Engineering, 14.09.2019 02:20 shadoris26
Agas flows through a pipe of 0.08 m inside diameter at a velocity of 2.2 m/s. calculate the heat transfer coefficient h, for the gas on the inside of the pipe wall if the dittus-boelter equation can be used nu = 0.023reo. pr0.4. the prandt number for the fluid is 1.8, its density is 5.8 kg/m", the viscosity is 1.158 x 10 pa s, and the thermal conductivity is 0.02 w/m².k. a) 66 w/m².k b) 1052 w/m²k c) 263 w/m²k d) 88 w/m²k e) 12 w/m²k
Answers: 2
Engineering, 04.07.2019 18:20
An engine runs on the ideal diesel cycle. the cycle has a compression ratio of 20 and a cutoff ratio of 2. the highest temperature in the cycle is 1200 k. if the heat into the system is 300 kj/kg of working fluid and using variable specific heats determine the work produced per mass of working fluid
Answers: 3
Engineering, 04.07.2019 18:20
Atank with constant volume contains 2.27 kg of a mixture of water phases (liquid-vapor). in the initial state the temperature and the quality are 127 °c and 0.6, respectively. the mixture is heated until the temperature of 160 oc is reached. illustrate the process in a t-v diagram. then, determine (1) the mass of the vapor in kg at the initial state, (2) the final pressure in kpa.
Answers: 3
Engineering, 04.07.2019 19:10
Air inially occupying a volume of 1 m2 at 100 kpa, 27 c undergoes three internally reversible processes in series. process 1-2 compression to 500 kpa during which pv constant process 2-3 adiabatic expanslon to 100 kpa process 3-1: constant-pressure expansion to 100 kpa (a) calculate the change of entropy for each of the three processes. (b) calculate the heat and work involved in each process. (c) is this cycle a power cycle or refrigeration cycle?
Answers: 3
Engineering, 04.07.2019 19:20
Amass-spring-viscous damper system of mass 3 kg has a frequency of 100 rad/s and is critically damped. its initial conditions are x(0)-3 mm and (0)-2.3 m/s. does the system overshoot its equilibrium position? prove your answer
Answers: 1
Agas flows through a pipe of 0.08 m inside diameter at a velocity of 2.2 m/s. calculate the heat tra...
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