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water For the simple, co-current exchanger shown above: Given: • Water stream ; cp = 1btu/lb-F;...
2. Determine the heat requirement and the size of the settling/coalescing section of a horizontal...
2. Determine the heat requirement and the size of the settling/coalescing section of a horizontal heater treater for the following conditions: Oil flow rate-7500 bbl/day Inlet B.S. & W.-12% Outlet B.S. & W.-190 Oil viscosity = 50 cP at 80 Oil viscosity = 12 cP at 120 oF Specific heat of oil = 0.5 Btu/lb °F Oil specific gravity -0.86 Oil viscosity 22 cP at 100 °F Water specific gravity - 1.06 Specific heat of water-1.1 Btu/lb oF Inlet temperature...
2. Determine the heat requirement and the size of the settling/coalescing section of a horizontal...
2. Determine the heat requirement and the size of the settling/coalescing section of a horizontal heater treater for the following conditions: Oil flow rate-7500 bbl/day Inlet B.S. & W.-12% Outlet B.S. & W.-190 Oil viscosity = 50 cP at 80 Oil viscosity = 12 cP at 120 oF Specific heat of oil = 0.5 Btu/lb °F Oil specific gravity -0.86 Oil viscosity 22 cP at 100 °F Water specific gravity - 1.06 Specific heat of water-1.1 Btu/lb oF Inlet temperature...
Cooling water available at 680F is flowing through 1 in diameter tube at a rate of...
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...
(24) Consider the water heat distribution system shown below where: i) The fractions refer to the...
(24) Consider the water heat distribution system shown below where: i) The fractions refer to the fraction of the stream flowing, e.g. 30% of the stream leaving the 75,000 Btu/hr heater goes to the exit iQis a heater, energy being added to the water stream Water 1500 lb/hr T 60°F 0.3 75,000 Btu/hr 0.7 -30,000 Btu/hr -50,000 Btu/hr 0.9 0.1 200,000 Btu/hr a) What is the outlet temperature and quality (mass fraction steam)?
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...
(3.14) An organic liquid at 185 F is to be cooled with water that is available...
(3.14) An organic liquid at 185 F is to be cooled with water that is available at 80°E. A double-pipe beat exchanger consisting of six hairpins connected in series will be used. The heat exchanger pipes are schedule 40. Bach hairpin is 20 ft long and is made with 2- and 1-in. stainless steel (k 9.4 Btu/h ft F) pipes. Flow rates and fuid properties, which may be assumed constant, are given below. The organic liquid will flow through the...
a hot stream is cooled by cooling water in a counter current heat exchanger propose a feedback control and sketch a sch...
a hot stream is cooled by cooling water in a counter current
heat exchanger propose a feedback control and sketch a schematic
diagram
CONSULT APPENDIX WHERE APPROPRIATE shot stream is cooled by cooling water in a counter current heat exchanger ents as shown in Figure Q1. we, Te2 Heat exchanger Figure Q1. Heat exchanger It is desired to control the exit temperature (Tha) of the hot stream. All flow rates can be measured and manipulated. (a) Propose a feedback control...
(50 points): Water is the working fluid in the power cycle shown below. Steam is o produced at 1000 p reheated in the Heat pressure of 1 psi The net si, 800 F. Some of the steam expands through T...
(50 points): Water is the working fluid in the power cycle shown below. Steam is o produced at 1000 p reheated in the Heat pressure of 1 psi The net si, 800 F. Some of the steam expands through Turbine 1 to 100 psi. Steam is exchanger to 530 F before going through Turbine 2 to exit at the Condenser . Eac h turbine has an isentropic efficiency of 88% and the pumps are 100% efficient. power out le. Calculate...
please show all steps and do both. if you dont do both problems please do problem...
please show all steps and do both. if you dont do both
problems please do problem 2 is more important .
Problem 2. (45 Points) 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...
1 CPD4701 Assignment 2/2019 Question 2 shell and-tube heat exchanger was designed for the following service: Cold strea...
1 CPD4701 Assignment 2/2019 Question 2 shell and-tube heat exchanger was designed for the following service: Cold stream Hot stream Crude Oil Fluid Cooling water Tube side Stream allocation Shell side Mass flow rate (kg/s) 110 30 Inlet temperature (C) 90 Outlet temperature (C) Heat capacity (J/kg K) Density (kg/m2) Viscosity (Pa-s) Thermal conductivity (W/m-K) Fouling factor (m2 CW) 40 50 2177 4187 787 995 0.72-10 1.89-103 0.122 0.59 0.0002 0.0004 The shell and tube heat exchanger has the following...
2. Determine the heat requirement and the size of the settling/coalescing section of a horizontal heater treater for the following conditions: Oil flow rate-7500 bbl/day Inlet B.S. & W.-12% Outlet B.S. & W.-190 Oil viscosity = 50 cP at 80 Oil viscosity = 12 cP at 120 oF Specific heat of oil = 0.5 Btu/lb °F Oil specific gravity -0.86 Oil viscosity 22 cP at 100 °F Water specific gravity - 1.06 Specific heat of water-1.1 Btu/lb oF Inlet temperature...
2. Determine the heat requirement and the size of the settling/coalescing section of a horizontal heater treater for the following conditions: Oil flow rate-7500 bbl/day Inlet B.S. & W.-12% Outlet B.S. & W.-190 Oil viscosity = 50 cP at 80 Oil viscosity = 12 cP at 120 oF Specific heat of oil = 0.5 Btu/lb °F Oil specific gravity -0.86 Oil viscosity 22 cP at 100 °F Water specific gravity - 1.06 Specific heat of water-1.1 Btu/lb oF Inlet temperature...
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...
(24) Consider the water heat distribution system shown below where: i) The fractions refer to the fraction of the stream flowing, e.g. 30% of the stream leaving the 75,000 Btu/hr heater goes to the exit iQis a heater, energy being added to the water stream Water 1500 lb/hr T 60°F 0.3 75,000 Btu/hr 0.7 -30,000 Btu/hr -50,000 Btu/hr 0.9 0.1 200,000 Btu/hr a) What is the outlet temperature and quality (mass fraction steam)?
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...
(3.14) An organic liquid at 185 F is to be cooled with water that is available at 80°E. A double-pipe beat exchanger consisting of six hairpins connected in series will be used. The heat exchanger pipes are schedule 40. Bach hairpin is 20 ft long and is made with 2- and 1-in. stainless steel (k 9.4 Btu/h ft F) pipes. Flow rates and fuid properties, which may be assumed constant, are given below. The organic liquid will flow through the...
a hot stream is cooled by cooling water in a counter current
heat exchanger propose a feedback control and sketch a schematic
diagram
CONSULT APPENDIX WHERE APPROPRIATE shot stream is cooled by cooling water in a counter current heat exchanger ents as shown in Figure Q1. we, Te2 Heat exchanger Figure Q1. Heat exchanger It is desired to control the exit temperature (Tha) of the hot stream. All flow rates can be measured and manipulated. (a) Propose a feedback control...
(50 points): Water is the working fluid in the power cycle shown below. Steam is o produced at 1000 p reheated in the Heat pressure of 1 psi The net si, 800 F. Some of the steam expands through Turbine 1 to 100 psi. Steam is exchanger to 530 F before going through Turbine 2 to exit at the Condenser . Eac h turbine has an isentropic efficiency of 88% and the pumps are 100% efficient. power out le. Calculate...
please show all steps and do both. if you dont do both
problems please do problem 2 is more important .
Problem 2. (45 Points) 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...
1 CPD4701 Assignment 2/2019 Question 2 shell and-tube heat exchanger was designed for the following service: Cold stream Hot stream Crude Oil Fluid Cooling water Tube side Stream allocation Shell side Mass flow rate (kg/s) 110 30 Inlet temperature (C) 90 Outlet temperature (C) Heat capacity (J/kg K) Density (kg/m2) Viscosity (Pa-s) Thermal conductivity (W/m-K) Fouling factor (m2 CW) 40 50 2177 4187 787 995 0.72-10 1.89-103 0.122 0.59 0.0002 0.0004 The shell and tube heat exchanger has the following...
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