Security control of engine room boilers includes high temperature and pressure, high and low gas/diesel pressure, high and low water level, and control of flame safety measures. These controls take into account the safety and limitations that cause the electrical circuit to crack to prevent engine boilers from catching fire. For example, when the boiler pressure exceeds the set range, the fuel valve closes to avoid the dangers of high pressure. Security issues in the flame control system include keys for water shut-off, high restrictions, air stability keys, executive control, and flame sensor. The flame sensor often includes ultraviolet and infrared rods and sensors that are used to indicate the flame status and deactivate the burner in unsafe and unsafe conditions where no combustion has taken place. The flame safety control is set to start and cycle during the execution steps.
Older hot water boilers operate without distilling water vapor from the gas vent. This prevents corrosion and component breakdown. The return temperature of the distillation boilers during operation is lower than that of the old boilers, which distills the water vapor coming out of the ventilator. This enables the condensing boiler to extract excess heat from the water vapor phase to the extraction liquid and increase the boiler efficiency. Some carbon dioxide dissolves in the distillation to form carbonic acid. While some condensing boilers are designed to control distillation that causes corrosion, other engine room boilers require equipment to neutralize distillation. Traditional engine room boilers that do not perform distillation operations mainly operate in the range of % -% combustion efficiency and distillation boilers operate in the range of % -% combustion efficiency.
If your building has several boilers, you need to estimate whether you really need to put the boilers in standby mode (at pressure and temperature), as this will waste energy. The stand-by boiler not only interrupts the cycle but also releases heat to the surrounding environment during the loss of radiation, which significantly increases the boiler input power while reducing ignition. Give. At low ignition values, for example, when the boiler is maintained in standby mode, the efficiency drop can reach %. Maintaining the standby state of the boiler will cause a quick recovery in case of failure of the previous boiler, but this action must be measured by the huge and useless consumption of energy. If you do not need a boiler in standby mode in your activity or you only need it in certain seasons, you must turn off all the boilers that you do not need to prevent energy loss.
All combustion equipment must be operated properly to prevent hazardous conditions, catastrophic damage, and human and construction damage. The main reason for the explosion of engine room boilers is the combustion of flammable gases that have accumulated inside the engine room boilers. This can happen for a variety of reasons, such as fuel, air, or the combustion process is interrupted for any reason, the flame goes out, and flammable gases accumulate that cause re-burning.
According to the manufacturers recommendation, boilers should be inspected regularly. Pressure pipe defects, checking and ensuring the safety of valves, water flow devices, and correct float, scales, and the water level should all be checked. The burner and fuel of the boiler system need proper handling and maintenance to ensure proper operation and efficiency, heat transfer and check for proper ignition.