3) Two tanks are again connected in series, but this time outlet valve of Tank 1...
for thermodynamics class PROBLEM #3. [30 POINTS! Two tanks are connected by a valve. One tank contains 2 kg of carbon monoxide gas at 77°C and 0.7 bars. The other tank holds 8 kg of the same gas at 27°C and 1.2 bars The valve is opened and the gases are allowed to mix. The final equilibrium temperature is 42°C. Using the ideal gas model, determine the final equilibrium pressure, in bars. Solution:
Thermo1 (14marks) Problem (4) Two tanks are connected by a valve. One tank contains 3 kg of carbon monoxide (C0) gas at contains 8 kg of the same gas at 27 °C and 120 KPa. The valve is opened and the gases are allowed to mix while receiving energy by heat transfer from the surroundings. The final equilibrium temperature is 42 °C. Determine: 97 °C and 60 KPa. The other tank (a)The final pressure. (b)The heat transfer for the process...
USING LAPLACE TRANSFORMS Question 1 Two non-interacting tanks are connected in series as shown in the following figure. At steady state the input flow rate is 900 Limin. The valve coefficients areG = G = 1 and G = 0.5. The cross- sectional areas of Tank 1 and Tank 2 are 2 m2 and 1 m', respectively. Fi 900L/min hi h2 Figure 1 Two non-interacting tank system i. Develop the mathematical models for this system ii. Find the transfer function...
(1 point) Consider two interconnected tanks as shown in the figure above. Tank 1 insal contains 100 Lters) of water and 345 g of sat, while tank 2 initally contains 90 L of water and 225 g of sait Water containing 25 gL of salt is poured into tank1 at a rate of 3.5 Lmin while the midure flowing into tank 2 contains a salt concentration of 35 gL of salt and is flouing at the rate of 2.5 Limin....
(1 point) Consider two interconnected tanks as shown in the figure above. Tank 1 initial contains 10 L (liters) of water and 355 g of salt, while tank 2 initially contains 90 L of water and 345 g of salt. Water containing 40 g/L of salt is poured into tank1 at a rate of 4 L/min while the mixture flowing into tank 2 contains a salt concentration of 20 g/L of salt and is flowing at the rate of 1...
The system below shows a simplified schematic of an oil transfer system between tanks, from left to right: L L The oil specific gravity is 0.77 and its viscosity is 2.7 [cP). The pipes are horizontal and coaxial (neglect difference in height between suction and discharge). The tanks are closed but vented so that they are at atmospheric pressure ([atm]). Assume for simplicity that the liquid level in each tank is 2.5 (m) above the level of the pipes (in...
1)Two rigid tanks of equal size and shape are filled with different gases. The tank on the left contains oxygen, and the tank on the right contains hydrogen. Assume both gases are ideal. The molar masses of oxygen and hydrogen are 32 and 2, respectively. Both containers are at the same temperature. A pressure gauge is pin oxygen hydrogen connected to each tank. Both gauges show a reading of 230 kPa. Is the number of oxygen molecules in the left...
Section 7.1 Introduction First Order Systems: Problem 5 Previous Problem Probiem List Next Problem (1 poing) Consider two interconnected tanks as shown in the figure above. Tank 1 Initial contains 10 L Olters) of water and 170 g of salt. while tank 2 Initiaily contains 60 L of water and 445 g of salt. Water containing 25 g'L of salt is poured into tank1 at a rate of 4 U/min while the mixture flowing into tank 2 contains a salt...
The state space model of an interconnected three tank water storage system is given by the following equation -3 1 o 1[hi] dt The heights of water in the tanks are, respectively, hi, h2, hz. Each tank has an independent input flow; the volume flow rates of input water into the three tanks are, respectively, qii,qi2, Oi3. Each tank also has a water discharge outlet and the volume flow rates of water coming out of the tanks are, respectively, qo1,...
Question D.1 A2 Not sure Water flows between two tanks connected by a 100 m long pipe as shown in figure D1-1 below The tanks have a free surface height difference of 15 m and are both open to atmosphere. The first 30 m of pipe from the upper tank (section 1) has an internal diameter of 50 mm and a friction factor of 0.006, whilist the remaining 70m of pipe (section 2) has an internal diameter mm and a...