Liquid woter at 200 K Pa and 15°C is heated 1n a chumber hy mixing it with Superheated stean at 200 KPa and 200°C, OrZE Liguid water enters, the mixing Chamber 'at a chamber is estimuted to Yose heat to the surroundinga air at 25°C at a rate of 600 KS/mind If the mixture leaues The nixing chamber at 200 K Pa and 80 determine Ca) the maso Plow rate of the 84per heatedsteam and (6) the wasted work potential during Thir rate A 4 Kg/s and the gixing procest 600 KJlmin つS GuIス) 20

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Thermodynamics

**Transcription for Educational Website:**

---

**Liquid Water and Steam Mixing Process**

Liquid water at 200 kPa and 15°C is entering a chamber by mixing it with superheated steam at 200 kPa and 200°C. The flow rate of the water is 4 kg/s and the steam is fed into the chamber at a rate of 6 kg/s. 

Given that the heat loss to the surroundings is 600 kJ/min, find:

1. The temperature of the mixture at the exit of the mixing chamber.
2. The mass flow rate of the superheated steam.
3. The wasted work potential during this mixing process.

---

**Diagram Explanation:**

The diagram is a schematic representation of the mixing chamber. It is labeled as follows:

- **Inlet 1:** Liquid water entering the chamber. Conditions are 150°C, 4 kg/s.
- **Inlet 2:** Superheated steam entering the chamber. Conditions are 200 kPa, 200°C.
- **Outlet:** Mixed flow leaving the chamber at 80°C.
- The chamber is described as a "mixing chamber" where the two streams combine.
- An arrow indicates the heat loss to the surroundings which is 600 kJ/min.

This setup provides a visual overview of the mixing process, illustrating the inflows, the mixing chamber, and the outflow conditions.
Transcribed Image Text:**Transcription for Educational Website:** --- **Liquid Water and Steam Mixing Process** Liquid water at 200 kPa and 15°C is entering a chamber by mixing it with superheated steam at 200 kPa and 200°C. The flow rate of the water is 4 kg/s and the steam is fed into the chamber at a rate of 6 kg/s. Given that the heat loss to the surroundings is 600 kJ/min, find: 1. The temperature of the mixture at the exit of the mixing chamber. 2. The mass flow rate of the superheated steam. 3. The wasted work potential during this mixing process. --- **Diagram Explanation:** The diagram is a schematic representation of the mixing chamber. It is labeled as follows: - **Inlet 1:** Liquid water entering the chamber. Conditions are 150°C, 4 kg/s. - **Inlet 2:** Superheated steam entering the chamber. Conditions are 200 kPa, 200°C. - **Outlet:** Mixed flow leaving the chamber at 80°C. - The chamber is described as a "mixing chamber" where the two streams combine. - An arrow indicates the heat loss to the surroundings which is 600 kJ/min. This setup provides a visual overview of the mixing process, illustrating the inflows, the mixing chamber, and the outflow conditions.
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