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11.20 Heat exchanger of counter flow arrangement with temperatures at inlet of hot and cold fluids...
Consider a very long, concentric tube heat exchanger having hot and cold water inlet temperatures of...
Consider a very long, concentric tube heat exchanger having hot and cold water inlet temperatures of 85 and 15°C. The flow rate of the hot water is twice that of the cold water. Assuming equivalent hot and cold water specific heats, determine the hot water outlet temperature for the following modes of operation: (a) counterflow and (b) parallel flow. (a) Determine the hot water outlet temperature for counterflow operation, in °C. Thy0 = | i °C (b) Determine the hot...
Hot water flows thorough a parallel flow heat exchanger at a rate of 10 kg/min and...
Hot water flows thorough a parallel flow heat exchanger at a rate of 10 kg/min and is cooled by a cold water stream of flow rate 25 kg/min. The inlet temperatures of hot and cold water streams are 70 oC and 25 oC, respectively. The outlet temperature of the hot water is expected to be 50 oC. The individual convective heat transfer coefficient on both sides of the heat transfer area is 600 W/m2 .K. Take the specific heat for...
Consider a cross-flow heat exchanger with a surface area of 10 m². The cold fluid has...
Consider a cross-flow heat exchanger with a surface area of 10 m². The cold fluid has a heat capacity rate of 2310 W/K and inlet and outlet temperatures of 25°C and 150°C respectively. The hot fluid has a heat capacity rate of 2000 W/K and an inlet temperature of 325°C. If the cold fluid can be considered mixed and the hot fluid unmixed, find the overall heat transfer coefficient, u, in W/m2.K, and the outlet temperature, in °C, of the...
Question 3 A counter flow single pass double pipe heat exchanger is supplied with hot water...
Question 3 A counter flow single pass double pipe heat exchanger is supplied with hot water at 120°C that is to be cooled by water entering at 20°C. The mass flow rate of the hot stream is 5 kg/s, and that of the cold stream is 6 kg/s. The specific heat capacity of both fluids may be taken as 4180 J/kg.K. The overall U value is 1500W/m2.K, and the surface area for heat transfer is 20 m2 a) Determine the...
Hot and cold water streams exchange heat in a double pipe heat exchanger in counter current...
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...
A counter-flow heat exchanger is stated to have an overall heat transfer coefficient of 284 W/m2.K...
A counter-flow heat exchanger is stated to have an overall heat transfer coefficient of 284 W/m2.K when operating at design and clean conditions. Hot fluid enters the tube side at 101°C and exits at 71°C, while cold fluid enters the shell side at 27°C and exits at 42°C. After a period of use, built-up scale in the heat exchanger gives a fouling factor of 0.0004 m2 K/W. The surface area is 93 m². Assume both hot and cold fluids have...
Question 5 The following data is given for counter flow in concentric tube heat exchanger, mean...
Question 5 The following data is given for counter flow in concentric tube heat exchanger, mean heat transfer area = 0.02 m2 Test No Flow rate hot Flow rate Tin hotTout hot|Tin cold Tout cold (L/min) cold (L/min) (THI) (TH2) (TCI) (TC2) 13 1 60 56 30 42 a) Calculate the heat transfer rate in kW. b) The overall heat transfer coefficient U. c) The mean temperature efficiency of the two circuits (ń).
An engineer operates a counter-flow shell-and-tube heat exchanger. It is known that the A fluid (specific...
An engineer operates a counter-flow shell-and-tube heat exchanger. It is known that the A fluid (specific heat is 1.0 J/g*°C) flows into the outside of the tube at a mass flow rate of 100 g/hr. The inlet temperature is 90 ° C and the outlet temperature is At 70 ° C, the B fluid flows into the tube. The inlet temperature is 20 ° C and the outlet temperature is 65 ° C. If the heat transfer effective area is...
A simple counter flow heat exchanger consists of two co-axial tubes with hot process water passing...
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...
at Your objective in this problem is to design a "simple" annular flow heat exchanger (see...
at Your objective in this problem is to design a "simple" annular flow heat exchanger (see the "simple" description the beginning of this HW). A heat exchanger of this kind can easily be built in your garage with two different size pper pipes along with some solder. Assume both fluids are water with the cold fluid flowing in the outer tube. The pipe diameters are based in Type L copper tube dimensions: outside diameter 1/2 -inch nominal tube is 0.625...
Consider a very long, concentric tube heat exchanger having hot and cold water inlet temperatures of 85 and 15°C. The flow rate of the hot water is twice that of the cold water. Assuming equivalent hot and cold water specific heats, determine the hot water outlet temperature for the following modes of operation: (a) counterflow and (b) parallel flow. (a) Determine the hot water outlet temperature for counterflow operation, in °C. Thy0 = | i °C (b) Determine the hot...
Consider a cross-flow heat exchanger with a surface area of 10 m². The cold fluid has a heat capacity rate of 2310 W/K and inlet and outlet temperatures of 25°C and 150°C respectively. The hot fluid has a heat capacity rate of 2000 W/K and an inlet temperature of 325°C. If the cold fluid can be considered mixed and the hot fluid unmixed, find the overall heat transfer coefficient, u, in W/m2.K, and the outlet temperature, in °C, of the...
Question 3 A counter flow single pass double pipe heat exchanger is supplied with hot water at 120°C that is to be cooled by water entering at 20°C. The mass flow rate of the hot stream is 5 kg/s, and that of the cold stream is 6 kg/s. The specific heat capacity of both fluids may be taken as 4180 J/kg.K. The overall U value is 1500W/m2.K, and the surface area for heat transfer is 20 m2 a) Determine 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...
A counter-flow heat exchanger is stated to have an overall heat transfer coefficient of 284 W/m2.K when operating at design and clean conditions. Hot fluid enters the tube side at 101°C and exits at 71°C, while cold fluid enters the shell side at 27°C and exits at 42°C. After a period of use, built-up scale in the heat exchanger gives a fouling factor of 0.0004 m2 K/W. The surface area is 93 m². Assume both hot and cold fluids have...
Question 5 The following data is given for counter flow in concentric tube heat exchanger, mean heat transfer area = 0.02 m2 Test No Flow rate hot Flow rate Tin hotTout hot|Tin cold Tout cold (L/min) cold (L/min) (THI) (TH2) (TCI) (TC2) 13 1 60 56 30 42 a) Calculate the heat transfer rate in kW. b) The overall heat transfer coefficient U. c) The mean temperature efficiency of the two circuits (ń).
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...
at Your objective in this problem is to design a "simple" annular flow heat exchanger (see the "simple" description the beginning of this HW). A heat exchanger of this kind can easily be built in your garage with two different size pper pipes along with some solder. Assume both fluids are water with the cold fluid flowing in the outer tube. The pipe diameters are based in Type L copper tube dimensions: outside diameter 1/2 -inch nominal tube is 0.625...
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