Fill in the property/ energy transfer table. Make sure to fill in all 24 boxes. Sketch the Rankine cycle on a t-s fiagra . 9.106E Asteam power plant should produce 10 000 Btu/s net work. Steam flows at 800 psia, 900 F to the turbine which has a condenser exit at 120 F. Find the mass flow rate of steam needed.

Transcribed Image Text:

The image contains a thermodynamic table with data on pressure, specific volume, temperature, enthalpy, entropy, heat, and work for different process steps. Below is the transcribed table: | Step | P (kPa) | v (m³/kg) | T (°C) | h (kJ/kg) | s (kJ/kg K) | q (kJ/kg) | w (kJ/kg) | |------|---------|-----------|--------|-----------|-------------|-----------|-----------| | 1-2 | 15 | 0.001 | 54 | 226 | 0.755 | 0 | 0.9 | | 2-3 | 500 | 0.010 | 81.12 | 226.5 | 0.755 | 219.5 | 0 | | 3-4 | 500 | 0.374 | 473 | 3246 | 8.009 | 0 | 826 | | 4-1 | 15 | 10.03 | 54 | 2600 | 8.009 | 2234 | 0. | Explanation: - **Step**: Represents the different stages of the process being analyzed. - **P (kPa)**: Pressure at each stage, given in kilopascals. - **v (m³/kg)**: Specific volume, representing volume per unit mass. - **T (°C)**: Temperature in degrees Celsius. - **h (kJ/kg)**: Specific enthalpy, indicating the total heat content per unit mass. - **s (kJ/kg K)**: Specific entropy, measuring disorder or randomness per unit mass. - **q (kJ/kg)**: Heat transfer per unit mass in each stage. - **w (kJ/kg)**: Work done per unit mass in each stage. This table provides a detailed look at the thermodynamic states and processes, often used in analyzing cycles such as Rankine or refrigeration cycles.