Universal Analyzers 500 series, 520, 530, 560, 565 User Manual

Instruction Manual

500 Series

Thermoelectric Gas Coolers

(Units sold prior to 07-01-2015)

5200 Convair Drive Carson City, NV 89706 • Phone: 775-883-2500 • Fax: 775-883-6388 • www.universalanalyzers.com

MAN.500.REVD.06302015

Contents

Receiving and Storage 4

Denition of Symbols 5

Specications 6

Description and Principle of Operation 8

Installation 11

Electrical Connections 12

Start-Up 18

Shutdown 18

Maintenance 19

Troubleshooting 20

Spare Parts 22

Drawings 23

Model 520 23

Model 530 24

Model 540 25

Model 560 26

Model 565 27

Model 570 28

Model 574 29

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Contents

Drawings - Controller Boards 30

Display Boards for Models 520, 530, 560, 565 30

Display Board for Models 540, 570, 574 31

Relay Board for Models 520, 530, 560, 565 32

Relay Board for Models 540, 570, 574 33

Drawings - Heat Exchangers 34

Metallic Heat Exchangers (Temperature Sensing) All Models 34

Metallic Heat Exchangers (Non-Temperature Sensing) All Models 36

Glass Kynar (Temperature Sensing) All Models 38

Glass Kynar (Non-Temperature Sensing) All Models 40

Limited Warranty 42

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MAN.500.REVD.06302015

Receiving and Storage

The Universal Analyzers 500 Series Thermoelectric Gas Coolers are complete pre-installed units. No assembly is

necessary when received on-site.

Carefully inspect the product and included accessories immediately on arrival by removing them from the packing and
checking for missing articles against the packing list.

Check the items for any damage which may have occurred during transit and immediately inform the shipping insurance

company of any damage found.

Refer to the Specications section (page 6) for information regarding storage requirements.

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Denition of Symbols

WARNING - EXPLOSION HAZARD - DO NOT DISCONNECT EQUIPMENT UNLESS POWER HAS BEEN SWITCHED

OFF OR THE AREA IS KNOWN TO BE NON-HAZARDOUS.

WARNING - EXPLOSION HAZARD - SUBSTITUTION OF COMPONENTS MAY IMPAIR SUITABILITY FOR

HAZARDOUS AREA INSTALLATION.

THE SUPPLY POWER CIRCUIT MUST INCLUDE AN OVERPROTECTION DEVICE WITH A MAXIMUM RATING OF 20

A. A DISCONNECT SWITCH MUST BE LOCATED IN CLOSE PROXIMITY TO THE PROBE.

IF THE EQUIPMENT IS USED IN A MANNER NOT SPECIFIED BY THE MANUFACTURER, THE PROTECTION

PROVIDED BY THE EQUIPMENT MAY BE IMPAIRED PER CLAUSE 5.4.4(i) IN STANDARD EN 61010-1

CAUTION, RISK OF DANGER SYMBOL INDICATES INJURY MAY OCCUR IF MANUFACTURER’S INSTRUCTIONS

ARE NOT ADHERED TO. PLEASE READ MANUAL CAREFULLY WHEN SYMBOL IS DISPLAYED

CAUTION, HOT SURFACE SYMBOL INDICATES EXPOSED SURFACE TEMPERATURE CAN CAUSE BURNS OR

PERSONAL INJURY. CARE SHOULD BE TAKEN WHEN CONTACT IS REQUIRED.

CAUTION, RISK OF ELECTRICAL SHOCK SYMBOL INDICATES ELECTRICAL SHOCK MAY OCCUR. CAUTION

SHOULD BE TAKEN BEFORE DISCONNECTING OR CONTACTING ANY ELECTRICAL CONNECTIONS.

PROTECTIVE CONDUCTOR TERMINAL SYMBOL INDICATES THE TERMINAL LOCATION FOR THE

PROTECTIVE CONDUCTOR. FAILURE TO CONNECT TO THE PROTECTIVE CONDUCTOR TERMINAL MAY RESULT

IN A SHOCK HAZARD.

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MAN.500.REVD.06302015

Specications

OPERATING SPECIFICATIONS

Sample Flow Rate

Model 520 0 to 2 1/2 l/m total (at STP)

Model 530 0 to 5 l/m total (at STP)

Model 540 0 to 4 l/m total (at STP)

Model 560 0 to 5 l/m total (at STP)

Model 570 0 to 4 l/m total (at STP)

Model 574 0 to 4 l/m total (at STP)

Maximum Inlet Temperature

Stainless Steel Heat Exchanger

Kynar/Glass Heat Exchanger

Maximum Inlet Gas Dew Point

Maximum Inlet Water Concentration 50%*

Minimum Ambient Temperature

Maximum Ambient Temperature

Maximum Cooling Power

Model 520 63 BTUs per hour (60 kJ/hr)

Model 530 63 BTUs per hour (60 kJ/hr)

Model 540 126 BTUs per hour (120 kJ/hr)

Model 560 126 BTUs per hour (120 kJ/hr)

Model 570 126 BTUs per hour (120 kJ/hr)

Model 574 126 BTUs per hour (120 kJ/hr)

Outlet Sample Dew Point

Gas Sample Inlet Fitting 3/8" tubing tting

Gas Sample Outlet Fitting 1/4" tubing tting

Bottom Water Drain Fitting 3/8" tubing tting

Maximum Input Power

Model 520 250 watts

Model 530 250 watts

Model 540 475 watts

Model 560 475 watts

Model 570 475 watts

Model 574 925 watts

Voltage

All models 90-132/180-264VAC, 50/60 Hz

Electrical Classication General Purpose, NEMA 1

Dimensions **

Model 520 11" H x 9" W x 9" D

Model 530 11" H x 11" W x 9" D

Model 540 11" H x 11" W x 10" D

Model 560 11" H x 9" W x 9" D

700°F (351°C)

280°F (138°C)

180°F (82°C)*

34°F (1°C)

105°F (41°C)*

41°F (5°C)

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Specications

Model 570 11" H x 11" W x 10" D

Model 574 11" H x 11" W x 11" D

Weight

Model 520 19 lbs (8.5 kg)

Model 530 21 lbs (9.5 kg)

Model 540 21 lbs (9.5 kg)

Model 560 21 lbs (9.5 kg)

Model 570 25 lbs (11.5 kg)

Model 574 25 lbs (11.5 kg)

Soluble Gas Removal Rates NO 0% loss

NO2 <10% loss
SO2 < 2% loss
CO 0% loss
CO2 < 2% loss

Storage Requirements

* AT REDUCED FLOW RATE ABOVE 77°F (25°C) AMBIENT
** DIMENSIONS DO NOT INCLUDE FITTINGS OR MOUNTING HARDWARE

Cool and dry location, -20°F < x < 120°F
< 95° relative humidity, non-condensing

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MAN.500.REVD.06302015

Description and Principle of Operation

APPLICATION

In order to accurately analyze combustion gases, moisture must be removed from the sample without removing gas
components of interest. The Universal Analyzers Thermoelectric Gas Cooler provides an ideal repeatable, and stable way
to decrease the dew point of combustion gasses. This prevents water condensation in sample prelters, sample pumps,
and gas analyzers. Where water vapor is an interferrent, a stable and repeatable dew point becomes a part of the gas
analyzer’s performance specication. The 500 Series Cooler provides this constant, resulting in an accurate analysis of

the gas components of interest.

The gas sample is rst pulled through a sample probe, which usually contains a heated lter, and then through a heated
sample line, which keeps the sample above its dew point. The 500 Series Cooler then condenses water out of the sample,

which lowers the dew point to 5°C (41°F).

The 500 Series Thermoelectric Gas Coolers are for general purpose, light duty applications. Several models are available
to meet various application conditions. Use the cooler selection chart below to best t a model to the expected ow rates,
water vapor concentrations, and ambient temperature conditions. If none of the models listed meet the needs of the

application, contact your Universal Analyzers local sales representative for more options.

GAS COOLER SELECTION CHART

Conditions Model

Ambient Water 520 530 540* 560 570 574* 574*

12% 2.5 l/m 4.0 l/m 2.5 l/m 5.0 l/m 4.0 l/m 5.0 l/m 2.5 l/m

77°F

(25°C)

90°F

(32°C)

105°F

(41°C)

# of Gas Streams 1 1 2 1 2 2 4

15% 2.0 l/m 4.0 l/m 2.0 l/m 4.0 l/m 4.0 l/m 4.0 l/m 2.0 l/m

30% 1.0 l/m 4.0 l/m 1.0 l/m 2.0 l/m 4.0 l/m 2.0 l/m 1.0 l/m

50% 0.6 l/m 4.0 l/m 0.6 l/m 1.0 l/m 4.0 l/m 1.0 l/m 0.6 l/m

12% 2.0 l/m 3.0 l/m 2.0 l/m 4.0 l/m 3.0 l/m 4.0 l/m 2.0 l/m

15% 1.8 l/m 3.0 l/m 1.8 l/m 3.5 l/m 3.0 l/m 3.5 l/m 1.8 l/m

30% 0.9 l/m 3.0 l/m 0.9 l/m 1.8 l/m 3.0 l/m 1.8 l/m 0.9 l/m

50% 0.5 l/m 3.0 l/m 0.5 l/m 0.9 l/m 3.0 l/m 0.9 l/m 0.5 l/m

12% 1.5 l/m 2.0 l/m 1.5 l/m 3.0 l/m 2.0 l/m 3.0 l/m 1.5 l/m

15% 1.2 l/m 2.0 l/m 1.2 l/m 2.5 l/m 2.0 l/m 2.5 l/m 1.2 l/m

30% 0.6 l/m 2.0 l/m 0.6 l/m 1.3 l/m 2.0 l/m 1.3 l/m 0.6 l/m

50% 0.3 l/m 2.0 l/m 0.3 l/m 0.7 l/m 2.0 l/m 0.7 l/m 0.3 l/m

*THE DATA PROVIDED IS FOR EACH STREAM

Various combustion processes can produce high levels of corrosive elements. An array of materials is available for the

500 Series Coolers, where gases come into contact with heat exchangers. 316SS is the most common option, and meets
the needs of most general purpose applications. Coatings of Silconert™ 2000, or Teon® may be added to the stainless

steel heat exchanger to enhance chemical resistance. Heat exchangers may also be made of other materials for corrosion

resistance, such as Glass/Kynar®, Kynar®/Kynar®, and Hastelloy® C276. Contact your local sales representative for

information on which material is best suited for your application.

New Jersey Thermocouple Types K and J are available for external monitoring of heat exchanger temperatures.

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Description and Principle of Operation

DESCRIPTION

The Universal Analyzers 500 Series Thermoelectric Gas Coolers condition gas sample streams to remove water vapor. The
gas sample is cooled thermoelectrically to a controlled temperature, and water vapor is condensed and removed.

The key to success is being able to condense the water from a wet gas sample with a minimal loss of the water soluble gas

fraction. The separation occurs in a classical impinger, which has a highly polished cylindrical surface, cooled to the desired

dew point temperature. The gas sample is brought to the bottom of the cylinder through an insulated tube and allowed to
rise through a narrow annular area at a relatively high Reynolds number to insure the entire sample is inuenced by the cold
surface. The condensate falls down the cold, polished surface in the form of a sheet (as opposed to droplets or the bubbling

of the gas sample through the condensate) which minimizes the surface area in contact with the gas sample.

The temperature of the cylindrical, condensation surface of the heat exchangers is maintained through intimate contact with

aluminum heat transfer blocks. The blocks are cooled with thermoelectric elements, controlled to a temperature of 5°C. The
temperature sensor is a type “K” thermocouple. The temperature controller is proportional with a band of 1°C.

The fan cooled heat sink is constructed from anodized, pure aluminum ns which transfer heat to the surrounding air. The
pure aluminum material is a far better conductor of heat than the aluminum alloys which are normally used for extruded heat
sinks. The result is an assembly with superior heat exhausting capabilities under high ambient temperature conditions.

The 500 Series Coolers have a digital display for front panel indication of the operating temperature of each of the heat

transfer blocks (switch selectable) in degrees Centigrade. Two internal jumpers at the top of the control circuit board within
the enclosure can be moved to change the indicated temperature to read out in degrees Fahrenheit.

Three LED lamps to indicate the status of the cooler. The “COOL” lamp is a green LED which indicates when the operating

temperature has fallen below the factory set temperature of 10°C. An “Over-temperature relay” is energized and closed to
the cool position when the “COOL” lamp is on. The relay board within the enclosure has dual terminal strip relay contacts for
alarm/shutdown purposes. The external gas sample pump may be interlocked with this relay to power off when temperatures
become too high (fail safe).

The “DRY” lamp is a green LED which indicates when there is no water in contact with the water carry-over sensor (provided

separately or as a system option). If no moisture sensor is used, the lamp may be turned off by installing a jumper on the
moisture sensor input terminals on the relay board. Without a moisture sensor installed, the “DRY” lamp is always lit and

doe not indicate a condition. The moisture sensor relay, which is energized in the “DRY” condition, provides contacts to an
annunciator panel and/or to turn off the sample pump in the “wet” condition.

The “TC” lamp is a red LED which indicates when there is a problem (open connection) in the temperature control

thermocouple. The “Over-temperature” relay will also transfer to the high temperature condition if the red “TC” lamp
comes on.

The WCO or WCOF, optionally available with the 500 Series Cooler Systems, is a sensor which detects the presence of
liquid water. One should be placed in each gas sample stream directly after the cooler to provide an alarm if condensate is

detected. The electronics associated with water carry-over sensors are included as a standard part of all Universal Analyzers
Thermoelectric Sample Coolers. Dual relay contact sets are provided for each moisture sensor. Relay contacts are energized
and closed to the dry position when the WCO sensor is dry and the unit is powered on.

LED INDICATOR CHART

LED Color Status Condition Relay Status

COOL Green

DRY Green

TC Red

On Operating properly, temperature below 10°C Over Temperature: Energized, towards COLD

Off Temperature too high or unit is OFF Over Temperature: De-Energized, towards HOT

On WCO sensor connected and sample is dry Moisture Sensor: Energized, towards DRY

Off Moisture detected or jumper installed Moisture Sensor: De-Energized, towards WET

On Temperature control TC has BAD quality Over temperature: De-Energized, towards HOT

Off Temperature control TC has OK quality Does not affect relays

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MAN.500.REVD.06302015

Description and Principle of Operation

DESCRIPTION

A gas sample pump may be provided as part of the sampling system. If the pump is placed ahead of the sample cooler, it
should be provided with a heated head to avoid the condensation of water vapor. If the sample pump is placed after the
sample cooler, drawing the sample through the cooler, the sample has been dried, and a standard, non-heated pump may
be used.

A means to control the ow of the sample through the system should be available and visible to the operator. This may be
accomplished through the use of pressure regulators with gauges, owmeters, and/or ow control needle valves.

Condensate removal from the heat exchanger(s) within the Sample Cooler can be accomplished through one of the

following methods:

1. A continuously running peristaltic tubing pump.

2. Installing the heat exchanger as a bypass condenser, pulling excess sample through with an eductor.

3. Using oat drain traps similar to a steam trap. This requires the sample within the cooler to be at a positive pressure.

4. Use of drain pots on level control with a removal pump.

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Installation

The 500 Series Thermoelectric Gas Coolers are best suited for air conditioned environments. Each unit dissipates
heat, and the surrounding area must be well ventilated to provide adequate cooling. The cooler should be located away
from other heat sources. If located inside an enclosure, outside air should be ducted directly onto the heat sink, and
thermostatically controlled fans and vents should be utilized. The interior of the enclosure should be insulated, and never

mount the unit in direct sunlight to avoid solar heat loading.

Route all sample gas lines directly to the 3/8” inlet tubing ttings located on the top of the cooler heat exchangers. When
two gas streams are being cooled, the left side of the unit is considered to be channel 1, and the right side of the unit is
channel 2. Sample outlet tubing ttings are reduced to 1/4".

At the bottom of each heat exchanger, a 3/8” tubing tting is provided for the condensate drain. The condensate tting
may be removed to expose a female 3/8” NPT connection. Equipment must be installed to remove the condensate such
as a peristaltic pump, liquid drainer, or aspirated drainer. A single head peristaltic pump is recommended. If an aspirator
drain is utilized, the outlet tubing should have a small bore and be no longer than two feet to minimize back pressure. The
drain must be run to an appropriate condensate disposal location.

A sample pump is normally required to pull the gas sample through the cooler. A Water Carry-Over Filter (WCOF) sensor
is recommended for each sample path. The pump should be located between the cooler and the lter. A clear glass bowl
should be installed around the lter to allow checking of the condition of the lter while online.

Each cooler consumes about 2 amps (at 115VAC) per every active heat exchanger. Use minimum wire size of 18 AWG,
stranded, tinned copper with a minimum rating of 300 Volts. Dual relays are provided for both the WET/ DRY and HOT/

COLD conditions. One set of relays are MOV protected and designed to interrupt power to the sample pump upon alarm.

The temperature of the heat exchangers may be viewed on the display on the front of the unit. If a multiple channel unit
has been provided, a selector switch on the right side of the display lets the user toggle the display from one block to the

other. For these same cooler models, a second toggle switch on the left side of the display allows the user to view the
settings for the relay and cooler temperatures. Jumpers inside the unit on the control panel allow setting the display for
degrees Celsius or degrees Fahrenheit.

Sample pumps, WCOF sensors, drains, ow meters, regulators, and other optional equipment are available from
Universal Analyzers. These may be purchased separately or installed on a complete 500 Series Sample

Conditioning System.

All installations shall be in accord with the manufacturer’s instructions and the National Electric Code (ANSI/NFPA 70).

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Electrical Connections Model 520

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Electrical Connections Model 530

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Electrical Connections Model 540

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