Patterson-Kelley MACH-05 manual CO2, C300/450 Adjusting Low and High Fire

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MACH® Series Gas-Fired Boiler

Installation

 

 

Table 3-1 Combustion Reading For Setting Gas Safety Shut Off / Control Valves

 

Nominal

High Fire Setting

 

Low Fire Setting

Fuel

 

 

 

 

 

Gas Pressure

% O2

% CO2

% O2

% CO2

 

 

 

 

 

 

 

Natural Gas

7" W.C

5.0 + 0.2

9.0 + 0.2

5.2

+ 0.2

8.8 + 0.2

 

 

 

 

 

 

 

Propane

11" W.C

5.0 + 0.2

10.4 + 0.3

5.2

+ 0.2

10.3 + 0.3

 

 

 

 

 

 

 

Adjustment:

There must be sufficient load to operate the boiler at high fire to perform the following adjustments. Start the boiler and observe proper operating parameters for the system.

Note: The MACH C300 and C450 boilers are each equipped with two gas safety shut off / control valves that operate in parallel. When making any adjustment to the valves, the adjustment must be performed on each of the valves equally.

Example: If an increase in the gas flow is required to lower the O2 level, turn each of the maximum flow restrictors equivalent amounts (i.e. ¼ or ½ turn each) and allow the analyzer readings to respond and stabilize before proceeding with additional adjustment. Adequate response time must be allowed for combustion readings to stabilize. This response time will be longer for low firing rates than for high firing rates.

High Fire Setting

Set boiler to the “Test Mode High”, as described above, to achieve maximum firing rate of the boiler. Check combustion readings using a combustion analyzer. If combustion readings are not in accordance with Table 3-1 adjust as follows:

Using a slotted screw driver or 2 mm hex wrench, set the maximum restrictor (high fire screw – see the figure below, item “D”) on each of the gas safety shut off / control valves by turning clockwise or counterclockwise to achieve the desired CO2 or O2 level; see Table 3-1 for correct settings. (There will be a slight time delay between the adjustment and the response of the CO2/O2 measuring instrument).

Clockwise rotation decreases gas flow. Counterclockwise rotation increases gas flow.

Low Fire Setting

Set boiler to the “Test Mode Low”, as described above, to achieve minimum firing rate of the boiler. Check combustion readings using a combustion analyzer. If combustion readings are not in accordance with Table 3-1 adjust as follows:

Using a 2 mm hex wrench, adjust the pressure regulator offset adjustment (see the figure below, item “R”) to achieve the CO2 /O2 level prescribed in Table 3-1. Note that equal adjustments must be made to each of the valves. Adjustments to the offset pressure regulators should not exceed ¼ turn at a time before allowing the readings to respond and stabilize. Please note, the rotation of the Low Fire adjustment is opposite of the High Fire as follows: Clockwise rotation increases gas flow, counterclockwise rotation decreases gas flow.

"R"

"D"

C300/450 Adjusting Low and High Fire

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Contents PATTERSON-KELLEY Mach Series Gas-Fired Boiler Operation What to do if you smell gas Safety IntroductionBurn, Fire, and Explosion Hazards Electrical HazardsChemical Hazards Weight in PoundsCrush Hazards Boiler SizePressure Hazards Slip, Fall HazardsPlacement InstallationStorage Prior to Installation Initial InspectionAdjustable Legs for Leveling and Floor Clearance ClearancesAir Inlet Requirements Electrical Connections at Rear of BoilerRequired Clearances Flue Connection at BoilerVent Terminations Sidewall InstallationsRooftop Installations Venting for Multiple BoilersSealed Combustion Air/Venting System Removing an Existing BoilerIntake/Exhaust Layout Sidewall Inlet, Roof Vent Roof Inlet and Vent Sealing the Intake Duct Intake Duct TerminationsIntake Duct Materials and Sizes Intake Duct Connection to BoilerIntake Termination Details Vent ElbowsTape on gas line threads Gas PipingFeet Gas Supply Piping by InstallerPiping Design InchesBoiler Inlet and Outlet Connections Boiler Inlet and Outlet ConnectionsBoiler Water Piping by Installer Flushing and FillingInspection Test of Ignition Safety System Mach C300 & C450Test of Gas Pressure Switch Test of Low Water Cut-outTest of High-Limit Control Operating Temperature Controller Upper Description Lower LimitStep Value Parameter Value Allowable Range Parameter ValueOutdoor AIR vs Boiler Setpoint Parameter Value Allowable Range FGas Pressure Adjustment Air Flow Adjustments Gas Valve Setup and AdjustmentGas Pressure Test Port C300/450 Adjusting Low and High Fire CO2C750/900/10500 Adjusting Low and High Mach C750, C900 & C450Operation Lighting ProceduresNormal Shut Down Procedures Control Panel FrontEmergency Shut-Off Emergency Shut-OffRate Monthly During Operation MaintenanceWeekly DailySemi-Annually every 6 months AnnuallyLoss of Power Loss of Water Level Manual Reset Service Codes Code LockoutAuto-reset Service Codes Do notPARTS/TECHNICAL Support Terminal Block Assignments High Voltage Circuit TB2 Terminal Number Label Description1a Terminal Block Assignments Low Voltage Circuit TB1 Wiring Series C-300 Wiring Series C-450 Wiring Series C-750/900/1050 Main Assembly Mach Series 300/450Control Panel Mark DescriptionDisplay Panel 4 C-300/450 Heat Engine Mark Description 5 C-750/900/1050 Heat Engine Mark Description6 C-300 Boiler Gas Train Mark Description7 C-450 Boiler Gas Train 8 C-750/900/1050 Boiler Gas Train Mark Description Limited Warranty RemedyThird Party Warranties Appendix CO2Parameter Settings for Mcba Controls Description Lower Limit Upper Limit Installed 2X = 3 way valve normally closed

MACH-05 specifications

The Patterson-Kelley MACH-05 is an innovative high-efficiency boiler designed to meet the demanding needs of today’s commercial and industrial applications. Known for its remarkable performance and advanced technologies, the MACH-05 stands out in the market with its ability to provide reliable heating solutions while minimizing energy consumption and environmental impact.

One of the key features of the MACH-05 is its cascading capability. This allows multiple units to be linked together for enhanced capacity and redundancy. By operating in a modular system, users can achieve optimal energy efficiency by adjusting the number of active units based on real-time demand. This ensures that the system operates at peak efficiency, increasing overall reliability and reducing operational costs.

The MACH-05 is equipped with a fully modulating burner system, which ensures precise control of output and efficiency across a broad range of operating conditions. This advanced burner technology facilitates a significant reduction in fuel usage compared to traditional fixed-output systems. Combined with its high thermal efficiency rating, the MACH-05 is not only environmentally friendly but also economically advantageous for facilities looking to lower energy expenses.

In terms of construction, the MACH-05 features a compact, lightweight design that allows for easy installation and integration into existing systems. Its stainless steel heat exchanger is built to provide superior durability and resistance to corrosion, ensuring a long operational lifespan and reducing maintenance requirements. This design advantage translates into lower lifecycle costs for end-users.

The boiler also incorporates intelligent control systems that enhance operational efficiency. These controls can monitor and adjust parameters in real-time, optimizing performance and offering detailed diagnostics to anticipate maintenance needs. The user-friendly interface makes it easy for operators to manage the system and access vital information regarding performance metrics.

Additionally, the MACH-05 is designed with safety in mind, featuring multiple safety controls and alarms that function to protect both the equipment and personnel. This commitment to safety ensures that facilities can operate with peace of mind, knowing that they have a reliable and secure heating solution.

In summary, the Patterson-Kelley MACH-05 combines advanced engineering, efficiency, and safety features to provide a versatile and dependable heating solution. Its key advantages, including cascading capabilities, fully modulating burner technology, and intelligent controls make it an ideal choice for commercial and industrial applications, paving the way toward sustainable and cost-effective heating systems.
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