A vertical cylindrical tank is being filled with water, while at the same time water is being drained as shown in Fi...
11. The cylindrical storage tank is being filled using a pipe of diameter 3 in. Determine the rate (in ft/s) at which the level in the tank is rising if the volumetric flow rate into the tank at A is 40 gal/min 10 ft 15 ft Figure 5
A cylindrical tank is being filled with water. The tank is initially empty but then water begins to flow into it at a rate of 62.00 kg/min. There is a small hole of radius r = 0.7000 cm at the bottom of the tank where water can escape. Because the flow rate of water leaving the hole is initially at a slower rate than water entering the tank, the water level rises. The average velocity of water leaving through the...
The open cylindrical tank in the figure contains water and is being filled as shown. Assume incompressible flow with pwater = 1000 kg/m^3. 1. (15 marks): The open cylindrical tank in the figure contains water and is being filled as shown. Assume incompressible flow, with water = 1000 kg/m3. a) Write the mass transport equation and note that the flow may not be steady, which implies that the rate of change of mass in the control volume needs not be...
IV.(6+4+2pts) Consider a cylindrical tank with the base area 100 cm2. The tank is initially filled with 2000 cc of water. If pure water enters at 10 cc/min and it flows out at the rate h (t) cc/min. Here, h(t) denotes the height of water in the tank at time t. Let V(t) be the volume of water in the tank at time t. (Note 1 cc 1cm3) (a) Set up the initial value problem of the ODE for V(t)...
A fluid of constant density (p) at 40 °F (T) is flowing into an initially empty cylindrical tank of radius 10 ft. The cylindrical vešsel is jacketed and heated with saturated steam (T) at 212 °F.The steam jacket does not cover either the top or bottom of the tank. The heat capacity of liquid (Cp liquid is near to that of water. The vessel is well stirred and the heat resistance of the jacket is negligible as are the heat...
a cylindrical water storage 12. in diameter and 8m high, is filled through a 100 mm pipe carrying a velocity of 40 m/s. (a) how long it will take to fill the tank? (b) if the tank has an out flow pipe at the bottom with a capacity of 0.12 m^3/s discharge rate and both inflow and outflow pipes are opened at the same time, compute the time rate of the rise of the water level. (c) compute the time...
1. Atall cylindrical tank, held above ground on stilts, is partially filled with water. (See top figure). The tank has a diameter, D. At time equal to zero, a hole of diameter d is poked in the bottom of the tank, where d<< D. Let z-0 correspond to the bottom of the tank. The initial fluid height is za. Had Use Bernoulli equation to assess the velocity of the fluid as it leaves the bottom of the tank as a...
A solution of water and dissolved salt enters a cylindrical vessel with radius R. The volumetric inlet flow rate of solution in the vessel is q1 and the concentration of salt in the inlet is c1. The solution inside the vessel is kept well-stirred (assume perfect and instantaneous mixing, and constant density of the mixture) and flows out of the tank with flow rate q2 (see Figure 1). Knowing that initially the vessel only contains pure water and that the...
please answer all of part i really need them ASAP ... The level ho of liquid in a vertical cylindrical tank as shown in Figure 4 is related to the inflow of liquid qi by the time domain equation d h dt where τ RLGL, the steady state gain of the system is G RL/pg and the tank capacitance, inlet ine ho outlet vave Tank Figure 4: Tank Level Process (a) You carry out some measurements on the tank and...
Question Completion Status: QUESTION 1 A large tank is initially filled with fresh water before it is started. The feed flow rate of concentrated orange 100 feed rate of F0=50 m /h. The exit flow rate (F) is the same as inlet flow rate. The tank volume is 500 m me the vol constant. Based on concentration, this problem is unsteady state type of lumped systems. If the final solution based on the at time =0, what is the concentration...