About Generator air intake and exhaust shaft area
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6 FAQs about [Generator air intake and exhaust shaft area]
What is a diesel generator air intake & exhaust system?
The diesel generator air intake and exhaust system (DGAIES) provides the diesel engine with combustion air from the outside. The combustion air passes through a filter and silencer before being compressed by a turbocharger and cooled by the coolant system before entering the individual cylinders for combustion.
Who designs and installs a generator exhaust system?
The proper design and functionality of a generator exhaust system falls on the responsibility of the engineering firm of record. If a field fabricated system is being utilized, the design and installation of the system must be a collaboration between the engineering firm and the installing contractor.
How do generator exhaust systems work?
Units located inside a building often require the exhaust to be routed up through the roof, up the side of the building, or to a free-standing stack. Generator exhaust systems for years have been fabricated from sections of schedule 40 carbon steel pipe that are field welded, then insulated to reduce surface temperatures.
Why do generator exhaust systems need to be properly designed?
Generator exhaust systems need to be properly designed to ensure correct engine performance and safe operation. System design has become more complex with the desire to keep emissions low, along with the desire to utilize the heat energy in the exhaust gas.
Where should exhaust air be sourced for a generator?
For generators with remote radiators, it is recommended that the exhaust air should be sourced as high as possible and directly above the generator sets. Significant bypass of ventilation airflow directly into the discharge airflow will lead to reduction in cooling effectiveness and elevated temperatures within the room.
How much airflow should a gen set have?
The ventilation system should sufficiently move air to control temperature in all areas of the engine room. The following equations provide the proper airflow (cfm or m3/s velocity for a given gen set installation, assuming 100 F (38C) ambient temperature: Airflow (cfm or m3/s should increase 10 percent for every 2,500 feet (760m) above sea level.