Patterson-Kelley TBIG-03 owner manual Gas Pressure Adjustment, Leak Testing of Valves

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Gemini™ Twin-Fuel Gas-Fired Boiler

4.4.5Gas Pressure Adjustment

Increase Decrease

Figure 4-7 Regulator

The gas pressure is set initially during a factory fire- test. A final adjustment must be made after the boiler has been installed, as follows:

See rating plate for the minimum and maximum gas pressure of the boiler.

Each boiler is furnished with three plugged taps in the gas train for test gauge connections. Two taps are lo- cated at the natural gas and propane manual shutoff valves and are for measuring the gas supply pressure (1/4" I.P.S.). The supply pressure during main burner operation must be greater than the minimum indicated on the rating plate (6 inches W.C. for natural gas, 6 inches W.C. for propane). The remaining tap is lo- cated downstream from the secondary manual shutoff valve at the elbow where the gas line enters the back of the cabinet and is for measuring the manifold gas pressure (1/8" I.P.S.).

If a replacement Lo-Hi-Lo actuator is required, follow manufacturer's instructions and pre-set the "Lo" fire setting of the actuator the same as the original actua- tor. This must be performed by qualified service per- sonnel.

To adjust gas pressure, first connect an appropriate pressure-sensing device at the manifold tap, then re- move seal cap from regulator. Turn adjusting screw clock-wise to increase pressure, counter-clockwise to decrease pressure. The manifold gas pressure on the

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"Rating Plate," affixed to the back of the cabinet, is provided only as a guide to the proper setting. The manifold gas pressure indicated on the "Factory Fire- test" label (affixed to the back of the cabinet) should be used to achieve the proper firing rate of the individual boiler as installed. Replace seal cap after adjustment.

4.4.6 Leak Testing of Valves

Annually test for by-pass leaks on all motorized gas valves. If gas flows when the motorized gas valve is closed it is defective.

motorized gas

secondary

motorized

valve (natural

gas valve

gas)

 

 

secondary

 

shutoff

 

to burner

downstream leak test valve

upstream leak test valve

motorized gas valve (propane)

Figure 4-8 Leak Testing of Valves

Each branch of the gas train must be tested separately, as follows:

1.Open the natural gas connection manual shutoff. Close the propane connection manual shutoff. (Refer to Figure 4-1.)

2.Close the secondary shutoff (downstream of all motorized valves).

3.Attach a short piece of hose to the downstream

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Contents Installation Table of Contents Introduction Principle of Operation Electrical Hazards Burn, Fire, and Explosion HazardsCrush Hazards Chemical HazardsNatural gas connection manual shutoff Gas Pressure Adjustment Test of Motorized Gas Valves Schematic Diagram of Bleeds and Vents Gas Bleeds and VentsTest of Ignition Safety System Lo-Hi-Lo Control Panel faceplate openedTest of Gas Pressure Switch Test of Low Water CutoffTest of High-Limit Control Gas Pressure Adjustment Leak Testing of ValvesInstallation Twin-Fuel Gas Train Lighting Procedures TestsStarting System Normal Shut-Down Procedures Emergency Shut-DownMaintenance Sequence of Operation Parts and Technical Support Wiring Diagram Lo-Hi-Lo Control Logic Diagram Lo-Hi-Lo Wiring Diagram On-Off Control Logic Diagram On-Off

TBIG-03 specifications

The Patterson-Kelley TBIG-03 is a cutting-edge boiler designed for commercial and industrial heating applications. Known for its robust construction and high efficiency, this model is popular among facility managers and engineers who prioritize reliability and performance.

One of the standout features of the TBIG-03 is its ability to operate at high efficiencies exceeding 90%. This efficiency translates into significant fuel savings and reduced greenhouse gas emissions, making it an environmentally friendly choice for businesses looking to minimize their carbon footprint. The boiler utilizes advanced condensing technology, allowing it to capture and recycle heat from flue gases that would otherwise be lost.

The TBIG-03 is equipped with a reliable control system that optimizes performance and enhances user control. The integrated digital display allows operators to monitor various parameters in real-time, ensuring that the system operates within optimal ranges. This not only improves the boiler's efficiency but also extends its lifespan by preventing unnecessary wear and tear.

Durability is another hallmark of the TBIG-03. Constructed with high-quality materials, including a stainless steel heat exchanger, this boiler is built to withstand the rigors of continuous operation. The heat exchanger is designed to facilitate quick heat transfer, further contributing to the unit’s efficiency and reliability.

Ease of maintenance is also a significant consideration in the design of the TBIG-03. With readily accessible components, service technicians can perform routine inspections and repair work with minimal downtime. This is a crucial factor for commercial operations, where system reliability is paramount.

Moreover, the TBIG-03 supports a variety of fuel options, including natural gas and propane, increasing its versatility across different applications. This adaptability allows facilities to choose the most cost-effective and resource-efficient fuel source available.

Overall, the Patterson-Kelley TBIG-03 stands out in the market due to its high efficiency, durability, and ease of use. Whether for heating large commercial spaces or industrial processes, this boiler meets the needs of modern enterprises seeking reliable and sustainable heating solutions. Its advanced features and technologies make it a top choice for efficiency-driven facility management.
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