Solve the following problem and show your complete solutions for better understanding. 1. Steam flows at 60 m/s through a steam main of 1.6 MPa, 280°C. Four tanks are connected to this main by pipes which are closed by valves, as shown in the Figure. Supply line HValve H Valve T = 280°C H Valve b. Find the heat transfer to the steam in tank B. c. Find the final state in tank C. d. Find the final state in tank D. Valve Tank A, which has heat-conducting walls, is surrounded by a constant-temperature bath at 280°C, and is initially evacuated. Tank B is similar to tank A except that it initially contains steam at 0.8 MPa and 280°C. Tank C has adiabatic walls and is initially evacuated. Tank D has adiabatic walls and initially contained steam at o.8 MPa, 280°C. The valves to the tanks are opened, and closed again when the tanks are filled with steam. a. Find the heat transfer to the steam in tank A.

Solve the following problem and show your complete solutions for better understanding. 1. Steam flows at 60 m/s through a steam main of 1.6 MPa, 280°C. Four tanks are connected to this main by pipes which are closed by valves, as shown in the Figure. Supply line HValve H Valve T = 280°C H Valve b. Find the heat transfer to the steam in tank B. c. Find the final state in tank C. d. Find the final state in tank D. Valve Tank A, which has heat-conducting walls, is surrounded by a constant-temperature bath at 280°C, and is initially evacuated. Tank B is similar to tank A except that it initially contains steam at 0.8 MPa and 280°C. Tank C has adiabatic walls and is initially evacuated. Tank D has adiabatic walls and initially contained steam at o.8 MPa, 280°C. The valves to the tanks are opened, and closed again when the tanks are filled with steam. a. Find the heat transfer to the steam in tank A.

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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Solve the following problem and show your complete solutions. explain your answer for better understanding

Solve the following problem and show your complete solutions for better understanding.
1.
Steam flows at 60 m/s through a steam main of 1.6 MPa, 280°C. Four tanks are connected to
this main by pipes which are closed by valves, as shown in the Figure.
HO Valve H
T = 280°C
B
Supply line
Valve
HValve
O
C
HValve
D
Tank A, which has heat-conducting walls, is surrounded by a constant-temperature bath at
280°C, and is initially evacuated. Tank B is similar to tank A except that it initially contains
steam at 0.8 MPa and 280°C. Tank C has adiabatic walls and is initially evacuated. Tank D
has adiabatic walls and initially contained steam at 0.8 MPa, 280°C. The valves to the tanks
are opened, and closed again when the tanks are filled with steam.
a. Find the heat transfer to the steam in tank A.
b. Find the heat transfer to the steam in tank B.
c. Find the final state in tank C.
d. Find the final state in tank D.

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Learning Goal: To calculate the maximum allowable stresses in pressure vessels, compute the minimum allowable thickness of pressure vessels to meet certain constraints, and observe and compare properties of different pressure vessel shapes. Engineers are considering two possible vessel shapes for storing fuel. One shape is cylindrical and the other is spherical. Each vessel would be constructed out of the same material such that its hoop stresses and longitudinal stresses would be no greater than 120 MPa. The cylindrical pressure vessel has an inside diameter of de = 800 mm and a thickness of te = 25.0 mm. The spherical pressure vessel has an inside diameter of ds = 650 mm and a thickness of t = 11.0 mm. ▼ Part A - Maximum allowable pressure in the cylindrical pressure vessel Determine the maximum allowable pressure, pc,max, in the cylindrical pressure vessel. Express your answer in N to three significant figures. ► View Available Hint(s) Pc,max = Submit ΟΙ ΑΣΦ ↑ vec Previous Answers…