Hot exhaust gases which enter a finned tube

Hot Exhaust Gases Which Enter A Finned Tube. If the mass flow rate of the exhaust gases is 15 times that of the water determine. This problem often presents itself in the muffler where the exhaust gases are not hot enough to vaporize water deposits. Determine the required gas side surface area using the NTU. Compressor air temperatures are now.

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For Teachers for Schools for Working Scholars for. If the mass flow rate of the exhaust gases is 15 times that of the water determine. PROBLEM Hot exhaust gases which enter a finned-tube cross- flow heat exchanger at 300 C and leave at 100 C are used to heat. Exhaust gas passes over the other side of the recuperator at exhaust temperatures ranging from 750 to 1000 F. Hot exhaust gases which enter a finned-tube cross-flow heat exchanger at 300C and leave at 100C are used to heat pressurized water at a flow rate of 1 kgs from 35 to 125C. A finned tube cross flow heat exchanger with inlet and outlet temperatures of hot and cold fluids.

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The finned tube consists of a round pipe with attached fins which maximize surface area and heat transfer rates. Liquid flows through the tubes and receive heat from hot gases flowing across the tubes. This problem is seen more in areas experiencing high rainfall and snow. Ii Hot exhaust gases which enters a finned tube cross flow heat exchanger at 300C and leave at 100C are used to heat pressurized water at a flow rate of 1 kgs from 35 to 125C. Hot exhaust gases which enter a finned-tube cross-flow heat exchanger at 300 C and leave at 100 C are used to heat pressurized water at a flow rate of 1 Kgs from 35 C to 125 C. Hot exhaust gases are used in a finned-tube cross-flow heat exchanger to heat 25 kgs of water from 35 to 85 C.

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