



(3.14) An organic liquid at 185 F is to be cooled with water that is available...
An organic liquid is heated from 20°C to 40°C by hot water in a 1:1 pass shell-and- tube heat exchanger in counter-current flow. The inlet temperature of the water stream is 85oC and flows in the shell side. The organic liquid flows through a bundle of 200 tubes of outside diameter 21 mm with a wall thickness of 2 mm. The flows of the organic liquid and water are 40 kg s and 15 kg s1, respectively (a) Calculate the...
Hot and cold water streams exchange heat in a double pipe heat exchanger in counter current flow. The pipes are 3 ft long. The inside pipe is a 5/8 inch BWG 12 copper tube. The outside pipe is a 1 inch Sch 40 steel pipe. The outside pipe is insulated to minimize heat loss to the surroundings. The hot water enters the inside tube at 180F with a flow rate such that Re = 10000 The cold water flows through...
Twenty [kw] of heat is to be removed from 375 [k] water flowing at 0.15 [kg/s] into the inner pipe of concentric tube heat exchanger. Cooling water enters the annulus at 290 [k] and leaves at 320 [k] with a flow in the opposite direction of the inner flow. The diameter of the thin- walled inner pipe is 2.5 [cm] a) b) c) Calculate the exit temperature of the hot fluid and the mass flow rate of the cold fluid...
Tubular heat exchanger design A liquid food (with specific heat 3.9 kJ/[kg °C]) flows in the inner pipe of a double pipe heat exchanger. The liquid food enters the heat exchanger at 72°C and exits at 6°C at a flow rate of 0.5 kg/s. In the annular section, cold water at 2°C enters the heat exchanger and flows concurrently at a flow rate of 12 kg/s. The average specific heat of water is 4.10 kJ/(kg °C). Assuming steady-state conditions. a)...
Two-pipe concentric concentric) for cooling the engine oil with the help of a water stream in a large diesel engine a reverse (opposite) flow heat exchanger is used. Water at a flow rate of 0.3 kg/h from inside pipe with an inside diameter of 56 mm It flows. The inner pipe is made of stainless steel with a heat transmission coefficient of 16 W/mc and is meat (wall its thickness is 3 mm. Apart from this there is another pipe...
Cooling water available at 680F is flowing through 1 in diameter tube at a rate of 62000 lb/hr to cool 7000 lb/hr of a lube oil from 200 to 1000F. The specific heat of the lube is 0.62 Btu/lbm oF and viscosity is 5 cp, thermal conductivity is 0.067 Btu/ft-hr °F. The overall heat transfer coefficient is 35 Btu/ft? hr of. It is considered for a single pass exchanger with 44 tubes are requires. a. Draw a schematic diagram of...
A 15-foot steel (k 7.2 Btu/h ft F) pipe is carrying steam at a temperature of 250 F. The pipe geometry has the following dimensions: inner diameter 4" and an outer diameter 4.8". The outside surface of the pipe is cooled via convection-assume convection coefficient (h) 125 Btu/h ft2 F. If the temperature of the outer surface of the pipe is 160 F address the following: (a) develop an expression for the heat equation and associated boundary conditions and (b)...
Question B2. An oil which has a heat capacity is 2.30 kJ/(kg·K) is being cooled in a heat exchanger from 372 K to 350 K and flows inside the tube at a rate of 3600 kg/h. A flow of 1450 kg water/h enters at 289 K for cooling and flow outside the tube. Calculate the water outlet temperature and heat transfer area if the overall heat transfer coefficient is 340 W/(m2 K) and the streams are countercurrent. (17.5 marks)
A simple counter flow heat exchanger consists of two co-axial tubes with hot process water passing through the inner tube and clean water through the annular space between the inner and outer tubes. The clean water enters at 20°C and leaves at 50°C. The process water enters at 90°C and leaves at 40°C. The mass flowrate of the process water is 3 kgs-1. The inner tube diameter is 30 mm and the outer tube diameter is 50 mm. Take the...
Two identical double-pipe heat exchangers are constructed of a 2-in standard schedule 40 pipe placed inside a 3-in standard pipe. The length of the exchangers is 10 ft; 40 gal/min of water initially at 80◦F is to be heated by passing through the inner pipes of the exchangers in a series arrangement, and 30 gal/min of water at 120◦F and 30 gal/min of water at 200◦F are available to accomplish the heating. The two heating streams may be mixed in...