1. A tank operating at steady state condition receives at inlet 1, water at 10 bars, 150°C, 2 liters per second. At inlet 2, that has 100 mm in diameter, water at 10 bars, 250 °C, at 5 m/s. At inlet 3, water at 10 bars, quality of 50%, 2 kg/s. At outlet 4 with a diameter of 250 mm, water leaves at 10 bars. The tank heat loss is 2 kW. Calculate: (a) the temperature of the fluid leaving the tank, (b) the velocity of the fluid going through the outlet.
1. A tank operating at steady state condition receives at inlet 1, water at 10 bars, 150°C, 2 liters per second. At inlet 2, that has 100 mm in diameter, water at 10 bars, 250 °C, at 5 m/s. At inlet 3, water at 10 bars, quality of 50%, 2 kg/s. At outlet 4 with a diameter of 250 mm, water leaves at 10 bars. The tank heat loss is 2 kW. Calculate: (a) the temperature of the fluid leaving the tank, (b) the velocity of the fluid going through the outlet.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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4.
![1. A tank operating at steady state condition
receives at inlet 1, water at 10 bars, 150°C, 2 liters
per second. At inlet 2, that has 100 mm in
diameter, water at 10 bars, 250 °C, at 5 m/s. At inlet
3, water at 10 bars, quality of 50%, 2 kg/s. At outlet
4 with a diameter of 250 mm, water leaves at 10
bars. The tank heat loss is 2 kW. Calculate: (a) the
temperature of the fluid leaving the tank, (b) the
velocity of the fluid going through the outlet.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4f747923-27ef-48af-8a3a-fa1aa203e7a4%2F6b2ee656-eb5a-4a32-a355-2c7fb474e309%2Fi1jki9_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1. A tank operating at steady state condition
receives at inlet 1, water at 10 bars, 150°C, 2 liters
per second. At inlet 2, that has 100 mm in
diameter, water at 10 bars, 250 °C, at 5 m/s. At inlet
3, water at 10 bars, quality of 50%, 2 kg/s. At outlet
4 with a diameter of 250 mm, water leaves at 10
bars. The tank heat loss is 2 kW. Calculate: (a) the
temperature of the fluid leaving the tank, (b) the
velocity of the fluid going through the outlet.
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