Watts Aerco BMK 750, Aerco BMK 2500, Aerco BMK 3000, Aerco BMK 5000, Aerco BMK 6000 Operation And Service Manual

Operation and Serv ice Manual

Other documents for this product include :

OMM-0137_D • GF-211 • 7/16/2019

Benchmark® Platinum Boilers
With Edge Controller

Natural Gas, Propane Gas and Dual Fuel
Modulating & Condensing Boilers

Models 750 through 6000

OMM-0136, GF-210 210 Installation and Startup Man ual
OMM-0138, GF-212 Reference Manual
OMM-0139, GF-213 Edge Controller Manual
TAG-0019, GF-2070 Boiler Application Guide

TAG-0022, GF-2050 Vent-Combustion Air Guide
TAG-0047, GF-2030 Benchmark Gas Guide
TAG-0048, GF-2060 Benchmark Power Guide

Applies to serial numbers:

G-19-0300 and above – B MK 750 – 3000
N-19-0100 and above – BMK 5000 & 6000

Benchmark Platinum-Edge: Operation-Service Manual

CONTENTS

Table of Contents

FOREWORD ...................................................................................................... 5

SECTION 1: SAFETY PRECAUTIONS ................................................................... 9

1.1 WARNINGS & CAUTIONS ..................................................................................................................... 9

1.2 EMERGENC Y SHUT D OWN ................................................................................................................. 10

1.3 PROLONGED SHUTDOWN ................................................................................................................. 10

1.4 IMPORTANT – FOR MASSACHUSETTS INSTALLATIONS ............................................................... 11

SECTION 2: EDGE CONTROLLER OPERATION .................................................. 13

2.1 INTRODUCTION ................................................................................................................................... 13

2.2 LOGIN AND PASSWORD ENTRY ....................................................................................................... 14

SECTION 3: START SEQUENCE ........................................................................ 15

3.1 INTRODUCTION ................................................................................................................................... 15

3.2 START SEQUENCE ............................................................................................................................. 15

3.3 START/STOP LEVELS ......................................................................................................................... 23

3.4 START/STOP LEVELS – AIR/FUEL & ENERGY INPUT ..................................................................... 24

3.4.1 BMK 750/1000 Air/Fuel Valve Position and Energy Input .............................................................................. 24

3.4.2 BMK 1500 Air/Fuel Valve Position and Energy Input ...................................................................................... 25

3.4.3 BMK 2000 Air/Fuel Valve Position and Energy Input ...................................................................................... 26

3.4.4 BMK 2500 Air/Fuel Valve Position and Energy Input ...................................................................................... 27

3.4.5 BMK 3000 Air/Fuel Valve Position and Energy Input ...................................................................................... 28

3.4.6 Benchmark 5000 Air/Fuel Valve Position and Energy Input ........................................................................... 29

3.4.7 Benchmark 6000 Air/Fuel Valve Position and Energy Input ........................................................................... 30

SECTION 4: INITIAL START-UP ........................................................................ 31

4.1 INITIAL START-UP REQUIREMENTS ................................................................................................. 31

4.2 TOOLS & INSTRUMENTS FOR COMBUSTION CALIBRATION ........................................................ 32

4.2.1 Required Tools & Instrumentation ................................................................................................................. 32

4.2.2 Installing Gas Supply Manometer ................................................................................................................... 32

4.2.3 Accessing the Analyzer Probe Port ................................................................................................................. 35

4.3 FUEL TYPES AND COMBUSTION CALIBRATION ............................................................................. 36

4.4 COMBUSTION CALIBRATION ............................................................................................................. 36

4.4.1 NATURAL GAS Manual Combustion Calibration ............................................................................................. 37

4.4.2 PROPANE GAS COMBUSTION CALIBRATION .................................................................................................. 42

4.5 REASSEMBLY ...................................................................................................................................... 47

4.6 DUAL FUEL SWITCHOVER ................................................................................................................. 48

4.7 OVER-TEMPERATURE LIMIT SWITCHES ......................................................................................... 49

4.7.1 Adjusting the Automatic Reset Limit Switch Temperature ............................................................................ 49

4.7.2 Resetting the Manual Reset Limit Switch ....................................................................................................... 50

4.7.3 Changing the Readout Between Fahrenheit and Celsius ................................................................................ 50

SECTION 5: SAFETY DEVICE TESTING .............................................................. 51

5.1 TESTING OF SAFETY DEVICES ......................................................................................................... 51

5.2 LOW GAS PRESSURE TEST .............................................................................................................. 52

5.2.1 LOW GAS PRESSURE TEST: BMK 750 – 2500 ................................................................................................... 52

5.2.2 LOW GAS PRESSURE TEST: BMK 3000 – 6000 Only ........................................................................................ 54

5.3 HIGH GAS PRESSURE TEST ............................................................................................................. 57

5.3.1 HIGH GAS PRESSURE TEST: BMK 750 – 2500 .................................................................................................. 57

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CONTENTS

5.3.2 HIGH GAS PRESSURE TEST: BMK 3000 – 6000 Only ........................................................................................ 59

5.4 LOW WATER LEVEL FAULT TEST ..................................................................................................... 62

5.5 WATER TEMPERATURE FAULT TEST .............................................................................................. 63

5.6 INTERLOCK TESTS ............................................................................................................................. 64

5.6.1 Remote Interlock Test..................................................................................................................................... 64

5.6.2 Delayed Interlock Test .................................................................................................................................... 64

5.7 FLAME FAULT TEST ............................................................................................................................ 65

5.8 AIR FLOW FAULT TESTS - BLOWER PROOF & BLOCKED INLET SWITCHES .............................. 66

5.8.1 Blower Proof Switch Test ................................................................................................................................ 66

5.8.2 Blocked Inlet Switch Test ................................................................................................................................ 68

5.9 SSOV PROOF OF CLOSURE SWITCH CHECK ................................................................................. 69

5.10 PURGE SWITCH OPEN DURING PURGE ........................................................................................ 70

5.11 IGNITION SWITCH OPEN DURING IGNITION ................................................................................. 72

5.12 SAFETY PRESSURE RELIEF VALVE TEST ..................................................................................... 72

SECTION 6: STANDALONE MODES OF OPERATION ......................................... 73

6.1 OUTDOOR RESET MODE ................................................................................................................... 73

6.1.1 Outdoor Air Temperature Sensor Installation ................................................................................................ 73

6.1.2 Outdoor Reset Mode Startup ......................................................................................................................... 74

6.2 CONSTANT SETPOINT MODE ........................................................................................................... 75

6.3 REMOTE SETPOINT MODE ................................................................................................................ 75

6.4 DIRECT DRIVE MODES....................................................................................................................... 76

6.5 AERCO CONTROL SYSTEM (ACS) .................................................................................................... 77

6.6 COMBINATION CONTROL SYSTEM (CCS) ....................................................................................... 78

6.6.1 Combination Control System Field Wiring ...................................................................................................... 79

6.6.2 Combination Control System Setup and Startup ............................................................................................ 79

SECTION 7: BOILER SEQUENCING TECHNOLOGY ............................................ 81

7.1 INTRODUCTION ................................................................................................................................... 81

7.1.1 Installation Notes............................................................................................................................................ 82

7.2 BST QUICK START CHART ................................................................................................................ 82

7.3 BST IMPLEMENTATION INSTRUCTION ............................................................................................ 83

7.3.1 Option 1 Constant Setpoint: Direct Wired Header Sensor ............................................................................. 83

7.3.2 Option 2 Constant Setpoint: Modbus Wired Header Sensor .......................................................................... 85

7.3.3 Option 3 Outdoor Reset: Direct Wired Header Sensor & Direct Wired Outdoor Sensor ............................... 87

7.3.4 Option 4 Outdoor Reset: Modbus Header Sensor & Modbus Outdoor Sensor .............................................. 89

7.3.5 Option 5 Remote Setpoint: Direct Wired Header Sensor & 4-20ma Setpoint Drive ...................................... 91

7.3.6 Option 6 Remote Setpoint: Direct Wired Header Sensor & Modbus Setpoint Drive ..................................... 93

7.3.7 Option 7 Remote Setpoint: Modbus Header Sensor & 4-20ma Setpoint Drive ............................................. 95

7.3.8 Option 8 Remote Setpoint: MODBUS Header Sensor & MODBUS Setpoint Drive ......................................... 97

SECTION 8: MAINTENANCE ............................................................................ 99

8.1 MAINTENANCE SCHEDULE ............................................................................................................... 99

8.2 IGNITER-INJECTOR – BMK 750 - 3000 ............................................................................................ 100

8.3 PILOT IGNITION ROD – BMK 5000 & 6000 ...................................................................................... 102

8.4 FLAME DETECTOR ........................................................................................................................... 102

8.5 O2 SENSOR ........................................................................................................................................ 103

8.5.1 Air Eductor Air Pump Maintenance – BMK 5000 & 6000 ........................................................................... 104

8.6 SAFETY DEVIC E T ESTING ............................................................................................................... 105

8.7 BURNER INSPECTION ...................................................................................................................... 105

8.8 CONDENSATE DRAIN TRAP ............................................................................................................ 108

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CONTENTS

8.9 AIR FILTER CLEANING AND REPLACEMENT ................................................................................ 109

8.10 REFRACTORY REPLACEMENT – BMK 5000 & 6000 ONLY ......................................................................... 109

8.10.1 Rear Refractory Replacement .................................................................................................................... 110

8.10.2 Front Refractory Replacement .................................................................................................................. 112

8.11 SHUTTING BOILER DOWN FOR EXTENDED PERIOD ................................................................. 113

8.11.1 Benchmark 5000/6000 Long Term Blower Storage .................................................................................... 113

8.12 RETURNING THE BOILER TO SERVICE AFTER SHUTDOWN .................................................... 115

8.13 RECOMMENDED PERIODIC TESTING .......................................................................................... 116

8.14 RECOMMENDED SPARES ............................................................................................................. 118

SECTION 9: AERTRIM OPERATION ................................................................ 119

9.1 AERTRIM INTRODUCTION ............................................................................................................... 119

9.2 AERTRIM ACTI VATION ..................................................................................................................... 119

9.3 OPERATION DETAILS ....................................................................................................................... 120

9.4 AERTRIM O2 SENSOR AUTO CALIBRATION .................................................................................. 122

9.5 AERTRIM MENU VAL U ES AND DEFAULTS..................................................................................... 123

9.6 AERTRIM MAINTENANCE AND TROUBLESHOOTING ................................................................... 129

SECTION 10: TROUBLESHOOTING .................................................................. 131

10.1 INTRODUCTION ............................................................................................................................... 131

10.2 ADDITIONAL FAULTS WITHOUT SPECIFIC FAULT MESSAGES ................................................ 143

NOTES: .................................................................................................. 145

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INPUT RANGE (BTU/HR.)

OUTPUT RANGE (BTU/HR.)

FORWARD

FOREWORD

The AERCO Benchmark (BMK) 750 through 6000 natural gas and propane fueled boilers are
modulating and condensing units. They represent a true industry advance that meets the needs
of today's energy and environmental concerns. Designed for application in any closed loop
hydronic system, the Benchmark's modulating capability relates energy input directly to
fluctuating system loads. These BMK models provide extremely high efficiency operation and
are ideally suited for modern low temperature, as well as, conventional heating systems.

The Benchmark models operate within the following input and output ranges:

IMPORTANT!

Unless otherwise specified:

• All descriptions provided in this document apply to the Benchmark Platinum Series of boiler.

• All measurements apply to both natural gas and propane models, unless otherwise

specified.

Benchmark Boiler Intake and Output Ranges

MODEL

MINIMUM MAXIMUM MINIMUM MAXIMUM

BMK 750 50,000 (14.6 kW) 750,000 (220 kW) 47,750 (14 kW) 716,250 (210 kW)

BMK 1000 50,000 (14.6 kW) 1,000,000 (293 kW) 48,300 (14.15 kW) 968,000 (284 kW)

BMK 1500 75,000 (22 kW) 1,500,000 (440 kW) 64,500 (18.9 kW) 1,395,000 (409 kW)

BMK 2000 100,000 (29.3 kW) 2,000,000 (586 kW) 86,000 (25.2 kW) 1,860,000 (545 kW)

BMK 2500 167,000 (48.9 kW) 2,500,000 (732 kW) 144,000 (42.2 kW) 2,395,000 (702 kW)

BMK 3000 200,000 (58.6 kW) 3,000,000 (879 kW) 174,000 (51.0 kW) 2,874,000 (842 kW)

BMK 5000 400,000 (117 kW) 5,000,000 (1465 kW) 348,000 (102 kW) 4,750,000 (1392 kW)

BMK 6000 400,000 (117 kW) 6,000,000 (1758 kW) 348,000 (102 kW) 5,700,000 (1670 kW)

The output of the boiler is a function of the unit’s firing rate (valve position) and return water
temperature.

When installed and operated in accordance with this Instruction Manual, the BMK 750 – 2000
and 5000 & 6000 comply with the NOx emission standards outlined in: South Coast Air
Quality Management District (SCAQMD), Rule 1146.2. In addition, the BMK 2500 – 6000
comply with the Bay Area Air Quality Management District regulation 9, Rule 7.

Whether used in singular or modular arrangements, the BMK boilers offer the maximum venting
flexibility with minimum installation space requirements. These boilers are Category II and IV,
positive pressure appliances. Single and/or multiple breeched units are capable of operation in
the following vent configurations:

• Room Combustion Air:

o Vertical Discharge
o Horizontal Discharge

• Ducted Combustion Air:

o Vertical Discharge
o Horizontal Discharge

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Symbol rate, or simply the number of distinct symbol changes
British Thermal Unit. A unit of energy approximately equal to the

Double Block and Bleed, a gas trains containing 2 Safety Shutoff

A control system developed by AERCO and currently used in all

FORWARD
These boilers are capable of being vented utilizing Polypropylene and AL29-4C vent systems. In

addition, the BMK 750 & 1000 models are also approved for PVC and CPVC, vent systems
(excluding the state of Massachusetts).

The Benchmark's advanced electronics are available in several selectable modes of operation
offering the most efficient operating methods and energy management system integration.

AERCO Technical Terminology Meanings

TERMINOLOGY MEANING

A (Amp) Ampere
ACS AERCO Control System, AERCO’s boiler management systems
ADDR Address
AGND Anal og Ground
ALRM Alarm
ANSI American National Standards Institute,
ASME American Society of Mechanical Engineers
AUX Auxiliary

BAS

Baud Rate

Building Automation System, often used interchangeably with EMS
(see below)

(signaling events) transmitted per second. It is not equal to bits per

second, unless each symbol is 1 bit long.
BMK (Benchmark) AERCO’s Benchmark series boilers
BMS or BMS II AERCO Boiler Management Systems

BLDG (Bldg) Building
BST AERCO on-board Boiler Sequencing Technology

BTU

heat required to raise 1 pound (0.45 kg) of water 1°F (0.55 °C)
BTU/HR BTUs per Hour (1 BTU/hr = 0.29 W)

CCS Combination Control System
CFH Cubic Feet per Hour (1 CFH = 0.028 m3/hr)
CO Carbon Monoxide
COMM (Comm) Communication
Cal. Calibration
CNTL Control
CPU Central Processing Unit

DBB

Valves (SSOVs) and a solenoid operated vent valve.
DIP Dual In-Line Package, a type of switch

ECU Electronic Control Unit (O2 sensor)
Edge Controller

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Benchmark Platinum boilers.

Benchmark Platinum-Edge: Operation-Service Manual

EMS

Energy Management System; often used interchangeably with BAS

LN

Low Nitrogen Oxide

MA (mA)

Milliampere (1 thousandth of an ampere)

MAX (Max)

Maximum

MBH

1000 BTUs per Hour

duplex data transmission protocol developed by AEG

NO (N.O.)

Normally Open

NOx

Nitrogen Oxide

NPT

National Pipe Thread

O2

Oxygen

FORWARD

AERCO Technical Terminology Meanings

TERMINOLOGY MEANING

FM Factor y Mutual. Used to define boiler gas trains.
GF-xxxx Gas Fired (an AERCO document numbering system)
GND Ground
HDR Header
Hex Hexadecimal Number (0 – 9, A – F)
HP Horse Power
HX Heat Exchanger
Hz Hertz (Cycles Per Second)
I.D. Inside Diameter
IGN Ignition
IGST Board Ignition/Stepper Board, contained in Edge Controller
INTLK (INTL’K) Interlock
I/O Input/Output
I/O Box Input/Output (I/O) Box currently used on Benchmark boilers
IP Internet Protocol
ISO International Organization for Standardization
Lbs. Pounds (1 lb = 0.45 kg)
LED Light Emitting Diode

MIN (Min) Minimum
Modbus®

A serial, half-

Modicon
NC (N.C.) Normally Closed

O.D. Outside Diameter
OMM, O&M Operation and Maintenance Manual
onAER

AERCO’s on-line remote monitoring s y stem
PCB Printed Circuit Board
PMC Board Primary Micro-Contr oller (PMC) board, contained in the Edge
P/N Part Number

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POC

Proof of Closure

duplex (FDX) transmission of data based

SPDT

Single Pole Double Throw, a type of switch

SSOV

Safety Shut Off Valve

TEMP (Temp)

Temperature

prevent reflections that may cause invalid data in the

FORWARD

AERCO Technical Terminology Meanings

TERMINOLOGY MEANING

PPM Part s per Million
PSI Pounds per Square Inch (1 PSI = 6.89 kPa)
PTP Point-to-Point (usually over RS232 networks)
P&T Pressure and Temperature
ProtoNode Hardware interface between BAS and a boiler or water heater
PVC Poly Vinyl Chloride, a common synthetic plastic
PWM Pulse Width Modulation
REF (Ref) Reference
RES. Resistive
RS232

(or EIA-232)
RS485

(or EIA-485)

A standard for serial, full-

on the RS232 Standard

A standard for serial, half-duplex (HDX) transmission of data based

on the RS485 Standard
RTN (Rtn) Return
SETPT (Setpt) Setpoint Temperature
SHLD (Shld) Shield

A resistor placed at each end of a daisy-chain or multi-drop network
Terminating Resistor

in order to

communication
Tip-N-Tell A device that indicates if a package was tipped during shipping
UL A business that tests and validates products
VAC Volts, Alternating Current
VDC Volts, Direct Current
VFD Variable Frequency Drive
VPS Valve Proving System
W Watt
W.C. Water Column, a unit of pressure (1 W.C. = 249 Pa)
µA Micro amp (1 millionth of an ampere)

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SECTION 1: SAFETY PRECAUTIONS

SECTION 1: SAFETY PRECAUTIONS

1.1 WARNINGS & CAUTIONS

Installers and operating personnel MUST, at all times, observe all safety regulations. The
following warnings and cautions are general and must be given the same attention as specific
precautions included in these instructions. In addition to all the requirements included in this
AERCO Instruction Manual, the installation of units MUST conform with local building codes, or,
in the absence of local codes, ANSI Z223.1 (National Fuel Gas Code Publication No. NFPA-54)
for gas-fired boilers and ANSI/NFPASB for LP gas-fired boilers. W here applicable, the
equipment shall be installed in accordance with the current Installation Code for Gas Burning
Appliances and Equipment, CSA B149.1, and applicable Provincial regulations for the class;
which should be carefully followed in all cases. Authorities having jurisdiction should be
consulted before installations are made.

See section 1.4 for important information regarding installation of units within the
Commonwealth of Massachusetts.

IMPORTANT!

This manual is an integral part of the product and must be maintained in legible condition. It
must be given to the user by the installer and kept in a safe place for future reference.

WARNING!

• Do not use matches, candles, flames, or other sources of ignition to check for gas leaks.

• Fluids under pressure may cause injury to personnel or damage to equipment when

released. Be sure to shut off all incoming and outgoing water shutoff valves. Carefully
decrease all trapped pressures to zero before performing maintenance.

• Before attempting to perform any maintenance on the unit, shut off all g as and electrical
inputs to the unit.

• The exhaust vent pipe of the unit operates under a positive pressure and therefore must
be completely sealed to prevent leakage of combustion products into living spaces.

• Electrical voltages up to 120 VAC (BMK 750 – 2000) and 208 or 460 VAC (BMK
2500/3000) or 208, 460 or 575 VAC (BMK 5000 & 6000) and 24 vo lts AC may be used

in this equipment. Therefore the cover on the unit’s power box (located behind the front
panel door) must be installed at all times, except during maintenance and servicing.

• A single-pole (120 VAC units) or three-pole (220 VAC and higher units) switch must be
installed on the electrical supply line of the unit. The switch must be installed in an easily
accessible position to quickly and safely disconnect electrical service. Do not affix switch
to unit sheet metal enclosures.

CAUTION!

• Many soaps used for gas pipe leak testing are corrosive to metals. The piping must be
rinsed thoroughly with clean water after leak checks have been completed.

• DO NOT use this boiler if any part has been under water. Call a qualified service
technician to inspect and replace any part that has been under water.

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VALVE

CLOSED

SECTION 1: SAFETY PRECAUTIONS

1.2 EMERGENCY SHUTDOWN

If overheating occurs or the gas supply fails to shut off, close the manual shutoff valve (Figure 1-

1) located external to the unit.

NOTE:

The Installer must identify and indicate the location of the emergency shutdown manual gas
valve to operating personnel.

VALVE

OPEN

Figure 1-1: External Manual Gas Shutoff Valve

In addition, to ensure safety an emergency shutdown procedure that addresses the following
points should be designed and implement at the site:

• For automatically operated unattended boilers located in a boiler room, provide a
manually operated remote shutdown switch or circuit breaker located just inside or
outside each boiler room door. Design the system so activation of the emergency
shutdown switch or circuit breaker will immediately shut off the fuel supply to the unit(s).

• For automatically operated unattended boilers in a location other than a boiler room,
provide a manually operated remote shutdown switch or circuit breaker marked for easy
identification at a location readily accessible in the event of boiler mis-operation.

• Design the system so activation of the emergency shutdown switch or circuit breaker will
immediately shut off the fuel.

• For boilers monitored and/or operated from a continuously occupied control room,
provide an emergency shutdown switch in the control room that is hard-wired to
immediately shut off the fuel upon activation.

1.3 PROLONGED SHUTDOWN

If there is an emergency, turn off the electrical power supply to the boiler and close the manual
gas valve located upstream from the unit. The installer must identify the emergency shut-off
device.

If the unit is being shut down for an extended period of time, such as a year or more, complete
the instructions in Section 8.11: Shutting Boiler Down For Extended Period.

When returning a unit to service after a prolonged shutdown, it is recommended that the
instructions in Section 4: Initial Startup Procedures and Section 5: Safety Device Testing be
performed to verify that all system-operating parameters are correct.

.

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Requirements For Massachusetts Installations

Boiler Installations within the Commonwealth of Massachusetts must conform to the

(a) For all side wall horizontally vented gas fueled equipment installed in every dwelling,

alled on each additional level of the dwelling,

be the responsibility of the property owner to secure the services of qualified licensed

the above requirements; provided, however, that during said thirty (30) day period, a

Each carbon monoxide detector as

accordance with the above provisions shall comply with NFPA 720 and be

VENT DIRECTLY BELOW. KEEP CLEAR OF ALL OBSTRUCTIONS". (Continued)

SECTION 1: SAFETY PRECAUTIONS

1.4 IMPORTANT – FOR MASSACHUSETTS INSTALLATIONS

following requirements:

• Boiler must be installed by a plumber or a gas fitter who is licensed within the

Commonwealth of Massachusetts.

• Prior to unit operation, the complete gas train and all connections must be leak

tested using a non-corrosive soap.

• The vent termination must be located a minimum of 4 feet above grade level. If

side-wall venting is used, the installation must conform to the following
requirements extracted from 248 CMR 5.08 (2):

building or structure used in whole or in part for residential purposes, including those owned or
operated by the Commonwealth and where the side wall exhaust vent termination is less than
seven (7) feet above finished grade in the area of the venting, including but not limited to decks
and porches, the following requirements shall be satisfied:

1. INSTALLATION OF CARBON MONOXIDE DETECTORS: At the time of installation of the
side wall horizontal vented gas fueled equipment, the installing plumber or gasfitter shall
observe that a hard wired carbon monoxide detector with an alarm and battery back-up is
installed on the floor level where the gas equipment is to be installed. In addition, the
installing plumber or gasfitter shall observe that a battery operated or hard wired carbon
monoxide detector with an alarm is inst
building or structure served by the side wall horizontal vented gas fueled equipment. It shall

professionals for the installation of hard wired carbon monoxide detectors.

a. In the event that the side wall horizontally vented gas fueled equipment is installed in a
crawl space or an attic, the hard wired carbon monoxide detector with alarm and battery
back-up may be installed on the next adjacent floor level.

b. In the event that the requirements of this subdivision can not be met at the time of
completion of installation, the owner shall have a period of thirty (30) days to comply with

battery operated carbon monoxide detector with an alarm shall be installed.

2. APPROVED CARBON MONOXIDE DETECTORS:
required in

ANSI/UL 2034 listed and IAS certified.

3. SIGNAGE: A metal or plastic identification plate shall be permanently mounted to the
exterior of the building at a minimum height of eight (8) feet above grade directly in line
with the exhaust vent terminal for the horizontally vented gas fueled heating appliance or
equipment. The sign shall read, in print size no less than one-half (1/2) inch in size, "GAS

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Requirements For Massachusetts Installations

observes carbon monoxide detectors and signage installed in accordance with the

venting system design or venting system components with the equipment, the instructions

When the manufacturer of a Product Approved side wall horizontally vented gas fueled

nd the

SECTION 1: SAFETY PRECAUTIONS

4. INSPECTION: The state or local gas inspector of the side wall horizontally vented gas
fueled equipment shall not approve the installation unless, upon inspection, the inspector

provisions of 248 CMR 5.08(2)(a)1 through 4.

(b) EXEMPTIONS: The following equipment is exempt from 248 CMR 5.08(2)(a)1 through 4:

1. The equipment listed in Section 10 entitled "Equipment Not Required To Be Vented" in
the most current edition of NFPA 54 as adopted by the Board; and

2. Product Approved side wall horizontally vented gas fueled equipment installed in a
room or structure separate from the dwelling, building or structure used in whole or in
part for residential purposes.

(c) MANUFACTURER REQUIREMENTS - GAS EQUIPMENT VENTING SYSTEM PROVIDED. When
the manufacturer of Product Approved side wall horizontally vented gas equipment provides a

provided by the manufacturer for installation of the equipment and the venting system shall
include:

1. Detailed instructions for the installation of the venting system design or the venting
system components; and

2. A complete parts list for the venting system design or venting system.

(d) MANUFACTURER REQUIREMENTS - GAS EQUIPMENT VENTING SYSTEM NOT PROVIDED.

equipment does not provide the parts for venting the flue gases, but identifies "special venting
systems", the following requirements shall be satisfied by the manufacturer:

1. The referenced "special venting system" instructions shall be included with the appliance
or equipment installation instructions; and

2. The "special venting systems" shall be Product Approved by the Board, a
instructions for that system shall include a parts list and detailed installation instructions.

(e) A copy of all installation instructions for all Product Approved side wall horizontally vented
gas fueled equipment, all venting instructions, all parts lists for venting instructions, and/or all
venting design instructions shall remain with the appliance or equipment at the completion of
the installation.

……………….[End of Extracted Information From 248 CMR 5.08 (2)]…………………

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temperature

temperature

1 2 3 6 7

10

11 4 5

9

8

SECTION 2: OPERATION

SECTION 2: EDGE CONTROLLER OPERATION

2.1 INTRODUCTION

This section provides a brief outline of how to gain access to Benchmark Boiler’s Edge
Controller functionality. Full instructions for using the Edge Controller to setup, configure and
operate a Benchmark Boiler are included in the Edge Controller Manual.

NOTE: The Edge Controller Manual is document number OMM-0139, GF-213.

The Edge Controller is shown below. This panel contains all of the controls, indicators and
displays necessary to operate, adjust and troubleshoot the boiler.

The Edge Controller’s front panel consists of a touchscreen display along with a variety of
indicators and buttons.

Multi-Function Bar, shows either:

1

• Fire Rate

• Valve Position

Parameter Indicator for both temperature
read-outs:

2

• LEFT: Inlet or Setpoint temperature

• RIGHT: Outlet or System Header

Temperature scale indicator: Fahrenheit

3

or Celsius
Configurable temperature read-outs (2):

• LEFT: Inlet or Setpoint

4

• RIGHT: Outlet or System Header

Operation Mode Indicators (2):

• LEFT: Demand or Manual

5

• RIGHT: Manager or Client (BST

6 Edge Controller Touchscreen
7 Soft Keys
8 onAER Indicator Light

Ready Light

9

10 Enable/Disable Switch

Low Water Level Buttons (2):

• TEST: Initiates Low Water test

11

• RESET: Resets unit after Low Water

temperature

only)

test

Figure 2-1 Edge Controller Front Panel

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Benchmark Platinum-Edge: Operation-Service Manual

SECTION 2: OPERATION

2.2 Login and Password Entry

The Edge Controller has multiple levels of password protection.

Level Password Description

1 No password The default. Many parameters are visible but “Read Only.”
2 159

A higher-level password is reserved AERCO Master Technicians (AMT). It is distributed on an
individual basis.

To enter a password:

1. On the Edge Controller, go to
Password screen appears.

2. Use the number keypad to enter the password (each number appears as a X), then pr es s
Save. You will have access to the functionality associated with the level of the password
entered.

Allows routine maintenance to be performed. Appropriate for AERCO
Trained technicians (ATT).

Main Menu  Advanced Setup  Access. The Enter

Figure 2.2: Enter Password Screen

3. Once you have successfully logged into the system, the Main Menu appears. All Edge
functionality is accessed through one of the six Main Menu items.

Figure 2-3: Edge Controller Main Menu

NOTE:

Full instruct ions for using the Edge Controller are in the Edge Controller Manual (GF-213).

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Benchmark Platinum-Edge: Operation-Service Manual

SECTION 3 - START SEQUENCE

SECTION 3: START SEQUENCE

3.1 INTRODUCTION

The information in this section provides a guide to starting the Benchmark Boiler using the Edge
Controller. It is imperative that the initial startup of this unit be performed by factory trained
personnel. Operation prior to initial startup by factory trained personnel may void the equipment
warranty. In addition, the following WARNINGS and CAUTIONS must be observed at all times.

WARNING!

• All of the installation procedures in Section 2: Installation of the Benchmark Platinum-
Edge: INSTALLATION Manual (GF-210) must be completed before the initial start-up of

the unit.

• Electrical voltages up to 120 VAC (BMK 750 – 2000) and 208 or 460 VAC (BMK
2500/3000) or 208, 460 or 575 VAC (BMK 5000 & 6000) and 24 vo lts AC may be used

in this equipment. It must be serviced only by factory certified service technicians.

• Do not attempt to dry fire the unit. Starting the unit without a full water level can
seriously damage the unit and may result in injury to personnel or property damage. This
situation will void any warranty.

• Initial startup of the unit must be be performed by AERCO factory trained personnel.
Operation prior to initial startup by factory trained personnel may void the equipment
warranty. In addition, the following WARNINGS and CAUTIONS must be observed at all
times.

3.2 START SEQUENCE

When the Edge Controller Enable/Disable switch is set to t he Enable position, it checks all pre­purge safety switches to ensure they are closed. These switches include:

• High Water Temperature switch

• High Gas Pressure switch

• Low Gas Pressure switch

• Low Water Level switch

• Safety Shut-Off Valve (SSOV) Proof of Closure (POC) switch

NOTE:

The Blocked Inl et and downstream B lower Proof switches are not checked prior to starting
the pre-purge.

If all of the above switches are closed, the READY light (above the Enable/Disable switch) will
light when the switch is in the Enable position and the unit will be in the STANDBY mode.

NOTE:

If any of the Pre-Purge safety device switches are open, or the required conditions are not
observed throughout the start sequence, appropriate fault messages will be displayed.

When there is a demand for heat, the following events occur:

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SSOV

NATURAL
GAS INLET

NATURAL
GAS INLET

SECTION 3 - START SEQUENCE

Start Sequence

1. The Controller’s red DEMAND LED status indicator will light.

2. The unit checks all five pre-purge safety switches listed at the beginning of this section.
The Edge Controller’s ignition sequence screen walks you through the ignition screens and
demonstrates (or highlights) which switches are not met. SSOV locations are shown in
Figure 3-1a thro ugh 3-1d.

TO AIR/FUEL
VALVE

MANUAL
SHUT-OFF VALVE

LOW GAS
PRESSURE
SWITCH

Figure 3-1a: BMK 750 & 1000 SSOV Location (P/N 22322 shown)

TO

AIR/FUEL

MANUAL
SHUT-OFF
VALVE

VALVE

SSOV

HIGH GAS
PRESSURE
SWITCH

LOW GAS
PRESSURE
SWITCH

Figure 3-1b: BMK 1500 & 2000 SSOV Location (P/N 22314 shown)

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Benchmark Platinum-Edge: Operation-Service Manual

VALVE

NATURAL
GAS INLET

LOW GAS
SWITCH

NATURAL
GAS INLET

SECTION 3 - START SEQUENCE

Start Sequence

SSOV

TO
AIR/FUEL

MANUAL
SHUT-OFF
VALVE

VALVE

LOW GAS
PRESSURE
SWITCH

Figure 3-1c: BMK 2500: SSOV Location (P/N 22318 shown)

TO
AIR/FUEL

MANUAL

SHUT-OFF VALVE

HIGH GAS PRESSURE

SWITCH

Figure 3-1d: BMK 3000: SSOV L o cation (P/N 22310 shown)

SSOV

PRESSURE

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Benchmark Platinum-Edge: Operation-Service Manual

STEPPER MOT OR

100

UPSTREAM

TO AIR/FUEL

GAS INLET

MANUAL SHUT-

DOWNSTREAM

HIGH GAS

UPSTREAM LOW GAS

SECTION 3 - START SEQUENCE

Start Sequence

SSOV

SSOV WITH

VALVE

OFF VALVE

POC

- BMK 6000: 10.5” W.C., 2.6 kPa

- BMK 5000: 11.0” W.C., 2.7 kPa

PRESSURE SWITCH

PRESSURE SWITCH

- BMK 6000: 8.5” W.C., 2.1 kPa

- BMK 5000: 8.0” W.C., 2.0 kPa

Figure 3-1e: BMK 5000-6000: SSOV Location

3. The Auxiliary Delay occurs for a configurable length of time and the Delayed Interlocks are
closed.

4. Once all required safety device switches are closed, a purge cycle is initiated and the
following events occur:

a. The Blower relay energizes and turns on the blower.
b. The Air/Fuel Valve rotates to the full-open purge position and closes purge position

switch. The dial on the Air/Fuel Valve (Figure 3-2a and 3-2b) will read 100 to indicate
that it is full-open (100%).

c. The Fire Rate bargraph on the Controller’s front face shows 100%.

AIR INLET

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Figure 3-2a: BMK 750 & 1000 Air/Fuel Valve in Purge Position

TO

BLOWER

Benchmark Platinum-Edge: Operation-Service Manual

TO BLOWER

STEPPER
MOTOR

AIR IN

SECTION 3 - START SEQUENCE

Start Sequence

PURGE

VALVE POSITION

DIAL AT 100%

Figure 3-2b: BMK 1500 – 6000 Air/Fuel Valve In Purge Position

5. Next, the Blower Proof and Blocked Inlet switches close (Figure 3-4a and 3-4b). On the
Ignition Sequence screen the Purging indicator turns grey while purging is underway
(Figure 3-3) and Purge Timer displays the purge cycle’s elapsed time in seconds.

Figure 3-3: Ignition Sequence Screen – Purging

BLOWER PROOF SWITCH

BLOCKED INLET SWITCH

Figure 3-4a: BMK 750 & 1000 Blower Proof Switch

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Benchmark Platinum-Edge: Operation-Service Manual

fire (Ignition) position and closes the ignition

cycle turns on the

the Ignition

AIR/FUEL VALVE
OUTLET TO BLOWER

BLOWER

SWITCH

TRAIN

SECTION 3 - START SEQUENCE

Start Sequence

PROOF

AIR/FUEL VALVE
INLET FROM GAS

BLOCKED

INLET

SWITCH

Figure 3-4b: BMK 1500 – 6000 Blower Proof Switch

6. Upon completion of the purge cycle, the Controller initiates an ignition cycle and the
following events occur:

a) The Air/Fuel Valve rotates to the low-

switch. The Dial on the Air/Fuel Valve (Figure 3-5) will read between 25 and 35 to
indicate that the valve is in the low fire position.

b) The Spark Cleaning cycle begins (default duration = 7 sec.) and the Ignition Sequence

screen’s Spark Cleaning indicator (Figure 3-3) turns grey. This
ignition transformer to produce a spark (with no gas flowing) to remove moisture and
carbon buildup from the spark element. For the duration of this cycle, the Controller
displays the Cleaning Igniter status message.

c) Following the Spark Cleaning cycle, power is applied to the gas S afety Shut -off Val ve

(SSOV). When the SSOV indicates the Gas Valve is OPEN (POC) and
Sequence screen’s Ignition indicator (Figure 3-3) turns grey.

d) If no spark is present 3 seconds into the ignition trial, the Controller aborts th e Igni tion

Cycle and shuts down the boiler. Refer to Section 10: Troubleshooting in this g uide for
guidance if this occurs.

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TO BLOWER

AIR IN

25% to 35%

STEPPER
MOTOR

SECTION 3 - START SEQUENCE

Start Sequence

IGNITION

VALVE POSITIO N

DIAL AT

Figure 3-5: Air/Fuel Valve In Ignition Position

7. Up to 4 seconds are allowed for ignition to be detected. The ignition circuit is turned off
one second after flame is detected.

8. After 2 seconds of continuous flame, the flame strength is indicated. After 5 seconds, the
Unit Status screen appears.

9. With the unit firing properly, it will be controlled by the temperature control circuitry. The
boiler’s fire rate or valve position (depending on which was chosen in Section 6.2.2: Front
Panel Configuration of the Edge Controller Manual) will continuously display on the
Controller’s bargraph.

10. Once the demand for heat has been satisfied, the Edge Controller will turn off the SSOV

gas valve. The blower relay will be deactivated and the Air/Fuel Valve wil l be closed.
Standby is displayed.

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Operating State

Pre-purge

PFEP

MFEP

Standby

T = 0

T = 30

T = 37

T = 44

Run

Component

PFEP

MFEP

C-More Controller

Scanner Power

Ignition Power

SSOV Power

Pilot Valve Closed

Pilot Valve Open

Ignition Transformer Off

Ignition Transformer On

UV Scanner Powered

UV Scanner "Ignored"

UV Scanner In Use

Relay 1 Coil

Relay 1 C-NC

Relay 1 C-NO

Relay 2 Coil Power from R1

Relay 2 Coil Power from SKP 15 POC

Relay 2 C-NC

Relay 2 C-NO

SKP15 Power from R1 Contacts

SKP15 Power from R2 contact and POC
C-NO

SKP15 Proof of Closure C-NC

SKP15 Proof of Closure C-NO

SKP25

Power through R1

Power through R2 and AUX

Proof of Closure C-NC

Proof of Closure C-NO

SECTION 3 - START SEQUENCE

BMK 5000 & 6000 Function Timing Chart For Proved Pilot Control System

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Benchmark Platinum-Edge: Operation-Service Manual

TABLE 3-1a: Start/Stop Levels – NATURAL GAS

Level:

Level:

Position

TABLE 3-1b: Start/Stop Levels – PROPANE GAS

750

1000

1500

2000

2500

3000

5000

6000

Level:

Level:

SECTION 3 - START SEQUENCE

3.3 START/STOP LEVELS

The start and stop levels are the Air/Fuel Valve positions (% open) that start and stop the unit,
based on load. These levels are Factory preset as follows:

Start

Stop

Ignition

Start

Stop

Ignition
Position

BMK

750

22% 22% 20% 24% 24% 20% 24% 24%

18% 18% 16% 18% 16% 14% 18% 18%

35% 35% 29% 29% 29% 29% 35% 50%

BMK

22% 22% 20% 24% 26% 22% 24% 24%

18% 18% 16% 18% 18% 14% 18% 18%

35% 35% 29% 29% 29% 29% 35% 50%

BMK
1000

BMK

BMK
1500

BMK

BMK
2000

BMK

BMK
2500

BMK

BMK
3000

BMK

BMK
5000

BMK

BMK
6000

BMK

Normally, these settings do not require adjustment.
Note that the energy input of the boiler is not linearly related to the Air/Fuel Valve position.

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Benchmark Platinum-Edge: Operation-Service Manual

TABLE 3-2a: BMK 750/1000 Air/Fuel Valve Position – NATURAL GAS

CAPACITY)

BMK 750

BMK 1000

BMK 750

BMK 1000

0% 0 0

0

0

10% 0 0

0

0

18% (Stop Level)

50,000 (14.7 kW)

50,000 (14.7 kW)

6.7%

5%

20%

52,000 (15.2 kW)

54,000 (15.8 kW)

6.9%

5.4%

30%

108,000 (31.7 kW)

140,000 (41.0 kW)

14%

14%

40%

246,000 (72.1 kW)

297,000 (87.0 kW)

33%

30%

50%

369,000 (108.1 kW)

443,000 (126.9 kW)

49%

44%

60%

465,000 (136.3 kW)

564,000 (165.3 kW)

62%

56%

70%

554,000 (162.4 kW)

660,000 (193.4 kW)

74%

66%

80%

637,000 (186.7 kW)

789,000 (231.2 kW)

85%

79%

90%

733,000 (214.8 kW)

933,000 (273.4 kW)

98%

93%

100%

750,000 (219.8 kW)

1,000,000 (293.1 kW)

100%

100%

TABLE 3-2b: BMK 750/1000 Air/Fuel Valve Position – PROPANE GAS

BMK 750

BMK 1000

BMK 750

BMK 1000

0% 0 0

0

0

10% 0 0

0

0

18% (Stop Level)

50,000 (14.7 kW

50,000 (14.7 kW

6.7%

5.0%

20%

71,000 (20.8 kW)

71,000 (20.8 kW)

9.5%

7.1%

30%

128,000 (37.5 kW)

181,000 (53.0 kW)

17%

18%

40%

373,000 (109.3 kW)

400,000 (117.2 kW)

50%

40%

50%

508,000 (148.9 kW)

562,000 (164.7 kW)

68%

56%

60%

565,000 (165.6 kW)

703,000 (206.0 kW)

75%

70%

70%

621,000 (182.0 kW)

791,000 (231.8 kW)

83%

79%

80%

660,000 (193.4 kW)

865,000 (253.5 kW)

88%

87%

90%

723,000 (211.9 kW)

963,000 (282.2 kW)

96%

96%

100%

750,000 (219.8 kW)

1,000,000 (293.1 kW)

100%

100%

SECTION 3 - START SEQUENCE

3.4 START/STOP LEVELS – AIR/FUEL & ENERGY INPUT

The Tables below show the relationship between the energy input and Air/Fuel Valve position
for the BMK models covered in this document.

3.4.1 BMK 750/1000 Air/Fuel Valve Position and Energy Input

AIR/FUEL VALVE

POSITION (%

OPEN)

Air/Fuel Valve

Position (%

Open)

ENERGY INPUT

(BTU/HR)

Energy Input

(BTU/Hr)

BOILER ENERGY

INPUT (% OF FULL

Boiler Energy Input
(% of Full Capacity)

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Benchmark Platinum-Edge: Operation-Service Manual

TABLE 3-3a: BMK 1500 Air/Fuel Valve Position – NATURAL GAS

AIR/FUEL VALVE POSITION

(% OPEN)

ENERGY INPUT

(BTU/HR)

BOILER ENERGY INPUT

(% OF FULL CAPACITY)

16% (Stop Level)

75,000 (22.3 kW)

5.0%

20%

127,000 (37.2 kW)

8.5%

30%

366,000 (107.2 kW)

24.4%

40%

629,000 (184.3 kW)

41.9%

50%

822,000 (240.9 kW)

54.7%

60%

977,000 (286.2 kW)

65.0%

70%

1,119,000 (327.9 kW)

74.5%

80%

1,255,000 (367.7 kW)

83.5%

90%

1,396,000 (409.0 kW)

92.9%

100%

1,502,000 (440.1 kW)

100%

TABLE 3-3b: BMK 1500 Air/Fuel Valve Position – PROPANE GAS

AIR/FUEL VALVE POSITION

(% OPEN)

ENERGY INPUT

(BTU/HR)

BOILER ENERGY INPUT

(% OF FULL CAPACITY)

18% (Stop Level)

75,000

5.0%

20%

93,700

6.2%

30%

254,000

16.9%

40%

505,000

33.7%

50%

680,000

45.3%

60%

807,000

53.8%

70%

947,000

63.1%

80%

1,157,000

77.1%

90%

1,379,000

91.9%

100%

1,503,000

100%

SECTION 3 - START SEQUENCE

3.4.2 BMK 1500 Air/Fuel Valve Position and Energy Input

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Benchmark Platinum-Edge: Operation-Service Manual

TABLE 3-4a: BMK 2000 Air/Fuel Valve Position – NATURAL GAS

AIR/FUEL VALVE POSITION

(% OPEN)

ENERGY INPUT

(BTU/HR)

BOILER ENERGY INPUT
(% OF FULL CAPACITY)

18% (Stop Level)

100,000 (29.3 kW)

5.7%

20%

143,000 (41.9 kW)

11%

30%

388,000 (113.7 kW)

23%

40%

759,000 (222.4 kW)

37%

50%

1,069,000 (313.2 kW)

51%

60%

1,283,000 (375.9 kW)

61%

70%

1,476,000 (432.5 kW)

74%

80%

1,675,000 (490.1 kW)

83%

90%

1,833,000 (537.1 kW)

93%

100%

2,000,000 (586.0 kW)

100%

TABLE 3-4b: BMK 2000 Air/Fuel Valve Position – PROPANE GAS

AIR/FUEL VALVE POSITION

(% OPEN)

ENERGY INPUT

(BTU/HR)

BOILER ENERGY INPUT

(% OF FULL CAPACITY)

18% (Stop Level)

100,000

5.0%

20%

126,600

6.3%

30%

363,000

18.2%

40%

677,000

33.9%

50%

898,000

44.9%

60%

1,070,000

53.5%

70%

1,242,000

62.1%

80%

1,523,000

76.2%

90%

1,845,000

92.3%

100%

2,000,000

100%

SECTION 3 - START SEQUENCE

3.4.3 BMK 2000 Air/Fuel Valve Position and Energy Input

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Benchmark Platinum-Edge: Operation-Service Manual

TABLE 3-5a: BMK 2500 Air/Fuel Valve Position – NATURAL GAS, Single Fuel

AIR/FUEL VALVE POSITION

(% OPEN)

ENERGY INPUT

(BTU/HR)

BOILER ENERGY INPUT

(% OF FULL CAPACITY)

16% (Stop Level)

167,000 (48.9 kW)

6.7%

30%

430,000 (126.0 kW)

17%

40%

770,000 (225.7 kW)

31%

50%

1,070,000 (313.6 kW)

43%

60%

1,440,000 (422.0 kW)

58%

70%

1,815,000 (531.9 kW)

73%

80%

2,030,000 (594.9 kW)

81%

90%

2,300,000 (674.1 kW)

92%

100%

2,500,000 (732.7 kW)

100%

TABLE 3-5b: BMK 2500 Air/Fuel Valve Position – PROPANE GAS

AIR/FUEL VALVE POSITION

(% OPEN)

ENERGY INPUT

(BTU/HR)

BOILER ENERGY INPUT

(% OF FULL CAPACITY)

18% (Stop Level)

155,000

6.2%

30%

400,000

16%

40%

808,000

32%

50%

1,055,000

42%

60%

1,330,000

53%

70%

1,671,000

67%

80%

1,998,000

80%

90%

2,280,000

91%

100%

2,500,000

100%

SECTION 3 - START SEQUENCE

3.4.4 BMK 2500 Air/Fuel Valve Position and Energy Input

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Benchmark Platinum-Edge: Operation-Service Manual

TABLE 3-6a: BMK 3000 Air/Fuel Valve Position – NATURAL GAS

AIR/FUEL VALVE POSITION

(% OPEN)

ENERGY INPUT

(BTU/HR.)

BOILER ENERGY INPUT
(% OF FULL CAPACITY)

14% (Stop Level)

200,000 (58.6 kW)

6.7%

30%

520,000 (152 kW)

17%

40%

880,000 (258 kW)

29%

50%

1,270,000 (372 kW)

42%

60%

1,680,000 (492 kW)

56%

70%

2,100,000 (615 kW)

70%

80%

2,390,000 (700 kW)

80%

90%

2,650,000 (777 kW)

88%

100%

3,000,000 (879 kW)

100%

TABLE 3-6b: BMK 3000 Air/Fuel Valve Position – PROPANE GAS

AIR/FUEL VALVE POSITION

(% OPEN)

ENERGY INPUT

(BTU/HR)

BOILER ENERGY INPUT

(% OF FULL CAPACITY)

18% (Stop Level)

200,000

6.7%

30%

520,000

17%

40%

920,000

31%

50%

1,270,000

42%

60%

1,570,000

52%

70%

1,960,000

65%

80%

2,330,000

78%

90%

2,700,000

90%

100%

3,000,000

100%

SECTION 3 - START SEQUENCE

3.4.5 BMK 3000 Air/Fuel Valve Position and Energy Input

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Benchmark Platinum-Edge: Operation-Service Manual

BMK 5000 Air/Fuel Valve Position and Energy Input

Air Fuel Valve

Boiler Energy Input

BTU/Hr

% of Full
Capacity

0%

0

0%

10%

0

0%

18% (Stop Level)

400,000 (117 kW)

8%

30%

997,217 (292 kW)

20%

40%

1,667,848 (489 kW)

33%

50%

1,992,380 (584 kW)

40%

60%

2,486,881 (729 kW)

50%

70%

2,981,381 (874 kW)

60%

80%

3,780,230 (1108 kW)

76%

90%

4,375,500 (1282 kW)

88%

100%

5,000,000 (1465 kW)

100%

BMK 5000 Gas Pressure De-Rating Chart

Gas Pressure @ SSOV

in inches W.C. (kPa)

Inlet

Outlet

56” (13.9 kPa)

6.8” (1.70 kPa)

5,000,000 (1465 kW)

5.7

0%

14” (3.49 kPa)

6.8” (1.70 kPa)

5,000,000 (1465 kW)

5.7

0%

10” (3.23 kPa)

6.8” (1.70 kPa)

5,000,000 (1465 kW)

5.7

0%

SECTION 3 - START SEQUENCE

3.4.6 Benchmark 5000 Air/Fuel Valve Position and Energy Input

Position

(% Full Open)

Energy Input in

BTU/hr

Oxygen

(%O

)

2

DeRating

(% Full Fire)

OMM-0137_D • GF-211 • 7/16/2019 Technical Support • (800) 526-0288 • Mon-Fri, 8 am - 5 pm EST Page 29 of 146

Benchmark Platinum-Edge: Operation-Service Manual

BMK 6000 Air/Fuel Valve Position and Energy Input

Air Fuel Valve

Boiler Energy Input

BTU/Hr

% of Full
Capacity

0%

0

0%

10%

0

0%

18% (Stop Level)

385,000 (113 kW)

6%

20%

400,000 (117 kW)

7%

30%

540,000 (158 kW)

9%

40%

770,000 (226 kW)

13%

50%

1,160,000 (340 kW)

19%

60%

1,650,000 (484 kW)

28%

70%

2,386,000 (699 kW)

40%

80%

3,515,000 (1030 kW)

59%

90%

4,650,000 (1362 kW)

78%

BMK 6000 Gas Pressure De-Rating Chart

in inches W.C. (kPa)

Inlet

Outlet

56” (13.9 kPa)

8” (1.99 kPa)

6,000,000 (1758 kW)

5.40

0%

14” (3.49 kPa)

8” (1.99 kPa)

6,000,000 (1758 kW)

5.40

0%

13” (3.23 kPa)

8” (1.99 kPa)

5,860,000 (1717 kW)

5.45

2%

SECTION 3 - START SEQUENCE

3.4.7 Benchmark 6000 Air/Fuel Valve Position and Energy Input

Position

(% Full Open)

Gas Pressure @ SSOV

Energy Input in

BTU/hr

Oxygen

(%O

)

2

DeRating

(% Full Fire)

OMM-0137_D • GF-211 • 7/16/2019 Technical Support • (800) 526-0288 • Mon-Fri, 8 am - 5 pm EST Page 30 of 146