45++ A Stream Of Refrigerant 134a At 1 Mpa And 12 Ideas
A stream of refrigerant 134a at 1 mpa and 12. A stream of refrigerant-134a at 1 MPa and 12C is mixed with another stream at 1 MPa and 60C. If the mass flow rate of the cold stream is twice that of the hot one determine the temperature and the quality of the exit stream. If the mass flow rate of the cold stream is 28 times that of the hot one determine the temperature and the quality of the exit stream. Questions 11Refrigerant-134a at 1 MPa and 80C is to be cooled to 1 MPa and 30C in a condenser by air. R-134a flows in a pipe at a 30C with a specific volume of 004434 m3kg. 3-31 Complete the following table for refrigerant 134a. If the mass flow rate of the cold stream is twice that of the hot one determine the temperature and the quality of the exit stream. The pressure of the refrigerant is a. A stream of refrigerant- 134 a at 1 MPa and 20circ mathrmC is mixed with another stream at 1 mathrmMPa and 80circ mathrmC. The mass and energy balances for this steady-flow system can be expressed in the rate form as. Would have to b a non-ideal substance like R-134a or steam 5-108 Two streams of refrigerant-134a are mixed in a chamber. Refrigerant-134a at 1 mathrmMPa and 100circ mathrmC is throttled to a pressure of 08 MPa.
01 MPa Your Answer. A stream of refrigerant-134a at 1 MPa and 12 C is mixed with another stream at 1 MPa and 60 C. Assume the surroundings to be at 30circ mathrmC Answer. If the mass flow rate of the cold stream is twice that of the hot one determine the temperature and the quality of the exit stream. A stream of refrigerant 134a at 1 mpa and 12 A stream of refrigerant-134a at 1 MPa and 12eqcirc eq C is mixed with another stream at 1 MPa and 60eqcirc eq C. Assumptions 1 This is a steady-flow process since there is. Nov 14 2016 1100 AM. 139 kgmin 12Steam enters a. A stream of refrigerant-134a at 1 MPa and 20C is mixed with another stream at 1 MPa and 80C. The air enters at 100 kPa and 27C with a volume flow rate of 800 m3min and leaves at 95 kPa and 60C. A stream of refrigerant-134a at 1 MPa and 12C is mixed with another stream at 1 MPa and 60C. State 1T 8 C p 320 kPa From Table A12 Saturated refrigerant 134a Pressure table. If the mass flow rate of the cold stream is twice that of the hot one determine the temperature and the quality of the exit stream.
A stream of refrigerant 134a at 1 mpa and 12 Students also viewed these Mechanical Engineering questions.
A stream of refrigerant 134a at 1 mpa and 12. A stream of refrigerant-134a at 1 MPa and 12C is mixed with another stream at 1 MPa and 60C. Determine the reversible work and exergy destroyed during this throttling process. Analysis a From refrigerant-134a tables Tables A-11 through A-13.
A stream of refrigerant-134a at 1 MPa and 12 degrees C is mixed with another stream at 1 MPa and 60 degrees C. T 3 _____ degrees C. If the mass flow rate of the cold stream is twice that of the hot.
Using EES or other software investigate the effect of the mass flow rate of the cold stream of R. Get 579 exercise solution 580 Reconsider Prob. A stream of refrigerant-134a at 1 MPaand 12 ºC is mixed with another stream at 1 MPaand 60 C.
505 fracK jK g View Answer. If the mass flow rate of the cold stream is twice that of the hot one determine the temperature and the quality of the exit stream. The First Law of Thermodynamics.
If the mass flow rate of the cold stream is twice that of the hot one determine the temperature and. 579 A stream of refrigerant-134a at 1 MPa and 12C is mixed with another stream at 1 MPa and 60C. If the mass flow rate of the cold stream is twice that of the hot one determine the temperature and the quality of the exit stream.
Chapter 6 Problem 80P. A stream of refrigerant-134a at 1 MPa and 12C is mixed with another stream at 1 MPa and 60C. If the cold stream enters at twice the rate of the hot stream the temperature and quality if saturated of the exit stream are to be determined.
Walkthrough video for this problem. 1 12 kgs002975 m3kg 1 1 1 1 1 1 mv A v m 5-93C Yes. 1 012 MPa Then the rate of heat removal from the refrigerated space and the power input to the compressor are determined from s and 210 kW 677 kW 005 kgs 27893 23697 kJkg 005 kgs 23697 10161 kJkg in 2 1 1 4 W m h h QL m h h b The rate of heat rejection to.
The internal energy and enthalpy of R-134a are 2508 kJkg and 2730 kJkg respectively. Determine the mass flow rate of the refrigerant. X 3 _____.
If the mass flow rate of the cold stream is twice that of the hot one determine the temperature and the quality of. Point T C p kPa u kJkg v m 3kg x Phase description 1 -8 320 2 30 0015 3 180 Saturated vapor 4 80 600 For refrigerant 134a. Mass flow rate of each fluid stream flowing through a heat exchanger remains constant.
Cold stream is twice that of the hot one determine the temperature and the quality of the exit stream. Properties From R-134a tables Tables A-11 through A-13 h1 hf 12C 6818 kJkg h2 h 1 MPa 60C 29338 kJkg Analysis We take the mixing chamber as the system which is a control volume since mass crosses the boundary.
A stream of refrigerant 134a at 1 mpa and 12 Properties From R-134a tables Tables A-11 through A-13 h1 hf 12C 6818 kJkg h2 h 1 MPa 60C 29338 kJkg Analysis We take the mixing chamber as the system which is a control volume since mass crosses the boundary.
A stream of refrigerant 134a at 1 mpa and 12. Cold stream is twice that of the hot one determine the temperature and the quality of the exit stream. Mass flow rate of each fluid stream flowing through a heat exchanger remains constant. Point T C p kPa u kJkg v m 3kg x Phase description 1 -8 320 2 30 0015 3 180 Saturated vapor 4 80 600 For refrigerant 134a. If the mass flow rate of the cold stream is twice that of the hot one determine the temperature and the quality of. X 3 _____. Determine the mass flow rate of the refrigerant. The internal energy and enthalpy of R-134a are 2508 kJkg and 2730 kJkg respectively. 1 012 MPa Then the rate of heat removal from the refrigerated space and the power input to the compressor are determined from s and 210 kW 677 kW 005 kgs 27893 23697 kJkg 005 kgs 23697 10161 kJkg in 2 1 1 4 W m h h QL m h h b The rate of heat rejection to. 1 12 kgs002975 m3kg 1 1 1 1 1 1 mv A v m 5-93C Yes. Walkthrough video for this problem. If the cold stream enters at twice the rate of the hot stream the temperature and quality if saturated of the exit stream are to be determined.
A stream of refrigerant-134a at 1 MPa and 12C is mixed with another stream at 1 MPa and 60C. Chapter 6 Problem 80P. A stream of refrigerant 134a at 1 mpa and 12 If the mass flow rate of the cold stream is twice that of the hot one determine the temperature and the quality of the exit stream. 579 A stream of refrigerant-134a at 1 MPa and 12C is mixed with another stream at 1 MPa and 60C. If the mass flow rate of the cold stream is twice that of the hot one determine the temperature and. The First Law of Thermodynamics. If the mass flow rate of the cold stream is twice that of the hot one determine the temperature and the quality of the exit stream. 505 fracK jK g View Answer. A stream of refrigerant-134a at 1 MPaand 12 ºC is mixed with another stream at 1 MPaand 60 C. Get 579 exercise solution 580 Reconsider Prob. Using EES or other software investigate the effect of the mass flow rate of the cold stream of R.
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If the mass flow rate of the cold stream is twice that of the hot. T 3 _____ degrees C. A stream of refrigerant-134a at 1 MPa and 12 degrees C is mixed with another stream at 1 MPa and 60 degrees C. Analysis a From refrigerant-134a tables Tables A-11 through A-13. Determine the reversible work and exergy destroyed during this throttling process. A stream of refrigerant-134a at 1 MPa and 12C is mixed with another stream at 1 MPa and 60C. A stream of refrigerant 134a at 1 mpa and 12.