To increase the overall efficiency of the boiler, the heat released from the combustion process must be properly transferred into the fluid used. Any heat that is not transferred to the fluid is lost through the body of the boiler or the flue gas. The temperature of the gas inside the chimney is a good indicator of the heat transfer process and therefore efficiency. There are practical limitations to the low flue temperature. Its temperature will be higher than the fluid used in the boiler. In boilers that do not do distillation, the temperature should be high enough that water vapor does not distill in the exhaust chimney and clean the heat transfer surface in the distillation that causes corrosion. Condensing boilers that use natural gas are made and designed with accessories that are resistant to corrosion. Also, their chimney temperature can be less than . degrees Celsius. Trapping heat distillation increases efficiency by more than %.
Eng. Shamel, I wanted to thank you and CATEC team as well for taking time from your busy schedule to support and help Americana meat KSA on all utilities projects (steam boilers, thermal oil heaters, etc). I kNow some of the work wasn’t part of your normal responsibilities, but your assistance was invaluable in helping my company get everything done in a very timely manner. Your expertise and enthusiasm were both appreciated during a time which can be stressful for all concerned! We sincerely appreciate your efforts and thank all CATEC team
Leaks may occur in the hot water distribution system. This leakage increases the water and energy consumption of the system as well as the damage caused by the water leakage. Compensation water must be provided for the hot water and steam distribution system to replace the steam and water lost through the leak. This is an easy solution to ensure there is permanent water in the system. It is best to install a measuring device on the system compensation line. The measuring device should be checked weekly for unexpected system water loss.
Steel boilers, as their name implies, are made of steel and are usually made of horizontal cylinders. Steel boilers have a combustion chamber in which pipes are placed around this chamber. The pipes that are installed around the combustion chamber of steel boilers are made of a special alloy so that they do not burn or damage in the face of a direct flame. These pipes are called (fire pipes). Steel boilers are divided into friends from the point of view of heat transfer, which are as follows.
There is a significant amount of stored energy inside the engine room boilers. Changing the state of water at a very high temperature from a hot liquid to a vapor releases a lot of energy. (In fact, high-pressure hot water can be converted to steam at atmospheric pressure. This is called flashing.) For example, cubic foot of water will expand by , cubic feet when converted to steam. So if you can trap all the energy from a gallon home hot water blast at degrees Celsius, you have the power to launch a balanced weight car (. tons) to a height of feet with initial acceleration. You will have miles per hour. This height is equivalent to the height of more than a -story building.