Problem 3: Complete the following data based on the provided tables for water State 1: Pi...
QUESTION 24 min through areistor placed in the weter. one-half off the liquid le evporated during this constant pressure process and the paddlawheel work amounts to 400 kJ Press., temp., liquid, vapor,liquid, Evap., vapor, liquid,Evap., vapor, liquid, Evap., vapor, PkPa T.at ℃ 150 111.35 0001053 1.1594 466.97 2052.3 2519.2 467.13 2226.0 2693.1 1.4337 5.7894 7.2231 175 116.04 0.001057 1.0037 486.82 2037.7 2524.5 487.01 2213.1 2700.2 1.4850 5.6865 7.1716 200 120.21 0,001061 0.88578 504.50 2024.6 2529.1 504.712201.6 2706.3 1.5302 5.5968 7.1270...
if the sufficient data are provided complete the blank cells in the following table Problem 2: Complete this table for H2O: T,°C P, kPa h, kJ/kg Phase description 200 950 800 0.7 140 1800 0.0 80 500 3162.2 Problem 3: If sufficient data are provided, complete the blank cells in the following table of properties of water. In the last column describe the condition of water as compressed liquid, saturated mixture, superheated vapor, or insufficient information; and if applicable give...
QUESTION 6 At a pressure of 4 Mpa, the temperature at which liquid water boils (using tables) is: Saturated warter- Pressure table TA TABLE A-6 Specific volume, m/kg Superheated water (Continued) Sat. Sat. Sat. C m/kg kJ/kg kJkg kJ/kg K Press., temp., liquid, vapor P- 4.0 MPa (250.35 C) Sat. 0.04978 2601.7 2800.8 6.0696 3500 242.56 0.001235 0.057061 275 0.05461 2668.9 2887.3 6.2312 4000 250.35 0.001252 0.049779 300 0.05887 2726.2 2961.7 6.3639 5000 263.94 0.001286 0.039448 350 0.06647 2827.4 3093.3...
1. (48 pts) Complete this table for water. Input 'not applicable' in the quality 'x' column if water is not at saturated state. Possible phases for the 'phase description' column are 'compressed iquid', 'saturated liquid', saturated mixture, ‘saturated vapor, and ‘superheated vapor, TC C) P (kPa) h(kJ/kg) Phase description 90 0.A 100 0.7 105 275 200 60,000 200 100 200 1823 200 2803.0
Question 1 Using the tables for water determine the specified property data at the indicated state. For H2O at p = 0.7 MPa and v = 0.51 m3/kg, find u in kJ/kg. Note: Round up the answer to 2 decimal places. Question 2 Using the tables for water determine the specified property data at the indicated state. For H2O at p = 10 MPa and u = 990 kJ/kg, find h in kJ/kg. Note: Round up the answer to 2...
A piston-cylinder assembly contains 2 kg of water at 100°C and 100 kPa. The water is compressed to a satura vapor state where the pressure is 250 kPa. During compression, there is a heat transfer of energy from the wa to its surroundings having a magnitude of 250 kJ. Neglecting changes in kinetic energy and potential ener determine the work, in kl, for the process of the water. Show all the procedure of determining the work. "C TABLE A-5 Saturated...
Tutorial Questions 1.1. Water is the working fluid in an ideal Rankine cycle. The condenser pressure is kPa, and saturated vapor enters the turbine at 10 MPa. Determine the heat transfer rates, in kJ per kg of steam flowing, for the working fluid passing through the boiler and condenser and calculate the thermal efficiency.2. Water is the working fluid in an ideal Rankine cycle. Saturated vapor enters the turbine at 16 MPa, and the condenser pressure is 8 kPa ....
8.21 Figure P8.21 provides steady-state operating data for a vapor power plant using water as the working fluid. The mass flow rate of water is 15 kg/s. The turbine and pump operate adiabatically but not reversibly. Determine di (b) AC 8 o anidhu od o mpo? (b) the rates of heat transfer Qin and Qout, each in kW. (a) the thermal efficiency Steam generator Turbine m= 15 kg/s 10 out 5 PROBE N Condenser Pump Analyzing Bank 3 is the...
Problem 1. (40) Water is the working fluid in an ideal Rankine cycle with reheat. Superheated vapor enters the turbine at 12 MPa, 480 °C and the pressure at the exit of the second stage turbine is 8 kPa. Steam expands through the first stage turbine to 1 MPa and then is reheated to 440 °C. Saturated liquid water leaves the condenser. After the pump, pressure goes back to 12 MPa. Find: (1) Sketch the process on a T-s diagram...
Problem 3.10 (water properties). For H20, determine the specified property at the indicated state. Locate the state on a sketch of the「-v diagram , p-300 kPa, v:0.5 m3/kg. Find T, in °C. p 28 MPa, T- 200°C. Find v in m3/kg p 1 MPa, T 400°C. Find v in m3/kg. 、 7-100"C, x-60%. Find v, in m3/kg.