam generator will need 120 seconds for heating up to the operating temperature.

4.4 System preparation

4.4.1 Preheating

The glass parts of the distillation system have to be preheated prior to analysis. This is done by means of a clean and empty sample tube. It is recommended to perform a preheating, when the glass (splash protector) has cooled down. The preheating time is predeﬁned and can not be adapted.

4.4.2 Priming

Priming is used to prepare the entire system. This preparation procedure includes distillation and titration with a clean and empty sample tube. It is recommended to perform a priming at least once a day, before starting analysis. The priming method can be modiﬁed.

4.4.3 Cleaning

At the end of a day, the system should be rinsed thoroughly by performing a cleaning procedure. The splash protector and the condenser are rinsed with water to remove sodium hydroxide residues. With regular cleaning, the lifetime of the glass parts is extended. The cleaning method is predeﬁned, but should be modiﬁed and adapted to the size of the sample tube.

4.4.4 Aspiration

With this procedure residues in the sample tube and in the receiving vessel can be aspirated.

For more details see also chapter “6.6.1 System preparation”.

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4.5 Distillation and titration

4.5.1 Distillation and Titration Options

Titration

type

Titration

mode

Distallation

mode

4 Description of function

Measuring mode Titration

algorithm

Potentiometric x x x x x x x x

Colorimetric x x x x x

4.5.2 Distillation Mode

Automatic – IntelliDist

This mode eliminates errors caused by a cooled instrument. The countdown of the set distillation time only starts after operating temperature is attained. With single samples or sample list measurements this mode guarantees result accuracy from the very ﬁrst run.

Fixed Time

The countdown of the set distillation time starts immediately with the start of the distillation process. This setting is recommended when a sample changer is used for the analysis of samples in a rack (or sequence).

4.5.3 Titration Type

The built-in titrator is fully controlled via the K-375 software. It is not possible to use the titrator without the KjelMaster K-375. It can be used for boric acid or back titration. The measuring mode can be determined as endpoint or startpoint titration by deﬁning the method in the K-375. The software of the K-375 allows to choose between standard and online titratio

Boric Acid Titration

Boric acid adjusted to a pH of 4.65 is used as receiving solution to capture the nitrogen carried over as ammonia during the steam distillation. The subsequent endpoint titration (pH 4.65) is performed with an acid titration solution. This titration type does not require an accurate dosage of the boric acid.

Back Titration

The receiving solution is a standardized acid (e.g. H2SO4) of which an accurate volume is dispensed into the receiving vessel. After collecting the ammonia the excess acid is titrated with a basic titration solution (NaOH) at pH 7.00. If the use of boric acid has to be avoided the back titration is the procedure of choice.

Boric acid

Back titration

Standard

Online

IntelliDist

Fixed time

Endpoint pH

Startpoint pH

Setpoint mV

Optimal

x x

Normal

4.5.4 Sensor Type

Potentiometric

Potentiometric pH measurement is They need regular calibration with buffers.

Colorimetric

Colorimetric titration is based on colour change at the equivalence point and is used in situations where an ofﬁcial standard requires it. For sound measurements and reproducible results the condensate outlet with air bubble trap must be ﬁtted. The condensate outlet prevents air bubbles interfering

commonly used and allows both boric acid and back titrations.

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with the measurement. Colorimetric titration requires daily determination of the setpoint.

4.5.5 Titration Mode

Standard

In the standard mode the distillation and titration are performed sequentially. First the distillation is completed then the titration starts.

Online

In the online mode the titration starts while the distillation is still in progress. The start time of the titration depends on the pH value and is determined automatically. It helps optimize the speed of measurements as it saves time.

4.5.6 Measuring Mode

Startpoint pH

The device measures the pH of the boric acid before the distillation is started and uses it later on as enpoint for the titration. When startpoint titration is used, the pH must not be adjusted to 4.65, but it must be between 4.4 and 5.0.

Endpoint pH

The set value, normally 4.65, is used as endpoint for the titration. The boric acid has to be adjusted to pH 4.65 before starting sample measurements. This mode is more accurate and yields the highest accuracy.

Setpoint mV (colorimetric)

The setpoint must be determined daily before the blank values and samples are colorimetrically tested, and in addition, if the distillation time, the boric acid, the indicator or the titrant is changed. The setpoint determined is then used as the end point for the subsequent colorimetric titrations.

4 Description of function

4.5.7 Titration Algorithm

Normal This algorithm is the most accurate one and is recommended for samples with low nitrogen content (below 1 mg) and for the use of highly-concentrated titration solutions (e.g. 0.5 N acids).

Optimal

The best ratio between accuracy and process speed is achieved with this algorithm.

4.5.8 Determination Mode

Standard

In the majority of cases it is necessary to digest samples to make the nitrogen accessible to steam distillation. Whenever digested samples are analyzed the standard determination mode is used.

Direct Distillation

A small number of applications allow freeing the nitrogen via direct steam distillation without requiring a digestion. In such a case the direct distillation mode needs to be activated.

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4.6 Different methods

BUCHI standard methods are stored in the instrument. All BUCHI methods are “read only“, but it is possible to copy and save them under a different name as an editable customer method. All methods are listed in alphabetical order, customer methods are ﬁrst, followed by the “read only” BUCHI methods (marked with a small yellow lock).

4 Description of function

Fig. 4.7: Methods screen

4.7 Blank values

The K-375 differentiates between blanks and control blanks. Blanks are performed to correct minimal contamination of chemicals on sample determination (sample and reference substance). Control blanks are performed to check the determination process for cross contaminations and are not used for calculation. The determination and the deﬁnition of blank values is described in chapter 6 Operation.

4.7.1 Blanks

It is recommended to run blank values with exactly the same method as the subsequent samples. The blank values may vary, depending on the receiver solution (e.g. concentration of the boric acid, amount of indicator added, pH value set), the concentration of the titration solution, and the purity of chemicals.

It is recommended to perform blank values, if:

∙ Fresh chemicals are used or ∙ Before starting determination in order to check the system.

If a blank value is activated for calculation, it remains active, until another blank value is activated.

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4.7.2 Control blanks

A control blank enables to check for cross contamination, e.g. in the middle of a rack, without affecting the calculation of the following samples. Example: Determination of 3 blanks, 6 samples, 1 control blank, 10 samples in a 20-position rack. All samples are calculated with the mean value of blank 1-3. The control blank allows to check the system without interruption.

4 Description of function

Fig. 4.8: Example of rack containing a control blank

4.8 Reference substances

Reference substances are substances with known nitrogen content and serve to check the performance of the system and the application. It is recommended to analyze reference substances regularly. For information on reference substances, see table. A check of the K-375 without digestion is done with a standardized ammonium salt (e.g. ammonium di-hydrogen phosphate). In order to check the entire Kjeldahl process (including digestion), standardized amino acids are used (e. g. Gl ycine). The determination of reference substances is done like a normal sample determination (Sample type: “Reference substance”) as single sample, sample list or a sequence. See Chapter “6.6 Determination” for details.

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Name Purity *Commer-

cially available purity

Ammonium dihydrogen phosphate

100 99.5 12.18 0.2 g 0.2 N No

Reference Substances

% N theoretical (100% purity)

Recommended sample size

4 Description of function

Recommended titrant concentration

Digestion necessary

Glycine 100 99.7 18.66 0.2 g 0.2 N

Phenylalanine

Ammonium sulfate

Tryptophan 100 99.0 13.72 0.2 g 0.2 N Ye s

Acetanilide 100 99.0 10.36 0.2 g 0.2 N Ye s

* this is only a guideline; please verify and use your speciﬁc purity of the reference substance. Therefore, check the respective “Certiﬁcate of Analysis” which is delivered from the manufacturer of the reference substance and create a modiﬁed reference substance according to it.

100 99.0 8.47 0.3 g 0.2 N

100 99.5 21.21 0.1 g 0.2 N No

4.9 Indicator for colorimetric titration

To detect the endpoint during a colorimetric titration an indicator must be added to the boric acid. For optimal performance the Sher mixed indicator is recommended. The point of inﬂection is depending on the indicator type as well as on the added indicator amount. The Sher indicator shows best performance in terms of endpoint detection speed and reliability. In boric acid the color changes from green (pH >7.6) to blue (7.4 to 4.8) and ﬁnally to the gray endpoint (pH 4.6). The optimal ratio of the Sher indicator to boric acid is 2.5 mL per 1 L boric acid.

Yes

NOTE:

Even the slightest changes to the ratio can result in incorrect end point determination. As an alternative, methyl red/bromocresol green mix indicator can also be used. Ready-made, premixed boric acid solutions for both indicator options can be obtained from Buchi.

4.10 Result Groups

Each result of a sample determination can be assigned to a group, e.g. the results of samples taken from the same batch/lot, place, at the same day, etc. can be assigned to the same result group. All results in the same group are treated the same way regarding sample printout and export of data.

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4.11 Explanation of alkaline direct distillation

As an example, the protein content in milk samples can be determined by direct distillation. This quick method is based on the fact that milk releases ammonia when boiled in an alkaline solution. Most of this ammonia is produced by the rapid hydrolysis of proteins containing glutamine and asparagine. This decomposition is completed within a few minutes. An additional quantity of ammonia, although small, is released through the complete transformation of other amino-acids. This second reaction occurs very slowly however, and does not interfere with the quick method. This fact permits an experimental determination of the ratio of total nitrogen or protein to ammonia nitrogen which is released by boiling in an alkaline solution. Once the resulting conversion factor is determined, a series of analysis can be carried out for control purposes without the time-consuming digestion step. The overall analysis is reduced to the following steps:

∙ Sample addition ∙ Dilution ∙ Alkalisation ∙ Distillation ∙ Titration

∙ Calculation A determination can be completed in approx. 10 minutes according to this procedure. All working conditions chosen for the experimental determination of the conversion factor must be strictly adhered to during sample measurements. For details on the application procedure, please contact your local BUCHI representative. Determination of the conversion factor and the regression factor:

4 Description of function

Fig. 4.8: Example of factor calculation

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4 Description of function

Factors of above Example Conversion Factor = 0.7787; Regression Factor = -0.055.

NOTE

Milk samples with a reduced protein content are obtained by dilution with distilled water.

Calculation: Calculation of the protein content after factor determination.

g protein/100mL = (Vsample-Vblank )xConv. Fact.+Reg. Fact.

Vsample = Volume Titrant for sample determination in mL Vblank = Volume Titrant for blank determination in mL Conv. Fact. = Conversion factor for direct distillation Reg. Fact. = Regression factor for direct distillation

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5 Putting into operation

This chapter describes how the device is installed and gives instructions on initial startup.

NOTE

Inspect the device for damages during unpacking. If necessary, prepare a status report immediately to inform the postal company, railway company or transportation company.

Keep the original packaging for future transportation.

CAUTION

Heavy weight, avoid overexertion.

∙ Due to the heavy weight of the devices at least two people are required for

taking the KjelMaster K-375 or the KjelSamplers K-376 out of their corresponding packaging. Watch your fingers when putting the device down.

∙ For the K-377 at least three people are required for taking the device out of the

corresponding packaging. Watch your fingers when putting the device down.

4 Description of function

5.1 Installation site

The device must be set-up on a stable, clean and level surface. For safety reasons the distance between the back of the device and the wall or to another object must be at least 30 cm. No containers, chemicals or other objects must be located behind the instrument. The KjelSampler K-376 or K-377 is set-up on the left side of the KjelMaster K-375 with a space of approximate 10 cm. Make sure that the back of the KjelSampler is not in contact with anything, e.g. hoses, etc. All devices must be set up in such a way that the main switches and the mains plugs are easily accessible at all times.

NOTICE

Risk of device damage.

∙ The sampler arm of the KjelSampler K-376 / K-377 must have enough space in

height for movement.

CAUTION

Heavy weight, avoid overexertion.

∙ At least two people are required for carrying the KjelSampler K-376 or the Kjel-

Master K-375 due to the heavy weight of the devices. Watch your fingers when putting the devices down.

∙ At least three people are required for carrying the KjelSampler K-377 due to the

heavy weight of the device. Watch your fingers when putting the device down.

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5.2 Electrical connections



5.2.1 Connections of the KjelMaster K-375



4 Description of function



a Power connection K-375

b RS232 connection to K-376 /

K-377

c RS232 connection to balance

d LAN connection

e USB connection to printer

f USB connection for bar code

reader







h Fuses (2 x 10A)

i Connector for dosing unit (Acid)

j Connector for additional dosing unit (Base)

k Additional USB-ports

l Connectors for colorimetric sensor (Ind. and Pwr. Col.) or pH

electrode (Ind. only)

m Connectors for temperature sensor



g Connectors for level sensors

Fig. 5.1: Electrical connections of the K-375

On the KjelMaster K-375

NOTICE

Risk of device damage by wrong voltage.

∙ Make sure that the voltage on the socket corresponds to the voltage given on

the type plate of the instrument.

∙ Always connect the device to an earthed socket. External connections and

extension cables must be provided with an earthed conductor lead (3-pole couplings, cable or plug equipment) as the mains lead has a molded plug, thus avoiding risks due to inadvertent defective wiring.

∙ Make sure that no electric sparks form in the device or its surroundings as they

might damage the instrument.

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5 Putting into operation



∙ Connect the power cable to the power connection

∙ Connect the level sensors to the corresponding connectors

NOTE

Unlike the level sensors for the storage tanks of H20, NaOH and H3BO3, the presence of the level sensors for the waste containers has to be indicated within the software! (See section “Peripherals” in chapter 6.9.1)

∙ Connect the dosing unit for the acid to connector

∙ Connect the RS232 cable to the sampler (if present) to the corresponding connector

∙ Connect any additional peripherals

5.2.2 Connections of the K-376 / K-377





according to the description in figure 5.1.

(left rear side of the housing)

(right rear side of the housing)



Power switch K-376 / K-377

Power connection K-376 / K-377

Fuses (2 x 3A)

Fig. 5.2: Electrical connections of the K-376 / K-377



RS232 connection to K-375

Toggle switch (see chapter 8.3)

NOTICE

Risk of device damage by wrong voltage.

∙ Make sure that the voltage on the socket corresponds to the voltage given on

the type plate of the instrument.

∙ Always connect the device to an earthed socket. External connections and

∙ Make sure that no electric sparks form in the device or its surroundings as they

might damage the instrument.

On the KjelSampler K-376 / K-377

∙ Connect the power cable to the power connection

∙ Connect the cable to the K-375 device to the RS232 connector

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5.3 Transfer connection K-376 / K-377 to K-375

The transfer connection between the K-375 and the K-376 or K-377 sampler consists of two hoses, the white transfer hose and the red steam hose. Both hoses have to be connected to the K-375 as well as to the sampler (K-376 or K-377) and secured with hose clamps. The K-376 is delivered with both hoses premounted to the device.

WARNING

Serious chemical burns by corrosives. Risk of burns by hot steam.

∙ Never operate the K-375 together with a sampler while the sample transfer and

steam hoses are missing, defective, or incorrectly mounted.

∙ Make sure there is always enough room for a free movement of the sampler

arm – if the sampler arm collides with any object during movement, the transfer hose and/or the steam hose may break!

5.3.1 Connecting the K-376 to the K-375

5 Putting into operation









∙ Fix the transfer hose support

screw on the valve K-375.

∙ Guide both hoses

transfer hose support.

on the rear side of the

and

with the

through the

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5 Putting into operation









Fixing the transfer hose to the K-375 Mount the white transfer hose on the valve of the

K-375 (top right corner):

∙ Unscrew the screw cap

connection of the valve

parts) and take out the cutting ring ∙ Slide the screw cap over the white hose ∙ Slide the cutting ring over the hose. ∙ Plug the hose on the valve and fix it by

screwing the screw cap on the valve.

from the screw

(attention: 2

Fig. 5.4: Connection to the K-375

Fixing the steam hose to the K-375 Mount the red steam hose on the steam valve of

the K-375 (top right corner):

∙ Slide the red hose on the connector and

secure it with a hose clamp.

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Connect the K-375 and the K-376 / K-377 with the corresponding/delivered RS232 cable (crossed)

∙ K-375: See b in picture 5.1 ∙ K-376 / K-377: see d

Risk of burns by hot steam.

∙ Make sure to place a sample tube in the washing position(s) of the sampler.

Place an empty sample tube into the washing position of the sampler:

The washing position is on the rear right side of the tray. For the K-376 this is the ﬁxed position to the right of the express rack. The K-377 provides two washing positions – one on the rear right side of each tray.

5.3.2 Connecting the transfer hoses of the K-377

in picture 5.2

WARNING

5 Putting into operation







K-377

∙ Connect the transfer hose and the steam

hose to the two fittings on top of the sealing cap on the sampler arm. Secure both connections with hose clamps 1.

∙ The red steam hose has to be fixed to the

first position (marked with a red ring) – pointing to the front of the instrument!

∙ Fix the plastic cable channel with the two

provided screws 2 on the sampler arm.

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







5 Putting into operation

On the K-375

∙ Remove the tightening screw from the holder

on the valve 1. (The screw is not required for connection to K-377)

∙ Slide the ring of the chain fastener onto the

holder on the valve 1 and fix it by tightening the threaded bar.

∙ Slide the the plastic holder of the transfer

connection onto the threaded bar 2. Hold it in place by screwing the second nut hand-tight on top.

∙ Mount the white transfer hose on the valve

using the provided screw connection 3.

∙ Mount the red steam hose on the steam valve

and secure it with a hose clamp 4.

5.4 Reagent/water and waste connections

NOTICE

Risk of device damage by exceeding the maximum permissible pressure for the cooling water inlet.

∙ Make sure never to exceed the maximum permissible pressure of 6 bar for the

cooling water inlet.

WARNING

Serious chemical burns by corrosives.

∙ Make sure that the tanks are connected correctly. If the wrong tank (e. g.

reagent tank containing NaOH) is connected to the pump labelled as „H2O”, NaOH might be dosed while H2O is expected.

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











5 Putting into operation



a H2O pump (for steam generator and sample tube)

b Boric acid (H3BO3) pump

c NaOH pump

Fig. 5.5: Reagent, water and waste connections

NOTE:

All pumps are self-priming, no overpressure is necessary at the tanks! If the sample tube waste and the receiver waste shall be collected in the same tank, the Y-piece (contained in the standard delivery) can be used to merge both tubes.

Cooling water connection Screw the cooling water hose to the cooling water inlet on the device side and connect it to the water

supply. The water pressure should not exceed 4 bar and the cooling water temperature should not exceed 25 °C. The ﬂanged screw coupling for the water connection has a standard screw thread of G

/4“.

Drain cooling water Place the drain hose for the cooling water directly into the drain (sink). For this purpose, shorten the

silicone hose to the optimal length. Make sure that the drain hose has no kinks and sharp bends. Secure the drain hose to avoid any ﬂooding inside or in the vicinity of the instrument.

d Waste outlet (receiver waste)

e Waste outlet (sample tube waste)

f Cooling water outlet

g Cooling water inlet

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Fig. 5.6: Guidance of the two outlets into one hose

5 Putting into operation

Waste/aspiration hoses The sample residue can be aspirated and collected separately from the receiver waste. For this purpose a separate collection tank is necessary. For joint disposal of the sample tube and the receiver waste the delivered y-piece is used to guide the two hoses into one hose. All connections must be secured by clamps.

The collection tank must be located lower than the device to guarantee proper drainage. Connect the waste hose to the waste outlets and secure them with clamps. The hose must be cut to appropriate length. The drain hose is then connected to the tank, by means of the straight connector and the screw cap including the sealing. Alternatively the waste hose can also be guided into the sink.

Fig. 5.7: Connection of the drain hose using the straight connector

WARNING

Risks and hazards for humans, animals and the environment.

∙ Make sure to carefully collect any residues that may be hazardous to humans,

animals or the environment and to dispose them according to your local laws and regulations.

5.5 Buret unit for titrant

Fig. 5.8: Connection of the FEP hose at the dosing unit

The preinstalled tube for the titrant

is reaching out of the housing and must be connected to the dosing unit at port “1”.

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5 Putting into operation

The bottle containing the titration solution can be ﬁxed on the right side of the device using the provided strap

The buret (consisting of the dosing unit and the

corresponding drive unit) is mounted on the bottle.

Fig. 5.9: Buret mounted on the titration solution bottle

The cable of the driving motor is guided through a cut-out in the housing at the rear side of the K-375 and must be connected to port “Acid” (see chapter 5.2.1).

Fig. 5.10: Guidance of the cable through the cut-out Fig. 5.11: Connection of the cable of the driving motor

The cable of an additional dosing unit for back titration can also be guided through the same cut-outs in the housing.

NOTE

In case the buret gets blocked, refer to chapter 7.7.6 “Troubleshooting the dosing unit”. The assembly of the dosing unit is explained in detail in the separate operating instructions delivered together with the dosing unit.

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5.6 Positioning of the dosing tip

Mount the spacer onto the titrant dosing tip to adjust the positioning of the outlet and place it in the receiving vessel. It should be positioned in the same height as the stirrer.

Fig. 5.12: Mounting of the spacer at the dosing tip

5 Putting into operation

NOTE

The dosing tip must not touch the bottom of the receiving vessel, as this would block the outlet.

5.7 Storage tank connection

To connect the storage tanks, proceed as follows:

∙ Cut the Nylflex tube into pieces to the appropriate length. ∙ Insert a PTFE suction tube into the Nylflex tube. ∙ Push a EPDM sealing ring over the Nylflex tube.

∙ Now fasten the tubes to the tank with the red screw cover. The storage tanks should not be positioned higher than the device itself and not lower than 1 meter below the instrument.

Fig. 5.13: Tank connection

All pumps are self-priming, no overpressure is necessary at the tanks.

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5 Putting into operation

NOTICE

Risk of device damage by calciferous water or wrong rong connected tanks.

∙ Use only distilled water for the H2O storage tank to keep the steam generator

maintenance-free.

∙ Make sure that the tanks are connected correctly. If the wrong tank (e. g.

reagent tank containing NaOH) is connected to the pump labelled as „H2O“, the steam generator will get damaged.

5.8 Level sensors

Four capacitive level sensors are contained in the standard delivery of the instrument. Three are intended for the storage tanks (NaOH, H3BO3 and water) and one for the waste collection tank (either the sample tube or receiver waste). Additional level sensors are available as optional equipment. Each individual sensor is connected to the corresponding socket on the rear side of the device (see section

5.2.1). The sensitivity of the capacitive level sensors can be adjusted to safely detect the liquid level, if necessary.

Assemble the level sensors according to the following picture:





Fig. 5.14: Assembly of the level sensors

∙ Mount the sensor at the tank using the provided O-ring (see

the rear-side of the device to the corresponding port (NaOH, H2O, H3BO3, Waste Sample Tube, Waste Receiver, or Titrant). The sensitive side of the sensor (marked with the crosshair)

has to face the tank!

∙ Make sure the tank is filled with the corresponding liquid.

∙ Shift the sensor together with the rubber strap until it is located below the liquid level.

in figure 5.9) and connect it at

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5 Putting into operation

∙ The red LED at the sensor should now be off.

∙ If the sensor does not safely detect the liquid:

Use a small screwdriver to set the sensitivity (with the small adjustment screw) of the sensor (see

in figure 5.9).

Rear view: The crosshair marks the sensitive area

Front view:

Status LED

Adjustment screw

Fig. 5.15: Fixing the level sensors

NOTE

The sensor detects a liquid when the red LED is off. The level sensor for the waste tank must be set active within the Settings  Peripherals screen (See chapter “6.9.1 Settings“). This is not necessary for the other sensors.

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5.9 Installation of the titration sensor

Connect the sensor to the cable already mounted.

Fig. 5.16: Connection of the sensor

5.9.1 Potentiometric sensor

Remove the pH electrode from the storage cap and insert it into the receiving vessel. The spacer is used to adjust the positioning. The electrode must not touch the bottom of the receiving vessel, as this could lead to glass breakage. The ideal positioning is 1-2 mm above the bottom of the receiving vessel.

5 Putting into operation

NOTICE

Risk of sensor damage by pushing the electrode with too much pressure onto the bottom of the receiving vessel.

Risk of sensor damage by wrong storage. Always store the pH electrode in the storage cap in saturated KCl solution (4.2 mol/L). A pH electrode should not be stored dry as this would destroy the diaphragm. If a pH electrode has been stored dry, let it regenerate in saturated KCl for 24 hours or at least overnight prior to further use.

5.9.2 Colorimetric sensor

Fig. 5.17: Colorimetric titration setup

Fit the air bubble trap on the condensate outlet. The wavelength must be adjusted on the optical sensor according to the indicator (Sher: 610nm, bromocresol/methyl red: 640nm); this can be done with a permanent magnet (magnetic mixing rod) on the sensor probe. Clean the optical sensor before use and construct the test setup according to the technical note (335/2018) available on the BUCHI website.

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5.10 Connections to peripheral devices

The following devices and accessories can be connected to the K-375:

∙ up to 6 level sensors for monitoring the liquid level in storage or waste tanks

∙ a printer (via USB port) for printing e.g. results or methods

∙ a network cable (LAN) for storing data on a network or for communication with the optional

available PC software KjelLink ∙ a sampler K-376 / K-377 for automatic determinations of sample sequences ∙ a balance for the automatic acquisition of the sample weight ∙ a bar code reader for capturing sample data like IDs or batch numbers ∙ an additional external dosing unit for back titration

5.10.1 Connecting a printer

The K-375 supports printers with USB port and language PCL 3 or higher (PCL 5e, PCL 6, PCL 7 etc. e.g. from Hewlett Packard). The printer is connected to the USB port marked with “Printer” (position

If the K-375 is connected to the network, it is also possible to use a network printer.

NOTE

For using the printer make sure to switch on the printer ﬁrst, followed by the K-375.

in Fig. 5.1).

5 Putting into operation

5.10.2 Connecting a network cable

Instead of storing data locally on the instrument, it can also be stored on a network place. A network cable can be connected to the device on the LAN port on the rear side. For adapting the network settings refer to chapter “6.9.1 Settings

 Networ k ”. More details regarding the network connection can be found in the document KjelMaster K-375 Manual - Network Connection, which can be obtained from any authorized BUCHI representative.

5.10.3 Connecting a KjelSampler K-376 or K-377

Connect the KjelSampler K-376 or K-377 to the KjelMaster K-375 by means of the supplied RS232 cable.

5.10.4 Connecting a balance

The connected balance must fulﬁll the following criteria:

∙ The balance must be equipped with an RS232 interface and a „print“-button. Otherwise it is not

possible to send sample weights to the K-375. ∙ The RS232 settings of the balance and the K-375 software must correspond. ∙ The sent command from the balance must have the following string: floating point_unit.

The weight is transferred to and stored in the K-375. Negative values are automatically converted into positive sample weights.

For the conﬁguration of the balance refer to Settings  Peripherals screen (See chapter “6.9.1

Settings“).

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5.10.5 Connecting a bar code reader

A USB barcode reader can be used to read in data, e.g. a sample name or the weight of a sample, that is printed in form of a barcode. The barcode reader can be connected to the corresponding USB connector on the rear side of the K-375. (See chapter 5.2.1 “Connections of the K-375”.)

5.10.6 External dosing unit for back titration

The external dosing unit is connected to the port “Base” on the rear side of the instrument. (See posi-

tion

in ﬁgure 5.1) . For installation and assembly of the dosing unit, refer to the instruction manual

of the dosing unit.

NOTE

For optimum performance and minimal ﬂuctuation of the measured values, the dosing tip of the dosing unit with the titrant always has to be placed in position “TITR” of the receiver. The second dosing tip can be placed in any other position!

5.11 Preparing the system

5.11.1 Preparing the software

5 Putting into operation

In general it is recommended to check and adapt all device settings, located under HOME  Settings previous to the ﬁrst use of the instrument.

Following a selection of the most common settings to be adapted is provided:

Deﬁne regional settings HOME  Settings  Regional settings

Choose device language, keyboard layout, and date and time format

Set date and time HOME  Settings  Date and time

Set date, time, and time zone

Deﬁne user (optional) HOME  Settings  User administration

Different users with speciﬁc user rights can be deﬁned. As long as no user is deﬁned, no user administration will be used. For more details refer to the section “6.3 User concept”.

Check peripherals HOME  Settings  Peripherals

Make sure all connected peripherals are selected and conﬁgured.

Specify an import and export path for results and other data HOME  Settings  Import and Export

Data can be exported either to a USB device or to a network data share. If a network data share shall be used, a path needs to be speciﬁed.

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5 Putting into operation

Depending on your preferred applications and methods the following items have to be deﬁned:

Volumetric solutions HOME  Volumetric Solutions

Deﬁne all solutions that may be used for your applications.

Reference substances (optional) HOME  Reference Substances

Specify the reference substances together with their theoretical values.

Method (optional) HOME  Methods

Deﬁne a new determination method or modify an existing method if necessary.

Blank Corrections HOME  Blank Correction

Determine the general behavior of the system with respect to the blank correction.

5.11.2 Preparing the hardware

There are only a few tasks that have to be performed in order to prepare the hardware for the ﬁrst use:

Calibrate the pumps for H2O, H3BO3 and NaOH HOME  System Preparation  Pump calibration

∙ Select the pump to be calibrated (H2O, NaOH or H3BO3). ∙ Enter the target “Dose volume”, e.g. 50mL. ∙ Press START to start the calibration procedure. ∙ Measure the actually dosed volume and enter it as calibration volume in the displayed screen.

Repeat the calibration procedure, until the measured and the dosed volume correspond. ∙ An acceptable difference at 50mL is ±5mL.

NOTE

H2O and NaOH can be dosed into the sample tube and then poured for measurement into a graduated cylinder. The H3BO3 can be dosed directly into the receiving vessel and then poured into a graduated cylinder.

Rinsing of the buret and the titration hoses HOME  System Preparation  Buret functions  Dose

Dose some liquid to a waste vessel to rinse the buret and the titration hoses. Repeat the rinsing, until the whole buret and all the titration hoses are ﬁlled with titration solution. Make sure there are no air bubbles in the buret or in the titration hoses.

Calibration of pH electrode HOME  System Preparation  Calibration pH electrode

Calibrate the pH electrode by following the instructions on the screen (see chapter 6.6.1).

NOTE

We recommend to calibrate the pH electrode regularly (e.g. every day) with buffer solution pH 4 and pH 7.

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6 Operation

This chapter gives examples of typical device applications and instructions on how to operate the device properly and safely.

CAUTION

Risk of injury. Never operate the device with damaged glassware.

6.1 The operating principle

The graphical user interface of the K-375 is operated via the touch screen. To select a button or an input element in the dialog window, you simply touch the screen using a soft blunt object or a ﬁngertip.

CAUTION

Risk of injury.

∙ Never touch the surface of the touchscreen with pointed or sharp objects!

Otherwise the screen might get damaged and splinter.

5 Putting into operation

6.2 The home screen

The central element of the user interface is the home screen:

Fig. 6.1: The home screen

The home screen contains 4 different areas with buttons leading to the corresponding dialog windows:

Functional area

Icon Dialog window Description

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5 Putting into operation

Determination

All tasks related to the sample measurement itself (System preparation and sample deﬁnition)

Results

All tasks related to the results of the system (storage, viewing, printing and selection)

Determination Parameters

System Preparation and manual operation

Perform all tasks related to the preparation of the system, like Preheating, Priming, Cleaning, Aspiration, periodic tasks like electrode calibration or manual tasks related to burets, pumps, and a sampler.

Single Sample Determine a single sample based on Type, Name,

Method,and (Result-)Group. (Plus additional parameters depending on the sample type.)

Sample Lists Create a sample list – a list of samples to be deter-

mined one by one without an auto sampler.

Sequences Create a sample sequence with predeﬁned samples

per rack to be processed using an auto sampler. (Only visible if an auto sampler has been conﬁgured under “Settings”.)

Result Groups Create and view groups for the storage of your

results.

Last Results View, print or export the results of the last sample

determinations.

Blank Correction Calculate mean blanks, enter manual blanks or

adapt the settings for the correction of blanks.

Methods Create, import, edit, and manage your determination

methods.

All tasks

Volumetric Solutions Manage all used volumetric solutions.

related to the methods and the used solutions and

Reference Substances

Manage all used reference substances.

substances.

Device

All tasks related to the device itself. (Settings, Utilities and Diagnostics)

Settings Adapt all device settings, like date and time,

network settings, peripherals, and user management.

Utilities Set your backup path for the database backup, use

the lab timer or switch to the demo mode of the instrument.

Diagnostics Switch to service mode and view or check all

relevant system components.

Logout Login/Logout to the instrument. (Only visible if User

management is used.)

By pressing the HOME button on the bottom of each screen you can return to the home screen from any other screen.

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6.2.1 The title bar

The title bar is present on top of any screen and consists of the following components:

Fig. 6.2 Title bar

Icon of the current dialog

Title of the current dialog

System status icon

Options, hints or help for the current screen

Date & Time

6.2.2 The bottom bar

Like the title bar, the bottom bar is always present on any screen. It consists of 5 different buttons, whose function will never change (there is one exception: the START button will be switched to a PAUSE button during a running sequence):

6 Operation

Fig. 6.3 Bottom bar

HOME – this button will bring you back to the home screen from any other screen

SHOW/HIDE STATUS – shows or hides the Status view

READY/STANDBY – toggles the system mode between standby and ready. In standby mode the

steam generator is powered off for energy saving reasons.

START/PAUSE – starts a task, or pause a running sequence

STOP – stops a task.

This button also acts as an EMERGENCY STOP switch. If the device malfunctions or there is an operating error, you can stop all current tasks by pressing the STOP button. (The current will be switched off, resulting in the closure of all valves.)

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6.2.3 System status icons

6 Operation

Icon

Meaning

The device is ready without any restrictions.

A sample determination/task can be started.

A task is running (Determination, Preheating, Cleaning etc.)

A sample determination/task can’t be started.

A warning message is shown under Status/Info.

Check Status/Info before starting a task. Depending on the cause for the warning, the start button may be inactive.

There are errors that have to be remedied before a determination can be started (e.g. titrator not ready, dosing unit not connected etc.)

The device is in standby mode (steam generator switched off, power save mode)

– Press READY to return to operating mode.

Serious error – contact BUCHI service.

Warnings and info messages can be viewed in the INFO section of the status view. (Accessible via the button SHOW/HIDE STATUS in the bottom bar.)

6.3 User concept

The software distinguishes between three user types with differing access permissions: Administrator (no restrictions), Operator (limited permissions), Lab Manager (limited permissions). Find the detailed user rights in the "KjelMaster K-375: Compliance guide Pharma package" available on the BUCHI website.

NOTE

In case you forgot the password for your administrator account, you can ask your BUCHI service center for a password for the BUCHI Administrator. The account of the BUCHI administrator will always be present on your system and can not be deleted. The password will be valid for one day, enabling the creation of a new administrator account on your system.

6.4 Editable and non-editable menu items

∙ All menu items with a white background can be viewed, but not edited. ∙ All menu items, displayed with a grey background can be edited or can be clicked to display

further information. A small arrow at the right end of the push button indicates existence of

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further screens.

In the example below the Titer is the only attribute that may be changed by an operator:

6 Operation

Fig. 6.4 Volumetric solutions screen

If an item is editable or not, depends on the rights of the user. All resources that are present by default (standard methods, volumetric solutions, and reference substances) can not be deleted – those items are marked with the symbol of a small padlock.

NOTE

Sample lists and sequences can be locked and unlocked by users with administrator rights therefore the check mark in front of the list or sequence has to be checked and the LOCK button has to be pressed.

Fig. 6.5 Listed item

Check box for selecting an item

Padlock – indicates items that can not be deleted

Arrow symbol – indicates further screens belonging to the same item

NOTE

To select a larger number of sequenced items proceed as follows:

∙ check the check box of the first item ∙ check the check box of the last item by pressing and holding it, until all items in between

become automatically selected.

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6.5 The status view

The status view of the system is accessible via the SHOW/HIDE STATUS button in the bottom bar:

6 Operation

Fig. 6.6 The status view

Buttons for direct dosing of boric acid, sodium hydroxide, and water.

NOTE

The dosed amount per click can be adapted by a user with administrator rights under HOME u SETTINGS u Dosage volume in status view

Buttons for switching between RESULT-, CHART-, and INFO-display.

Status ﬁeld – indicates the system status and shows the active step of the running task.

Progress indication for the running task (remaining time, titrated volume, and measured pH)

Information area – shows last results with the currently active blank, the determination chart or

system information.

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Colors of the status ﬁeld

Color of status ﬁeld Meaning

6.5.1 RESULT display

6 Operation

Green – the system is ready for sample determinations.

Orange – the system is in standby mode. (The steam

generator is powered off.)

Blue – the system is busy (preparative task, periodic

task, or sample determination running).

Red – the system has an error, or a system component

is not ready.

The RESULT display of the Status view shows the last 3 results and the currently active blank together with its type and value.

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6.5.2 CHART display

6.5.3 INFO display

6 Operation

The CHART display of the Status view shows two charts:

∙ pH versus determination time [s] and ∙ pH versus titrated volume [mL]

NOTE

The charts are only temporarily available and will be overwritten with the charts of the next performed determination. They are excluded from the manual data export. Each result that is exported automatically will always contain the charts.

6.6 Determination

In general there are three different ways for a sample determination with the KjelMaster K-375:

∙ Determination of single samples (one by one without a sampler) ∙ Determination of a predefined sample list (one by one without a sampler) ∙ Determination of a complete rack in a predefined sequence (with a KjelSampler K-376 or K-377)

The INFO display of the Status view shows all system and error messages.

Sample determination possibilities

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6 Operation

Recommended for:

Operation procedure:

Single sample determination

∙ Only few samples ∙ Express sample

(e. g. interruption of a group)

∙ Method evaluation

1. Enter data for the ﬁrst sample

2. Determine the ﬁrst sample

3. Enter data for the second sample

4. Determine the second sample

5. ...







Sample List determination

∙ Many samples

(> 10) ∙ Routine analysis ∙ Number of samples

in a list is variable

1. Enter data for all samples

2. Determine the ﬁrst sample

3. Determine the second sample

4. ...







Sequences (automatic rack determination with sampler)

∙ Determination with

digestion ∙ Many samples (> 20) ∙ Routine analysis ∙ The maximum number

of samples in a rack is

defined ( 4 samples

for the express and

12 respectively 20

samples for the

normal racks)

1. Enter data for all samples

2. Determine the ﬁrst sample

3. Determine the second sample

4. ...











Description:

Without sampler. Without sampler. With KjelSampler K-376 /

K-377.

NOTE

Pressing the red STOP key on the touchscreen stops all processes immediately.

NOTE

Before starting a sample determination always check the system status icon in the upper right corner of the display to ensure the device is ready for a determination without any restrictions. The following icon should be displayed:

Other icons may indicate the necessity of preliminary user interaction to prepare the device or to solve problems. For details refer to section ”6.2.3 System status icons”.

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6.6.1 System Preparation

Within the area System Preparation all tasks related to the preparation of the system, like Preheating, Priming, Cleaning, and Aspiration can be deﬁned and performed. In addition periodic tasks like electrode or pump calibration and certain manual tasks related to burets, a sampler, or pH measurement can be performed.

Preparative Tasks

6 Operation

The System Preparation dialog is subdivided in two sections:

Preparative Tasks

∙ Preheating ∙ Priming ∙ Cleaning ∙ Aspiration

Periodic Tasks

∙ Calibration pH electrode ∙ Setpoint colorimetric sensor ∙ Buret functions ∙ Pump calibration ∙ Sampler functions ∙ Measuring pH or mV

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6 Operation

Calibration pH electrode It is recommended to calibrate the electrode

every day before starting sample determinations. The electrode should be treated according to the recommendation described in the electrode supplementary sheet.

We recommend replacing the electrode, if it does not fulﬁll the following criteria at 25 °C room temperature anymore:

Slope 95 – 105%

Zero point pH 6.4 – 7.6 (For pH electrodes other than the ones supplied by

BUCHI, additional criteria might be important.)

NOTE

It is recommended to use buffer solutions pH 4.00 and 7.00. (For a 3 point calibration in addition the buffer solution for pH9.21 is recommended.) Discard buffer solutions after usage. Work with fresh solutions every day.

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6 Operation

Setpoint colorimetric sensor It is necessary to determine the Setpoint every day

before starting sample determinations, and when the method is changed or fresh chemicals are used to adjust the device to the current conditions.

Before the Setpoint determination a Preheating should be performed to heat up the system.

We recommend a determination of 3 Setpoint cycles before a determination is started. The last Setpoint is used as endpoint for the following determinations.

Select whether the Setpoint cycle should be performed via the KjelSampler or not and the number of cycles. Set the concentration of the boric acid used, the indicator and the method. The selected method for Setpoint determination must be identical to the method used for sample determination.

The Setpoint should fulﬁll the following criteria:

Deviation between the last two Setpoints should not be more than ±20 mV.

If Sher indicator is used, you should work with a wavelength of 610nm, in which case the setpoint is in the range of 300 - 500mV.

If bromocresol green/methyl red indicator is used, you should work with a wavelength of 640nm, in which case the setpoint is in the range of 300 500mV.

NOTE

To obtain good results, the optical sensor should be used with the setup described in Section 7.2.6. To prevent accumulations of air bubbles on the optical sensor, clean the optical sensor regularly and keep it in the wash solution when not in use.

All Setpoint measurements are stored in Result Groups  Setpoint

Method must be identical to the determination method used for the samples and blanks.

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6 Operation

Preheating The glass parts of the distillation system have to

be preheated prior to analysis. This is done by means of a clean and empty sample tube. It is recommended to perform a preheating, when the glassware has cooled down. A status message on the status view will inform the user if preheating is required. If an auto sampler is conﬁgured under “Settings”, select either “Unit only” or “Via Sampler” for “Preheating cycle”. For “Unit only” only the glassware and tubing of the K-375 device is heated up. With the option “Via Sampler” also glassware and tubing of a connected sampler can be included for the heat-up procedure. The duration of the preheating procedure (“Distillation time”) can not be changed. Press START to start the preheating procedure.

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Priming Priming is used to prepare the entire system. This

preparation procedure includes the distillation and titration with a clean and empty sample tube, as well as the dosing of chemicals. It is recommended to perform a priming at least once a day, before starting analysis. The priming procedure is similar to a sample determination method and can be modiﬁed.

Priming Parameters Select Yes for “Preheating before priming” if prior to

the priming procedure a preheating procedure shall be performed.

Set the number of “Priming runs”.

Set “Priming cycle” to “Via sampler”, if the priming procedure should be performed via a present sampler. (Only visible if a sampler has been conﬁgured under “Settings”.)

(screenshot stretched)

The other parameter sets Distillation Parameters,

Titration Parameters, and Aspiration Parameters are just the same like within a method. A

detailed explanation can be found in the section “6.8.1 Method”.

Press START to start the priming procedure.

Press FACTORY DEFAULTS to reset the settings of this screen.

NOTE

If only one priming cycle is selected and no aspiration, no aspiration will be done at all. If more than one priming cycle is selected and no aspiration, the sample tube and the receiving vessel will be aspirated between the single priming cycles, but not after the last cycle has been performed – instead the system will be stopped after the last run.

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Cleaning With regular cleaning, the lifetime of the glass

parts can be extended. Thus it is recommended to perform a few cleaning runs before switching off the unit. The cleaning procedure is performed by means of a distillation with water in a clean sample tube. Thus all residues from the last sample determination can be removed.

The volume of water to be used for each cleaning cycle and the number of cleaning cycles can be adapted just like the distillation time in seconds.

The steam output can be set between 30 and 100%. In case a sampler is present, the Cleaning cycle can be enhanced from “Unit only” to “via sampler” – in this case the hoses from and to the sampler are also cleaned.

Press START to start the cleaning procedure.

Press FACTORY DEFAULTS to reset the settings of this screen.

NOTE

If only one cleaning run is selected and no aspiration, no aspiration will be done at all. If more than one cleaning run is selected and no aspiration, the sample tube and the receiving vessel will be aspirated between the single cleaning runs, but not after the last run has been performed – instead the system will be stopped after the last sample.

Aspiration The aspiration procedure automatically aspirates the

sample tube and/or the receiving vessel. All waste liquids of both sources can be collected separately.

Select “Yes” to enable automatic aspiration or “No” to switch of automatic aspiration for the respective vessel.

Press START to perform the aspiration.

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Buret functions Select the buret function to be performed:

∙ Prepare, ∙ Discharge, or ∙ Dose

Press START to start the selected buret function.

NOTE

If more than one buret is connected to the instrument, the respective buret unit (Acid or Base) can also be selected. An additional buret for a base can be connected to the device (e.g. for back titrations) and will be detected automatically during power-on of the instrument.

Pump calibration Select the pump to be calibrated (H2O, NaOH or

H3BO3). Enter the target “Dose volume”, e.g. 50mL.

Press START to start the calibration procedure.

Measure the actually dosed volume and enter it as calibration volume in the displayed screen. Repeat the calibration procedure, until the measured and the dosed volume correspond. An acceptable difference at 50mL is ±5mL.

NOTE

H2O and NaOH can be dosed into the sample tube and then poured into a graduated cylinder for measurement. The H3BO3 can be dosed directly into the receiving vessel and then poured into a graduated cylinder.

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Sampler functions The actions “Move to zero position” and “Move to

service position” are available for both sampler types (1-tray and 2-tray). For a 2-tray sampler the arm is moved to the corresponding zero or service position of the tray, the arm is actually positioned in.

For a 2-tray sampler it is also possible to move the arm of the sampler with “Move to tray A” from tray B to the zero position of tray A and vice versa.

Press START to move the arm to the selected posi- tion.

Measuring pH or mV Using this functionality a direct measurement can

be performed with the potentiometric or colorimetric sensor.

Select either potentiometric or colorimetric for the “Sensor type”. Adapt the stirrer speed during the measurement to your needs.

Press START to start the measurement.

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Single Sample

In general four different kinds of samples can be determined:

∙ Blanks (can be used for the correction of sample results). ∙ Samples ∙ Reference substances (results can be rejected if a reference substance is outside of its

∙ Control blanks (to be determined for information only – can not be used for any sample

The single sample determination is thought for a small amount of samples to be measured without a sampler present.

6 Operation

predefined limits)

corrections)

First of all the sample type has to be selected:

∙ Blank, ∙ Sample, ∙ Reference substance or ∙ Control blank.

According to the selected type of sample, different parameters are available:

For samples of type Blank,

press “Name” and enter a name for the blank result.

Press “Method” and select the method to be used for the determination of the blank from the list of the available methods.

Press “Group” and select a result group for the storage of the result from the list of the available result groups. (It is also possible to create a new result group using the New Group button.)

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For samples of type Sample,

press “Name” and enter a name for the sample result.

Press “Sample weight” and enter the weight of the sample in [g] or [mL].

Press “Protein factor” and enter the protein factor for the determination of the results.

Press “Method” and select the method to be used for the sample determination from the list of the available methods.

Press “Group” and select a result group for the storage of the result from the list of the available result groups. (It is also possible to create a new result group using the New Group button.)

For samples of type Reference Substance,

press “Name” and enter a name for the result of the reference substance determination.

Press “Reference substance” and select the reference substance from the list.

Press “Sample weight” and enter the weight of the sample in [g] or [mL].

Press “Method” and select the method to be used for the determination of the reference substance from the list of the available methods.

Press “Group” and select a result group for the storage of the result from the list of the available result groups. (It is also possible to create a new result group using the New Group button.)

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6.6.3 Sample Lists

With the sample list functionality it is possible to predeﬁne a complete list of samples to be determined one by one without a sampler. Each sample list can be ﬁlled with any number of predeﬁned samples. If all samples of a sample list are selected at once for the determination, they will be determined in the same order they were added to the list. It is also possible to determine the samples in a different order by selecting individual samples from the list.

6 Operation

For samples of type Control Blank,

press “Name” and enter a name for the control blank result.

Press “Method” and select the method to be used for the determination of the control blank from the list of the available methods.

Press “Group” and select a result group for the storage of the result from the list of the available result groups. (It is also possible to create a new result group using the New Group button.)

The type (Blank, Sample, Reference substance or Control blank), and name of each sample can be chosen freely. The same applies for the used method and the result group for the storage of the result. For samples in addition the weight and the protein factor have to be speciﬁed. If a compatible balance is connected to the instrument, the weight of each sample can be automatically taken over from this balance.

NOTE

For each new sample the entries of the previously entered item are used as default values (the default value for the name depends on the type of the sample – in this case the name of the last sample of the same type is taken as default). All default values can be overwritten.

To start a sample list determination you have to enter the list and to select the samples to be determined. To select a complete list simply check the check box in front of the ﬁrst sample and check and hold the check mark in front of the last sample in the list or use SELECT ALL. As a result all samples in between will also be checked. (This will also work for deselecting a larger number of samples.) To exclude samples from the determination uncheck the check mark in front of the sample in question.

Once a sample has been determined (with or without a valid result) it is deleted from the list and the next sample in the list becomes sample number one (the next sample to be determined). After all samples of a list have been processed, the empty list remains on the device (it can either be reﬁlled with samples for the next determinations or deleted manually).

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The Sample Lists screen shows a list of all present Sample Lists.

New Sample Lists can be created with NEW and existing ones can be deleted, renamed or copied.

It is also possible to import sample lists that have been set up on a personal computer from a USB device or a network place.

User with administrator rights can also lock and unlock sample lists.

NOTE

Locked sample lists can not be edited and the contained samples can not be determined but they can be used as template by copying them.

Within each sample list all contained samples are listed together with name, type, method and weight (except blanks, where no weight is needed).

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Samples are added to the list with the NEW button. Already existing samples can be deleted after being selected.

With the SELECT/DESELECT ALL buttons all samples can be selected/deselected at once.

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When adding a new sample, always a sample of the same type like the previously added sample is added automatically. All parameters of the newly added sample can be adapted. Using the buttons PREVIOUS/NEXT POSITION it is possible to navigate from one set of sample parameters to the parameters of the previous or following sample in the list.

The ﬁrst parameter for each sample is the sample type:

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∙ Blank, ∙ Sample, ∙ Reference substance or ∙ Control blank.

Press NEW to enter a sample of the selected type on the next position without leaving the screen.

With OK the sample is added to the actual position and the sample list is displayed again.

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According to the selected type of sample, a different set of parameters is offered.

For samples of type Blank, press “Name” and enter a name for the blank result.

Press “Method” and select the method to be used for the determination of the blank from the list of the available methods.

Press “Group” and select a result group for the storage of the result from the list of the available result groups. (It is also possible to create a new result group using the New Group button.)

For samples of type Sample,

press “Name” and enter a name for the sample result.

6 Operation

Press “Sample weight” and enter the weight of the sample in [g] or [mL].

Press “Protein factor” and enter the protein factor for the determination of the results.

Press “Method” and select the method to be used for the sample determination from the list of the available methods.

Press “Group” and select a result group for the storage of the result from the list of the available result groups. (It is also possible to create a new result group using the New Group button.)

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For samples of type Reference Substance,

press “Name” and enter a name for the result of the reference substance determination.

Press “Reference substance” and select the reference substance from the list.

Press “Sample weight” and enter the weight of the sample in [g] or [mL].

Press “Method” and select the method to be used for the determination of the reference substance from the list of the available methods.

Press “Group” and select a result group for the storage of the result from the list of the available result groups. (It is also possible to create a new result group using the New Group button.)

For samples of type Control Blank,

press “Name” and enter a name for the control blank result.

6 Operation

Press “Method” and select the method to be used for the determination of the control blank from the list of the available methods.

Press “Group” and select a result group for the storage of the result from the list of the available result groups. (It is also possible to create a new result group using the New Group button.)

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Using the BALANCE button the weight of samples can be taken over from a connected balance:

∙ Select all samples using the SELECT ALL

button

∙ Press BALANCE – all blanks and control

blanks are automatically deselected (no weight is needed for blanks)

∙ Place the first sample on the balance and

press Enter on the balance – the first weight is taken over from the balance and entered

into the first checked sample in the list. ∙ Proceed with the next sample ∙ When all sample weights have been taken

over, the balance mode is automatically left.

NOTE

Using a bar code reader it is also possible to read in every sample related data like name or weight from a barcode. The read in data is automatically ﬁlled in the active input ﬁeld.

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6.6.4 Sequences

The Sequences button is only available if an auto sampler is present and conﬁgured under

Device  Settings  Peripherals  Sampler present

If the sampler has been installed and prepared properly, a sample series to be determined with a one- or two-tray sampler can be deﬁned and pre programmed via a sequence. A sequence contains a number of steps deﬁning the samples itself and the necessary system tasks like preheating, priming, aspiration etc.

The following types of steps may be used within a sequence:

Step Explanation

Preheating The preheating procedure is performed according to the settings under

Priming The priming procedure is performed according to the settings under

Rack 4 Enter the sample details for a four-place express rack. For a 2-tray sampler the tray

Rack 12 Enter the samples for a 12 place rack. For a 2-tray sampler the tray position (A or B)

System Preparation  Preheating

System Preparation  Priming

position (A or B) can be selected using the SETTINGS button within the step. This step can be edited within the sequence.

can be selected using the SETTINGS button within the step. This step can be edited within the sequence.

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Rack 20 Enter the samples for a 20 place rack. For a 2-tray sampler the tray position (A or B)

can be selected using the SETTINGS button within the step. This step can be edited within the sequence.

Pause The sequence is stopped until it is continued by pressing Start.

This step cannot be changed.

Cleaning The cleaning procedure is performed according to the settings under

System Preparation  Cleaning

Aspiration The aspiration procedure for the sample tube and the receiving vessel is always

performed, unless the aspiration parameters of the referenced method are set to No. (In this case the sample determination will stop after the determination of the sample with the corresponding method.)

Dose H3BO3 This step is thought for the protection of the electrode. 50mL of boric acid are dosed

to the receiving vessel to keep the electrode immersed during non-usage of the instrument. This step cannot be changed.

Standby The device is sent to Standby mode.

This step cannot be changed.

NOTE

The order of the steps can not be changed once they have been added to the sequence, but steps can always be deleted and added again in a different order. The tasks Preheating, Priming, and Cleaning are always performed “via sampler”, if used within a sequence. Even if those tasks are set to “unit only” within the area “System Preparation” , this setting will be omitted.

Once started, all samples within a sequence are determined automatically one by one in the workingorder of the sampler. Each sequence will be deleted from the sequence list the following day, in case all samples have been determined properly. Sequences containing faulty samples will not be deleted.

Press the Sequences button.

Under Sequences a list of all present sample sequences for the sampler is displayed.

New sample sequences can be created with NEW and existing ones can be deleted, renamed or copied.

It is also possible to import sample sequences that have been set up on a personal computer from a USB device or a network place.

User with administrator rights can also lock and unlock sample sequences.

NOTE

Locked sequences can not be edited and the determination of the sample sequence can not be started.

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Press NEW to create a new sample sequence.

After entering a unique name for the new sequence either a ﬁrst single step, or a default set of the ﬁve commonly used steps can be added to the new sequence (press Add Defaults to add the default set of steps or select a single step from the list and press OK).

Additional steps can be entered by pressing NEW.

NOTE

Since the order of the steps can not be changed afterwards, make sure to add the steps in a reasonable order.

(screenshot stretched)

To change the order of steps within a sequence you have to delete selected steps and to add them again in a reasonable order.

NOTE

Except the steps “Rack 4“, “Rack 12“, and “Rack 20“ none of the steps can be changed from within the sequence. (See the table at the beginning of this chapter for details.) The tasks Preheating, Priming, and Cleaning are always performed “via sampler”, if used within a sequence. Even if those tasks are set to “unit only” within the “System Preparation” under “Preparative tasks”, this setting will be omitted.

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Click on the Rack step to adapt the settings of the rack and to add samples to the rack.

Press SETTINGS and adapt the settings for the rack:

“Determine blanks ﬁrst” Yes/No

(If blanks are determined ﬁrst, the risk of a crosscontamination can be minimized for the blanks.)

“Pause after blank calculation” Yes/No

A pause after the blank calculation leaves a user with operator rights the chance to eliminate a faulty blank determination from the calculation before any sample determinations are corrected with the calculated blank.

The third setting is only available for 2-tray samplers:

“Use tray in sampler” A/B

Deﬁne the position of the rack in the K-377 sampler. The step will be marked with A or B.

The positions of the rack can be ﬁlled one by one with samples by clicking on each position.

NOTE

Using the buttons PREVIOUS POSITION and NEXT POSITION you can switch easily from one

sample to the next/previous within each parameter screen. Thus each parameter can be adapted for all samples of the rack in a very easy and convenient way.

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The ﬁrst parameter for each sample is the sample type:

∙ Blank, ∙ Sample, ∙ Reference substance or ∙ Control blank.

Press NEW to enter a sample of the selected type on the next position without leaving the screen.

With OK the sample is added to the actual position and the sample list is displayed again.

(According to the selected type of sample, a different set of parameters is offered.)

For samples of type Blank,

press “Name” and enter a name for the blank result.

Press “Method” and select the method to be used for the determination of the blank from the list of the available methods.

Press “Group” and select a result group for the storage of the result from the list of the available result groups. (It is also possible to create a new result group using the New Group button.)

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For samples of type Sample,

press “Name” and enter a name for the sample result.

Press “Sample weight” and enter the weight of the sample in [g] or [mL].

Press “Protein factor” and enter the protein factor for the determination of the results.

NOTE

Using a bar code reader it is also possible to read in every sample related data like name or weight from a barcode. The read in data is automatically ﬁlled in the active input ﬁeld.

Press “Method” and select the method to be used for the sample determination from the list of the available methods.

Press “Group” and select a result group for the storage of the result from the list of the available result groups. (It is also possible to create a new result group using the New Group button.) For samples of type Reference Substance,

press “Name” and enter a name for the result of the reference substance determination.

Press “Reference substance” and select the reference substance from the list.

Press “Sample weight” and enter the weight of the sample in [g] or [mL].

Press “Method” and select the method to be used for the determination of the reference substance from the list of the available methods.

Press “Group” and select a result group for the storage of the result from the list of the available result groups. (It is also possible to create a new result group using the New Group button.)

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For samples of type Control Blank,

press “Name” and enter a name for the control blank result.

Press “Method” and select the method to be used for the determination of the control blank from the list of the available methods.

Press “Group” and select a result group for the storage of the result from the list of the available result groups. (It is also possible to create a new result group using the New Group button.)

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Using the BALANCE button the weight of samples can be taken over from a connected balance:

∙ Select all samples ∙ Press BALANCE – all blanks and control

blanks are automatically deselected (no weight is needed for blanks)

∙ Place the first sample on the balance and

press Enter on the balance – the first weight is taken over from the balance and entered

into the first checked sample in the list. ∙ Proceed with the next sample ∙ When all sample weights have been taken

over, the balance mode is automatically left.

If certain samples of a rack that is already in progress have to be determined immediately this can be done using the Split Rack functionality:

Press PAUSE to stop the determination of the sequence.

Select the samples to be determined immediately and press SPLIT RACK.

The selected samples will be deleted from the sequence and will be inserted into the rack-step of a new created sequence at the same position of the rack.

The newly created Split-Sequence can be started to determine express samples – afterwards the previous sequence can be continued.

NOTE

Using the button EDIT MODE it is possible to edit samples of a rack that is not yet being processed during a running sequence.

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6.7 Results

In the result area all tasks related to the results (viewing, printing, and exporting) can be performed.

6.7.1 Result groups

As the name implies, result groups are folders in which results can be stored and grouped in accordance with their properties. The group a result shall be assigned to can be speciﬁed using the corresponding sample parameter “Group” while deﬁning single samples, sample lists or sequences.

6 Operation

The Result Groups screen shows a list of all present groups, available for the storage of results.

Result groups can be created, renamed and deleted by users with administrator rights. User with operator rights are only allowed to create new result groups. Using the FILTE R button, the list of the Result groups can be ﬁltered with respect to the name and the creation date of the group:

Set the “Group ﬁlter” to On to ﬁlter the list of result groups. Select Yes for “Filter between dates” if you wish to ﬁlter the list with respect to the creation or rename date and specify a time period using begin and end date.

Specify a part of the group name as ﬁltering criterion using “Group name contains”.

NOTE

All speciﬁed ﬁlters are correlated using the logical ”AND” – meaning every condition speciﬁed in the ﬁlter settings must apply in order for a group to match the ﬁlter.

Once a ﬁlter has been set, the FI LTE R button is switched to FILTER ACTIVE:

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

The content of selected groups or selected results can be printed (PRINT) or exported (EXPORT) to a memory stick or network folder. The path to the network folder and to the target directory on the memory stick can be deﬁned under Settings  Import & Export (see chapter “6.9.1 Settings“).

Just like the list of the result groups, also the list of the contained results can be ﬁltered. Enter a sample group to set the sample ﬁlter:

Press FILTER to set the sample ﬁlter.

Set the “Sample ﬁlter” to On to ﬁlter the list of displayed results. Select Yes for “Filter between dates” if you wish to ﬁlter the list with respect to the creation date and specify a time period using begin and end date.

The list of displayed results can be restricted to one or more certain types of results (blanks, samples, references, control blanks).

NOTE

All speciﬁed ﬁlters are correlated using the logical ”AND” – meaning every condition speciﬁed in the ﬁlter settings must apply in order for a group to match the ﬁlter.

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6.7.2 Last Results

The Last Results screen shows a list of the last 40 results of the system, regardless to the type of the results.

6 Operation

The sample report of selected results can be printed either detailed or short. Results can be exported to a USB stick or a network place.

NOTE

The last results are shown regardless of the result group they are assigned to.

Clicking on a single result opens the detailed sample report:

With PREVIOUS SAMPLE and NEXT SAMPLE you can navigate back and forth within the sample reports of the stored samples.

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6.7.3 Blank Correction

The blank correction can be switched on and off:

HOME  Blank Correction  SETTINGS

Within the Blank Correction main screen a list of the latest blanks can be viewed. By adapting the parameter “Blanks in list” under SETTINGS it can be determined how many blanks will be shown in this list:

6 Operation

ON Blank correction of results is switched on.

OFF Blank correction of results is switched off –

no blank correction at all will be performed.

- Will decrease the number of displayed blanks by 10.

+ Will increase the number of displayed blanks

by 10.

A maximum number of 90 blanks can be listed.

In general four different possibilities for the determination of the active blank value for the automatic correction of results are available:

∙ Blank values can be measured (type: measured). ∙ Blank values can be entered manually (type: manual). ∙ Blank values can be calculated as mean value of freely selectable measured blanks (type:

mean).

∙ Blank values can be determined automatically by the system (type: automatic).

The type and the value of the blank currently used for result correction is always displayed in the results section of the status view:

SHO W STATUS  RESULTS (See section 6.5.1)

Entering Manual blanks

To enter a blank value manually (e.g. for a blank value that has not been determined with the instrument), proceed as follows:

Enter the Blank Correction screen. Press SETTINGS.

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Press MANUAL Enter a name for the manual blank value. Enter the volume for the blank in [mL] Conﬁrm your settings with OK.

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Within the settings for the blank correction,

∙ switch “Blank correction” ON ∙ switch “Auto blank generation” OFF ∙ select NO for “Use last measured blank” ∙ confirm your settings with OK.

The entered blank value is now automatically selected and shown in the list of blanks in the Blank Correction screen. Manually entered blanks are listed in the blank list with type “manual”.

NOTE

If you select Yes for “Use last measured blank“ the next measured value for a sample of Type “Blank“ will be used for the correction of all subsequent sample determinations. All sample determinations up to the next blank determination will still be corrected using the currently selected blank value.

Deﬁning Mean blanks Mean blank values can be calculated over two or more measured blank values. To deﬁne a Mean

blank value, proceed as follows:

Enter the Blank Correction screen. Press SETTINGS.

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Press MEAN Enter a name for the mean blank value.

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Within the settings for the blank correction,

∙ switch “Blank correction” ON ∙ switch “Auto blank generation” OFF ∙ select NO for “Use last measured blank” ∙ confirm your settings with OK.

Check the check box of those measured blank values that shall be used for the calculation of the mean value.

Conﬁrm your selection with OK.

The calculated mean blank value is now automatically selected and shown in the list of blanks in the Blank Correction screen.

Averaged blanks are listed in the blank list with type “mean”.

NOTE

If you select Yes for “Use last measured blank“ the next measured blank value will be used for the correction of all subsequent sample determinations. All sample determinations up to the next blank determination will still be corrected using the currently selected blank value.

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Automatic Blank determination

With automatic blank determination switched on, each continuous row of measured blanks is automatically averaged and the resulting mean value is used for the correction of the subsequently measured sample(s). After one or more samples have been determined, the next measured blank (or the mean of the next measured continuous row of blanks) will be used as active blank value for the correction of the subsequent samples until the next blank is determined. Automatically determined blanks are listed in the blank list with type “automatic”.

Enter the Blank Correction screen. Press SETTINGS.

Within the settings for the blank correction,

∙ switch “Blank correction” ON ∙ switch “Auto blank generation” ON ∙ optionally select YES for “Monitor blank limits”

Set the tolerable range for each blank, compared with the mean blank value by deﬁning the Upper and Lower blank limit

∙ confirm your settings with OK.

The currently active blank can be viewed in the RESULT display of the status view.

NOTE

Monitoring the blank limits If the function “Monitor blank limits” is switched on, a tolerable range (deﬁned by the upper- and lower

limit in percent) can be deﬁned for an automatically calculated blank value. Each new determined blank that would be part of this calculation, is compared to the already calculated mean value. If the deviation of this blank value is outside of the speciﬁed range, the sequence is stopped and a warning message is displayed.

Changing an automatically calculated blank after it was used for sample correction A user with operator rights is not allowed to change any calculated mean blank value that has already

been used for the correction of any results. Since this proceeding would have an impact to the calculated results this option is restricted to users with administrator rights. Each blank that was changed subsequently (after it was used for sample correction) is marked with a “*”.

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6.8 Determination Parameters

Within this area, the methods for determinations with the K-375 can be written and the resources like reference substances or volumetric solutions for the titration can be deﬁned and edited. (Once deﬁned, the resources can be referenced from within the method.)

6.8.1 Methods

The structure of the K-375 method is highly ﬂexible and offers all possibilities to create a method that reﬂects the special needs of the user.

Each method consists of 4 different parameter sets:

∙ Parameters for the sample distillation ∙ Parameters for the sample titration ∙ Parameters for the sample determination (calculating the result) ∙ Parameters for the aspiration

NOTE

The method does not cover system preparation tasks like Preheating, Priming, and Cleaning – for single samples or sample lists those tasks have to be performed manually previous to a sample determination (See chapter “6.6.1 System Preparation“). For sequences (automated determination of sample racks with a sampler) the system preparation tasks can be deﬁned within the Sample Sequence previous to or after the determination of a complete rack (see chapter “6.6.4 Sequences“).

6 Operation

Within the Methods screen, methods can be created, deleted, renamed, copied or printed.

A new method is created using the NEW button. The name for a new method has to be unique.

With the buttons IMPORT and EXPORT, accessible via the SHOW OPTIONS button, methods can be imported from, or exported to a memory stick or a network folder. The path to the network folder and to the target directory on the memory stick is deﬁned under Settings  Import & Export (see chapter “6.9.1 Settings“).

NOTE

Methods marked with a small padlock are predeﬁned and can neither be deleted nor changed. Nevertheless they can be copied and stored as a new method which can be changed.

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6 Operation

The different areas of the method are separated from each other by the corresponding heading. The Method Information section at the bottom of each method provides information about the last modiﬁcation date and the creator of the method.

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K-375 / K-376 / K-377 Operation Manual, Version E