Homework Answers
From t-s chart we can directly read, it should me around 17 kPa.
So option D) is correct
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thanks Question 6 (1 point) Saved Use a T-S (temperature-entropy) chart to answer the following: Consider...
TURBO MACHINES SUBJECT QUESTION 10 A multi-stage high -pressure steam turbine is supplied with steam at a stagnation pressure of 7 MPa and a stagnation temperature of 500°C. The corresponding specifi...
TURBO MACHINES SUBJECT
QUESTION 10 A multi-stage high -pressure steam turbine is supplied with steam at a stagnation pressure of 7 MPa and a stagnation temperature of 500°C. The corresponding specific enthalpy is 3410kJ.kg. The steam exhaust from the turbine at a stagnation pressure of 0.7 MPa abs., the steam having been in a super-heated condition throughout the expansion. It can be assumed that the steam behaves like a perfect gas over the range of the expansion and that v...
1,2,3,4 Please nstructions: Adhere to the guidelines discussed regarding HWs. For each problem, sketch the T-s...
1,2,3,4 Please
nstructions: Adhere to the guidelines discussed regarding HWs. For each problem, sketch the T-s diagram 6.21 Steam at 1000 kPa and 500'C is to expand through an isentropic turbine to a pressure of 100 kPa. Determine the final temperature and quality (if applicable) of the steam. 1 kg of steam at 7bar, entropy 65kJ/kg K, is heated reversibly at constant pressure until the temperature is 250°C. Calculate the heat supplied, and show on a T-s diagram the area...
Problem 1 [15 pts] Air (R=0.287 kJ/kgK), initially at 300 K and 100 kPa is heated...
Problem 1 [15 pts] Air (R=0.287 kJ/kgK), initially at 300 K and 100 kPa is heated to 450 K in an internally reversible closed system process. You do NOT need to show a system sketch for this problem. Using variable (temperature dependent) specific heats a. Find the specific entropy change (As= S2-S1) of air if the process occurs at constant pressure b. Find the specific entropy change (As= S2-S1) of air if the process occurs at constant volume c. Show...
1. (20 points) Consider a cogeneration system operating at steady state. Superheated steam enters the first...
1. (20 points) Consider a cogeneration system operating at steady state. Superheated steam enters the first turbine stage at 6 MPa, 540 °C. Between the first and second stages, 45% of the steam is extracted at 500 kPa and diverted to a process heating load of 5 x 108 kl/h. Condensate exits the process heat exchanger at 450 kPa with specific enthalpy of 589.13 kl/kg and is mixed with liquid exiting the lower pressure pump at 450 kPa. The entire...
S Q. Find the entropy and/or temperature of steam at the following states Region k/kg K) 5 MPa 1 ...
s Q. Find the entropy and/or temperature of steam at the following states Region k/kg K) 5 MPa 1 MPa 18 MPa 400°C 40 kPa 40 kPa 120°C 50°C Quality, x-09, Mixed 71794 (<7.6700) Q. Determine the entropy change of water contained in a closed system as it changes phase rom saturated liquid to saturated vapor when the pressure is 0.1MPa and constant Why is the entropy change positive for this process? 2. Steam at 1 MPa, 6000C expands in...
1. (20 points) Consider a cogeneration system operating at steady state. Superheated steam enters the first...
1. (20 points) Consider a cogeneration system operating at steady state. Superheated steam enters the first turbine stage at 6 MPa, 540 °C. Between the first and second stages, 45% of the steam is extracted at 500 kPa and diverted to a process heating load of 5 x 108 kl/h. Condensate exits the process heat exchanger at 450 kPa with specific enthalpy of 589.13 kl/kg and is mixed with liquid exiting the lower pressure pump at 450 kPa. The entire...
Graph interpretation, Thermal Science Lab expert only please. Questions 1,2,3 and 4. Thanks! ...
Graph interpretation, Thermal Science Lab expert only please.
Questions 1,2,3 and 4. Thanks!
Thermal Science Lab expert only please.Graph analyse and
interpretation. Questions 1,2,3&4. Thank you!
THERMAL SCIENCE LAB System Overview, Operation & Performance of the Rankine Cycler Steam Power System Presentation of Graphs/Figures, Discussion and Interpretation of Results Presented by each Graph/Figure and Answers to Posed Problems if any SteamsBs 10 0 1900 9 5- 10 501 030 C 4 101 0 1000 2000 3000 4000 5000 6000 7000...
Question 12 (1 point) ✓ Saved Which of the following is generally associated with an increase...
Question 12 (1 point) ✓ Saved Which of the following is generally associated with an increase in entropy: 1) Increase in temperature 2) Increase in volume 3) Increase in pressure 4) Increase in the number of independent particles 2 and 3 1, 2, 3, and 4 1, 2 and 3 O 1, 2, and 4
02) Consider a hydrostatic system represented by the thermodynamic variables volume V, pressure P and temperature...
02) Consider a hydrostatic system represented by the thermodynamic variables volume V, pressure P and temperature T. a) Consider entropy S = S(T, V) and derive the equation TdS. Tas = Cvat +T (1) dV. V Show that this equation can be written as follows BT TdS = CydT + PDV where Cv is the thermal capacity at constant volume, B is the isobaric expansiveness and K is isothermal compressibility: b) Consider a gas described by the equation of state...
TURBO MACHINES SUBJECT
QUESTION 10 A multi-stage high -pressure steam turbine is supplied with steam at a stagnation pressure of 7 MPa and a stagnation temperature of 500°C. The corresponding specific enthalpy is 3410kJ.kg. The steam exhaust from the turbine at a stagnation pressure of 0.7 MPa abs., the steam having been in a super-heated condition throughout the expansion. It can be assumed that the steam behaves like a perfect gas over the range of the expansion and that v...
1,2,3,4 Please
nstructions: Adhere to the guidelines discussed regarding HWs. For each problem, sketch the T-s diagram 6.21 Steam at 1000 kPa and 500'C is to expand through an isentropic turbine to a pressure of 100 kPa. Determine the final temperature and quality (if applicable) of the steam. 1 kg of steam at 7bar, entropy 65kJ/kg K, is heated reversibly at constant pressure until the temperature is 250°C. Calculate the heat supplied, and show on a T-s diagram the area...
Problem 1 [15 pts] Air (R=0.287 kJ/kgK), initially at 300 K and 100 kPa is heated to 450 K in an internally reversible closed system process. You do NOT need to show a system sketch for this problem. Using variable (temperature dependent) specific heats a. Find the specific entropy change (As= S2-S1) of air if the process occurs at constant pressure b. Find the specific entropy change (As= S2-S1) of air if the process occurs at constant volume c. Show...
1. (20 points) Consider a cogeneration system operating at steady state. Superheated steam enters the first turbine stage at 6 MPa, 540 °C. Between the first and second stages, 45% of the steam is extracted at 500 kPa and diverted to a process heating load of 5 x 108 kl/h. Condensate exits the process heat exchanger at 450 kPa with specific enthalpy of 589.13 kl/kg and is mixed with liquid exiting the lower pressure pump at 450 kPa. The entire...
s Q. Find the entropy and/or temperature of steam at the following states Region k/kg K) 5 MPa 1 MPa 18 MPa 400°C 40 kPa 40 kPa 120°C 50°C Quality, x-09, Mixed 71794 (<7.6700) Q. Determine the entropy change of water contained in a closed system as it changes phase rom saturated liquid to saturated vapor when the pressure is 0.1MPa and constant Why is the entropy change positive for this process? 2. Steam at 1 MPa, 6000C expands in...
1. (20 points) Consider a cogeneration system operating at steady state. Superheated steam enters the first turbine stage at 6 MPa, 540 °C. Between the first and second stages, 45% of the steam is extracted at 500 kPa and diverted to a process heating load of 5 x 108 kl/h. Condensate exits the process heat exchanger at 450 kPa with specific enthalpy of 589.13 kl/kg and is mixed with liquid exiting the lower pressure pump at 450 kPa. The entire...
Graph interpretation, Thermal Science Lab expert only please.
Questions 1,2,3 and 4. Thanks!
Thermal Science Lab expert only please.Graph analyse and
interpretation. Questions 1,2,3&4. Thank you!
THERMAL SCIENCE LAB System Overview, Operation & Performance of the Rankine Cycler Steam Power System Presentation of Graphs/Figures, Discussion and Interpretation of Results Presented by each Graph/Figure and Answers to Posed Problems if any SteamsBs 10 0 1900 9 5- 10 501 030 C 4 101 0 1000 2000 3000 4000 5000 6000 7000...
Question 12 (1 point) ✓ Saved Which of the following is generally associated with an increase in entropy: 1) Increase in temperature 2) Increase in volume 3) Increase in pressure 4) Increase in the number of independent particles 2 and 3 1, 2, 3, and 4 1, 2 and 3 O 1, 2, and 4
02) Consider a hydrostatic system represented by the thermodynamic variables volume V, pressure P and temperature T. a) Consider entropy S = S(T, V) and derive the equation TdS. Tas = Cvat +T (1) dV. V Show that this equation can be written as follows BT TdS = CydT + PDV where Cv is the thermal capacity at constant volume, B is the isobaric expansiveness and K is isothermal compressibility: b) Consider a gas described by the equation of state...
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