Engineering, 10.09.2020 02:01, masie03

Dry air at Ta, in = 30°C, and atmospheric pressure is blown at Va= 1.0 m3/s through a cross-flow heat exchanger in which refrigerant R134a is evaporating at a constant pressure of pR = 345 kPa. The air exits the heat exchanger at Ta, out = 13°C. The tubes and fins of the heat exchanger are both made of copper. The tubes have an outer diameter of Dout, t = 1.64 cm and tht = 1.5 mm tube wall thickness. The fins are circular
with a spacing that leads to 275 fins per meter, an outer diameter of Dout, f = 3.1 cm and a thickness of thf = 0.25 mm. The heat transfer coefficient between the R134a and the inner tube wall is estimated to be R h = 2,500 W/m2
-K. The heat transfer coefficient between the air and tubes and fins is estimated to be a h = 70 W/m2 -K. The total length of finned tubes is L = 110 m.
a) Determine the rate of heat transfer from the air.
b) Determine the value of the heat exchanger conductance for this heat exchanger.

Answers: 2

Show answers

Other questions on the subject: Engineering

Engineering, 03.07.2019 14:10, kayabwaller4589

When at a point two solid phase changes to one solid phase on cooling then it is known as a) eutectoid point b) eutectic point c) peritectic point d) peritectoid point

Answers: 3

continue

Engineering, 03.07.2019 23:20, abbz13

Two technicians are discussing the intake air temperature (iat) sensor. technician a says that the computer uses the iat sensor as a backup to the engine coolant temperature (ect) sensor. technician b says that the powertrain control module (pcm) will subtract the calculated amount of fuel if the air measures hot. who is correct

Answers: 3

continue

Engineering, 04.07.2019 16:10, Arealbot

The force on a cutting tool are 2600n vertically downward and 2100 horizontal. determine the resultant force acting on the tool and the angle at which it acts.

Answers: 1

continue

Engineering, 04.07.2019 18:10, soreese02

An ideal otto cycle with air as the working fluid has a compression ratio of 8. the minimum and maximum temperatures in the cycle are 300 k and 1340 k. use constant specific heats at room temperature to determine (a) the amount of heat transferred to the air during the heat- addition kj/kg, (b) the thermal efficiency, and (c) the thermal efficiency of a carnot cycle ope limits. process, in rating between the same temperature

Answers: 2

continue

Do you know the correct answer?

Dry air at Ta, in = 30°C, and atmospheric pressure is blown at Va= 1.0 m3/s through a cross-flow he...