BOILER-bypass piping method

Weil-McLain 550-110-260/0508 manual BOILER-bypass piping method, Valve adjustment

GOLD CGs Gas-Fired Water Boiler — Boiler Manual

3d Piping — low temp systems (continued)

This piping method (Figures 10 and 11, page 21) is called a boiler-bypassbecause part of the circulator ﬂow is bypassed around the boiler (through valve 7a). This method reduces the ﬂow rate throughout the boiler, in order to raise the average water temperature in the boiler enough to prevent ﬂue gas condensation. Boiler- bypass piping is effective for some boilers — including the CGs — provided the ﬂow rates are adjusted accord- ing to the instructions following.

Figures 10 and 11 are alternative piping suggestions for converted gravity (large water content or steam systems) or radiant heating system — for use when primary/secondary piping can’t be applied. (Figure 12, page 23, is another alternative, using system bypass in place of boiler-bypass piping. Figure 12 however, is not suitable for radiant heating applications because it does not protect the radiant system from possible high water temperature.)

Boiler-bypass piping keeps system ﬂow rate as high as possible and temperature drop as low as possible, help- ing to equalize the building heat distribution.

Temperature gauges

Gauge 4a is optional if the bypass valves will be ad-

justed using cold (or room temperature) return water to the boiler. (When setting the valves without gauge 4a installed — using cold or room temperature water

—assume the return water temperature to be 60°F. Set the valves so gauge 8 reads at least 120°F.

Gauge 4b is optional on converted gravity systems, but required on radiant heating systems — to display the water temperature being supplied to the radiant tubing.

Gauge 8 is required on all systems to assure reliable adjustment of the bypass valves. The boiler-mounted temperature/pressure gauge can be used if a separate temperature gauge is not installed.

Valve adjustment

1.Start with valve 7a fully closed and 7b fully open.

2.Gradually open valve 7a while closing valve 7b until the temperature at gauge 8 reads 60 °F higher than gauge 4a. A minimum 60°F temperature rise through the boiler assures a low enough ﬂow rate and high enough average temperature to prevent condensation even with low system return water temperature.

3.Valve 7a regulates the system ﬂow rate, while valve 7b regulates the boiler ﬂow rate.

4.The boiler-mounted temperature/pressure gauge may be used in place of a separate gauge 8.

Failure to prevent low return water temperature to the boiler could cause corrosion of the boiler sections or burners, resulting in severe personal injury, death or substantial property damage.

Radiant heating system piping should include a means of regulating the boiler return water temperature and the system supply temperature (such as provided by an injec- tion pumping control).

Boiler return water temperature will be adequately controlled using the methods shown in this manual provided the system supply temperature is relatively constant.

DO NOT apply the methods of this manual if the system is equipped with an outdoor reset control. Instead, provide controls and piping which can regulate the boiler re- turn water temperature at no less than 130°F regardless of system supply temperature. Contact your Weil-McLain representative for suggested piping and control methods.

Failure to prevent cold return water temperature to the boiler could cause corrosion damage to the sections or burners, resulting in possible severe personal injury, death or substantial property damage.

20	Part number 550-110-260/0508

550-110-260/0508 specifications

Weil-McLain is a well-known name in the heating industry, offering a wide range of high-quality boilers and heating systems. Among its impressive lineup, the Weil-McLain 550-110-260/0508 model stands out for its performance, efficiency, and advanced technologies, making it suitable for residential and commercial heating applications.

The 550-110-260/0508 boiler is designed for flexibility and performance, providing an output capacity of 110,000 BTU per hour. This makes it suitable for various heating needs, from single family homes to larger commercial spaces. One of the key features of this model is its high-efficiency design, which allows it to operate at an AFUE (Annual Fuel Utilization Efficiency) rating of up to 95%. This means that a significant portion of the fuel consumed is converted into usable heat, resulting in lower energy bills and reduced environmental impact.

A standout characteristic of the Weil-McLain 550-110-260/0508 is its durable construction. Built with high-quality materials, this boiler is designed to withstand the rigors of daily use and provide reliable service over the years. Additionally, the unit features a compact design, allowing for easy installation in various configurations, whether it be in a basement, utility room, or outdoor setting.

Another impressive technology incorporated in this model is the advanced control system, which allows for precise temperature management and improved energy efficiency. The intuitive control interface enables homeowners and facility managers to easily set and adjust heating schedules, ensuring optimal comfort while minimizing energy consumption.

Safety is also a top priority for Weil-McLain. The 550-110-260/0508 is equipped with multiple safety features, including a pressure relief valve, limit controls, and a low water cutoff, which help to ensure safe and reliable operation.

In conclusion, the Weil-McLain 550-110-260/0508 model boasts a combination of efficient heating, durable construction, advanced control technology, and safety features, making it an excellent choice for those seeking a reliable and effective heating solution. Its versatility and performance make it well-suited for a variety of applications in both residential and commercial settings.