Fire protection system helps to save the lives and defend valuable resources such as equipment, property, and data. Therefore, if the equipment of fire protection fails to operate at an optimal level then it will waste a lot of money and resources. You’ll get to know some basic problems related to Fire Protection Engineering, evaluate the problem’s nature, and solution related to them.
There are some major concentrations essential to extinguish flames. Every type of gas has a different concentration design such as theoretical concentration and safety factors. A tight space is mandatory so that a gas concentration can accumulate. It is difficult to keep the gas turbine generator enclosures tight due to this reason. The engineer disassembles them, therefore; the equipment should be repaired, maintained, and removed.
To conquer this problem, the engineer should have to increase the agent gas supplies. This will give extensive agent discharge for compensating for agent failure.
The National Fire Protection Association have some high standards in place to comply with the supplies of water. In the fire protection service, a water supply must have both adequate and reliable supplies. The adequate means supply water with high flow rate or high pressure. The problem arises when a water supply system supplies the water to many fire protection systems at once.
The best solution to this problem is the efficient design of a fire protection system. It should be good enough to gauge the water pressure demand for multiple systems. This can be done by simply choosing the diameter of the nozzle and pipe segments that control the friction losses.
The water supply system is consisting of a body of water that delivers water with high flow rate. The electric generation station includes multiple connections to public waterworks or a private system has multiple fire pumps or a suction source. If water is not reliable that means availability of water at an adverse situation like freeze condition, mechanical issues, and much more.
To overcome this problem, a company should have redundant water supplies such as a lake or a river, as a reliable source. The routine testing and maintenance also affect the reliability of water. Therefore, a proper maintenance is required and refills the backend water sources from time to time.
The improper design and installation cause the significant break to a turbine-generator. Yet plenty of documented cases are studied where a failure of fire protection system destroyed multiple generation units and some plant permanently shut down.
According to research, a properly designed and installed fire protection system helps to give protection to the turbine-generator from the fire-induced losses, decreases the loss potential and lost income because of forced outages. A good design system should integrate with an automatic system for pre-action directional water spray.
In the construction, the appearance of fiber-reinforced plastics has lead in the cooling tower and several manufacturers think that this plastic is noncombustible as well as the tower also do not require automatic protection by the sprinkler. The plants and the assets are not safe because the fire protection engineers haven’t used an adequately designed system for providing safety.
Fire protection engineering and design to act as a control system and as specialized structural design, it needs more expertise and knowledge. The properly designed and installed system gives the benefits to the plant, its employees, and the owner as well for many years.
As a result, it is mandatory to use fire protection systems with proper designs and installation. The fire protection engineering service providers must follow the safety standards. There should be a proper water supply in both adequate and reliable manners. The adequate water supply means sprinkle water with the highest pressure and reliable water supply mean availability of water at all time. Security standards recommend a proper maintenance and routine testing for all systems.
