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Energy Tech Laboratories MR212 manual Main Burner Adjustment

Models: MR212

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Maxitrol MR212 Low
Fire Bypass Screw
Maxitrol M511 and M611 Low Fire Bypass Screw
Firing Mode
Low Fire
Modulation
High Fire
Volts DC
0 to 5 VDC
5 to 15 VDC
15 to 20 VDC
Mod Valve Voltage Summary

Main Burner Adjustment

1. Once the pilot has been properly established, the manifold gas pressure or temperature rise should be adjusted to jobsite conditions. The gas pressure regulator (integral to the combination gas control on size

1-3 heaters and located in the modulating valve on size 4-5 heaters) is adjusted at the factory for average gas

conditions. It is important that the gas be supplied to the burner in accordance with the input rating on the rating plate.

2. Create a high fire call for heat. This should be done with the blower on and all gas controls on. High fire can be achieved by removing the wire at terminal #4 (remove wires #2 and #4 for Maxitrol 44 systems) from the Maxitrol 14 amplifier.

3. The manifold pressure should be checked

 

 

Average Manifold Pressure vs. Firing Rate/Ft. of Burner

 

at the pressure tap downstream of the

 

 

 

 

6.00

 

 

 

 

 

 

modulating valve. The graph to the right

 

 

 

 

 

 

 

 

indicates the proper manifold pressure for

 

5.00

 

 

 

 

 

 

the desired amount of BTUs per foot of

(in. w.c.)

 

Natural Gas

Propane Gas

 

 

 

burner. For natural gas systems, the high

4.00

 

 

 

 

 

 

 

 

 

 

 

 

 

fire manifold pressure should not exceed 5

3.00

 

 

 

 

 

 

in. w.c. For propane gas, the high fire

Pressure

 

 

 

 

 

 

 

 

 

 

 

 

 

manifold pressure should not exceed 2.5

2.00

 

 

 

 

 

 

in. w.c. Another method of checking high

Manifold

 

 

 

 

 

 

 

fire is to measure the temperature rise of

1.00

 

 

 

 

 

 

the unit. The temperature rise should be

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

set to design conditions and typically is

 

0.00

 

 

 

 

 

 

minimum 70°F.

 

 

 

 

 

 

 

 

4. Remove the cap from the combination gas

 

-1.00

 

 

 

 

 

 

 

0

100000

200000

300000

400000

500000

600000

valve regulator adjustment (size 1-3) or

 

 

Firing Rate (BTU/Hr/Ft. of Burner)

 

 

the cap from the MR212 valve (size 4-5).

Using the regulator pressure adjusting screw, adjust the high fire manifold pressure to 5 in. w.c. maximum for natural gas and 2.5 in. w.c. maximum for propane gas. High fire should be set to generate the desired temperature rise. If the high fire screw is at the end of its adjustment and more pressure is needed, then adjust the main building gas pressure regulator spring (located external to the unit) to achieve the proper manifold pressure. Turning the regulator screw clockwise will increase pressure and counter-clockwise will decrease pressure. Remember -

The high fire DC voltage should read 12 VDC minimum and should typically be 15 VDC on the Flame Safety Controller test jacks.

5.Reconnect the wire on the Maxitrol 14 amplifier at terminal #4 (wires #2 and #4 for Maxitrol 44).

6.The low fire manifold pressure must now be set. Low fire can be achieved

by removing the wire at terminal #5 from the Maxitrol 14 amplifier (remove #8 for Maxitrol 44). Check the low fire flame signal to ensure that the DC voltage is 12 VDC minimum on the Flame Safety Controller test jacks.

7.Using the bypass screw (located on the side of the M511 and M611 valves, and under the cap of the MR212 valve), adjust low the low fire manifold pressure until there is a very thin flame along the entire length of the burner. No dark spots should be seen in the burner. The burner may be observed through the view-port located on the external wall of the heater. Replace the cap to the Maxitrol valve and restore all of the original wiring on the

Maxitrol amplifier and gas components.

8. A final gas leak check shall be performed to verify the gas-tightness of the heater’s components and piping under normal operating conditions. This can be done by measuring the gas pressure at the ¼” gas plug just downstream of the modulating valve.

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Energy Tech Laboratories MR212 manual Main Burner Adjustment
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MR212 specifications

Energy Tech Laboratories has made significant strides in the field of energy management and efficiency with its groundbreaking product, the MR212. Designed for both industrial and commercial applications, the MR212 stands out for its cutting-edge technology and impressive features that cater to the evolving demands of the energy sector.

One of the main features of the MR212 is its advanced energy monitoring capabilities. Utilizing state-of-the-art sensors and algorithms, the device provides real-time data on energy consumption, helping businesses identify inefficiencies and optimize their energy use. This feature is crucial for organizations aiming to reduce operational costs and minimize their carbon footprint.

The MR212 is equipped with predictive analytics that harnesses machine learning to forecast energy needs based on historical data and usage patterns. This enables users to make informed decisions regarding energy procurement and management, ultimately leading to significant cost savings. Additionally, the system integrates seamlessly with existing infrastructure, making it easy to install and use without requiring a complete overhaul of current operations.

Another notable characteristic of the MR212 is its user-friendly interface. The device features an intuitive dashboard that offers visual representations of energy data, allowing users to monitor performance at a glance. Customizable alerts and notifications help users stay informed of any anomalies or significant changes in energy usage, facilitating prompt action and issue resolution.

The MR212 also supports integration with renewable energy sources, such as solar and wind power. This capability is essential for organizations looking to transition to greener energy alternatives and leverage incentives for using renewable technologies. By integrating seamlessly with these sources, the MR212 not only enhances energy efficiency but also promotes sustainability.

Moreover, Energy Tech Laboratories has ensured that the MR212 is built to withstand industrial environments. With robust construction and compliance with various industry standards, the device is designed for longevity and reliability, providing users with peace of mind.

In conclusion, the Energy Tech Laboratories MR212 is a comprehensive energy management tool that combines advanced monitoring, predictive analytics, and seamless integration with renewable energy sources. Its user-friendly interface and durability make it an ideal choice for businesses seeking to enhance their energy efficiency and sustainability practices. As the demand for smarter energy solutions continues to rise, the MR212 stands at the forefront, paving the way for a more efficient and sustainable future.