In a parallel flow heat exchanger, hot water at a flow rate of 1 kg/s is cooled from 90° C to 60 °C with a cooler at a temperature of 40 °C at a flow rate of 2 kg/s. Total heat transfer coefficient 1000 W / m2.K. Cph = Cpc= 4182 J/kgK According to this; a) determine the required area for the heat exchanger using the logarithmic mean temperature difference method. b) determine the required area for counter-flow heat exchanger status. c) determine the required area, taking into account the state of a cross-flow heat exchanger in which one flow is mixed, in which the other flow is not mixed

In a parallel flow heat exchanger, hot water at a flow rate of 1 kg/s is cooled from 90° C to 60 °C with a cooler at a temperature of 40 °C at a flow rate of 2 kg/s. Total heat transfer coefficient 1000 W / m2.K. Cph = Cpc= 4182 J/kgK According to this; a) determine the required area for the heat exchanger using the logarithmic mean temperature difference method. b) determine the required area for counter-flow heat exchanger status. c) determine the required area, taking into account the state of a cross-flow heat exchanger in which one flow is mixed, in which the other flow is not mixed

Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)

8th Edition

ISBN:9781305387102

Author:Kreith, Frank; Manglik, Raj M.

Publisher:Kreith, Frank; Manglik, Raj M.

Chapter10: Heat Exchangers

Section: Chapter Questions

Problem 10.31P

See similar textbooks

Related questions

Q: Water (Cp = 4200 J/kg. °C) is used cool %3D an unknown fluid (with a given Cp = 3810 J/kg-°C) using…

A: The overall heat transfer coefficient is a measurement of a series of conductive and convective…

Q: A cross-flow air-to-water heat exchanger with an effectiveness of 0.65 is used to heat water (cp =…

A: Given data: Effectiveness, ε = 0.65 Specific heat of water, Cpc = 4.18 kJ/kg Mass flow rate of…

Q: Q36-37. A thin-walled double-pipe counter-flow heat exchanger is used to cool oil (cp = 2.20…

Q: Forced air flows over a convective heat exchanger in a room heater resulting in an average…

A: Given Data The average convective heat transfer coefficient, h=1.135 KW/m2K (Assume) (Not clearly…

Q: 23–111 Hot oil is to be cooled in a multipass shell-and-tube heat exchanger by water. The oil flows…

A: Given Data: The heat transfer coefficient between oil and shell is, h0=35 W/m2·°C. The average…

Q: Heat transfer problem.In a counter flow heat exchanger, water, flow rate 0.05kg/s, enters at 400K…

Q: In a parallel flow heat exchanger, hot fluid enters the heat exchanger at a temperature of 150°C and…

A: (a) The convection heat transfer coefficients are given as, The fouling factors are given as, The…

Q: Water (Cp = 4200 J/kg. °C) is used cool an unknown fluid (with a given Cp = 3810 J/kg.ºC) using a…

A: Find the maximum heat transfer between the fluids.

Q: Crude oil, Cp = 1.9 kJ/(kg.K), flows at a rate of 0.32 kg/s through the inner pipe of a tube-in-tube…

Q: Q36-37. A thin-walled double-pipe counter-flow heat exchanger is used to cool oil (cp = 2.20…

Q: Refrigerant vapor rejects 70 kW of heat as it passes through an air-cooled condenser. The condenser…

Q: Water (Cp = 4.183 kJ/kg-k) flowing at a rate of 0.8 kg/s enters a counter current heat exchanger at…

Q: iş iÇİN Giriş yap İNGİLİZCE Cold water entering an opposing flow heat exchanger at a flow rate of…

Q: f 7.59 kg/s. If conde

Q: In a single-body, four-pipe transition heat exchanger, the hot combustion product gases are cooled…

Q: An oil cooler for a lubrication system has to cool 1000 kg/h of oil (c,= 2.09 kJ/kg°C) from 80°C to…

Q: Water (Cp = 4200 J/kg: °C) is used cool an unknown fluid (with a given Cp = 3810 J/kg-°C) using a…

A: Unknown fluidmh˙=1.46 kg/sCph=3810 J/kgoCTh1=66oCTh2=39oC Cooling…

Q: tubes

Q: Water (cp = 1.0 Btu/lbm ℉) is to be heated by solar heated hot air (cp = 0.24 Btu/lbm ℉) in a…

Q: . Determine the overall heat transfer coefficient and flow rate required while using a heat…

A: Given:Tci=20°CTco=40°CTh=60°CA=12 m2hfg=2358.7 KJ/Kg

Q: The stream data for a chemical process plant that produces Ethyl Acetate is presented in Table 1. As…

Q: A single-pass, cross-flow heat exchanger uses hot exhaust gases (mixed) to heat water (unmixed) from…

Q: In a heat exchanger, water (Cp = 4200 j/kg.K ) is heated from 15 0 C to 350 C by a hot oil which has…

Q: A heat exchanger is operating at a transfer rate of 19,000,000 BTU/hr. cooling water from 190 to 90…

Q: Steam enters a counter-flow heat exchanger, dry saturated at 10 bar and leaves at 350°C. The mass…

Q: (2.23) A finned heat exchanger tube is made of aluminum alloy (k = 186 W/m · K) and contains 125…

Q: n a heat exchanger, a fluid with a density of 2.5 m per hour and a specific heat of 0.727 kcal / kg…

A: Given Data:- Hot,Qh=2.5m3/hCph=0.727kcal/kg∘CThi=120∘CTho=40∘Cρh=110kg/m3 Cold,Qc=10 m3/hCpc=…

Q: A thin-walled double-pipe, counter-flow heat exchanger is to be used to cool oil (cp = 0.525…

A: Given that,

Q: Hot exhaust gases of a stationary diesel engine are to be used to generate steam in an evaporator.…

A: Given data as per question Entrance temperature of exhaust gasses = 5500 c Mass flow rate of gasses…

Q: A counterflow heat exchanger is employed to cool 0.55 kg/s (CP = 2.45 kJ/kg-K) of oil from 115°C to…

Q: 23–82C Consider a heat exchanger that has an NTU of 0.1. Someone proposes to triple the size of the…

A: A Heat exchanger is given; with NTU = 0.1 The Heat exchanger size is increased by 3 times, and thus…

Q: A thin-walled double pipe, counter-flow heat exchanger is to be used to cool oil (cp = 2.2 kJ/kg.ºC)…

Q: Crude oil, cp = 1.9 kJ/(kg.K), flows at a rate of 0.32 kg/s through the inner pipe of a tube-in-tube…

Q: Refrigerant vapor rejects 70 kW of heat as it passes through an air-cooled condenser. The condenser…

Q: Consider two heat exchanger configurations: parallel-flow and counter-flow. For both configurations…

Q: A STHX 1-4 heat exchanger is being used to heat a flow of liquid toluene. Toluene enters the heat…

A: Given: Inlet temperature of toluene Tc,i=5°C Flow rate of toluene Qc=18L/s or 18×10-3m3/s Inlet…

Q: A concentric counterflow heat exchanger is used to cool oil by water. The oil flow rate is 0.1 kg/s…

Q: Water (Cp = 4200 J/kg- °C) is used cool an unknown fluid (with a given Cp = 3810 J/kg.°C) using a…

Q: b) A shell and tube heat exchanger is constructed of a copper having inner tube of inner diameter…

A: Given: Di=2.8 cmDo=4.0 cmD=5.2 cmL=10 mhi=750 W/m2°Cho=1350 W/m2°C

Q: Hot oil, which enter a cross-flow heat exchanger at 200 C and leave at 100 C, are used to heat water…

A: Given data: The inlet temperature of the hot oil, Th,1 =200 C The outlet temperature of the hot oil,…

Q: Cold water (C, = 4180 J/kg.°C) enters the tubes of a heat exchanger with 2-shell passes and 20 tube…

Q: calculations to determine the values of (using the data provided for a heat exchanger): a. work done…

A: As you have posted multiple questions we will solve first 3 sub-parts as per Bartleby guidelines.…

Q: Milk is flowing through a heat exchanger at a rate of 2000 kg/h. The heat exchanger supplies 111,600…

A: Given Data Mass flow rate= 2000 kg/h Q=111600 kJ/h To=95°C C=3.9 kJ/kg.K

Q: Cold water entering an opposing flow heat exchanger at a flow rate of 0.6 kg/s at 20 oC (cp =4180…

Q: Hot oil (cp = 2200 J/kg.K) water in a heat exchanger with 2 bodies and 12 pipes ( cp = 4180 J/kg.K)…

Q: In a parallel flow heat exchanger, with a cooler at 40 °C at a flow of 2 kg / h, hot water at 1 kg /…

A: A= 4.681 m2, Tco= 55 degree C In question mass flow rate is given in kg/h but it's very less. It…

Q: Below data was obtained from an experimental activity for a parallel pipe heat exchanger.…

A: As per our company policy we are asked to solve 3 sub-parts only...I am solving 1-4 Please post rest…

Q: In a flow heat

A: Hot fluid exit temperature by using the heat balance equation…

Concept explainers

Heat Exchangers

Heat exchangers are the types of equipment that are primarily employed to transfer the thermal energy from one fluid to another, provided that one of the fluids should be at a higher thermal energy content than the other fluid.

Heat Exchanger

The heat exchanger is a combination of two words ''Heat'' and ''Exchanger''. It is a mechanical device that is used to exchange heat energy between two fluids.

Question

In a parallel flow heat exchanger, hot water at a flow rate of 1 kg/s is cooled from 90° C to 60 °C with a cooler at a temperature of 40 °C at a flow rate of 2 kg/s.

Total heat transfer coefficient 1000 W / m².K. C_ph = C_pc= 4182 J/kgK According to this;
a) determine the required area for the heat exchanger using the logarithmic mean temperature difference method.
b) determine the required area for counter-flow heat exchanger status.
c) determine the required area, taking into account the state of a cross-flow heat exchanger in which one flow is mixed, in which the other flow is not mixed.

d) assume that the output temperature of the hot fluid is not given, take the area 6.42 m² for the parallel flow heat exchanger state and calculate the output temperature of the hot water using the efficiency-NTU method.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

Step 2

Step 3

Step 4

Trending now

This is a popular solution!

Step by step

Solved in 4 steps with 4 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

Mechanical engineering : Heat transfer 1. Determine the overall heat transfer coefficient and flow rate required while using a heat exchanger , the water is enetered at 20◦C through the tubes of small single pass and the water comes out with a temperature at 40◦C. 25 kg/min of steam condenses at 60◦C on the shel side ,the area of the exchanger is 12 m2. (The latentheat, hfg, is 2358.7 kJ/kg at 60◦C.) 2 . You have unpainted aluminum siding on your house and the engineerhas based a heat loss calculation on U = 5 W/m2K. You discover thatair pollution levels are such that Rf is 0.0005 m2K/W on the siding.Should the engineer redesign the siding? If not sure skip, wrong may downvote
Crude oil, Cp = 1.9 kJ/(kg.K), flows at a rate of 0.32 kg/s through the inner pipe of a tube-in-tube heat exchanger and it is heated from 29 °C to 96 °C. Another hydrocarbon, Cp = 2.50 kJ/(kg. K), enters at 240 °C. The overall coefficient of heat transfer is found to be 4200 W/(m?K). Determine for a minimum temperature difference of 20 °C between the hot and cold Nuids; a) the LMTD for parallel flow and for counterflow heat exchamger; b) the surface area for both heat exchanger configurations; c) mass Now rate of hot Nuid for both heat exchanger configurations.
An air-cooled condenser has an h value of 30 W/m2-K based on the air-side area. The air-side heat transfer area is 190 m2 with air entering at 27°C and leaving at 40°C. If the condensing temperature is constant at 49°C, what is the air mass flow rate in kg/s? Let Cp(air) = 1.006 kJ/kg-K. Draw and label the temperature-flow diagram. Round off your answer to three (3) decimal places.
3. In a shell-and-tube heat exchanger, water enters at 85°C at the rate of 5.4 kg/s. Engine oil enters at 20°C and leaves at 60°C. The water leaves the heat exchanger at 57°C. What is the mass flow rate of the engine oil? Express your answer in kg/s.
10. In a double-pipe counterflow heat exchanger, water at the rate of 60 kg/min is heated from 65 oC to 95 oC by an oil having a specific heat of 0.36 J/kg oC. The oil enters the exchanger at 200 oC and leaves at 140 oC. Determine the heat exchanger area for an overall heat transfer coefficient of 50 J/m2. oC.hr given Cp of water as 1 J/kg oC?
In a heat exchanger, a fluid with a density of 2.5 m per hour and a specific heat of 0.727 kcal / kg ° C cools from 120 ° C to 40 ° C and heats 10 m per hour with an inlet temperature of 10 ° C. Since the total heat transfer coefficient is 1000 kcal / m h ° C, (Psu-1000 kg / m²; Cpsu = 1 kcal / kg ° C) a) Parallel flow case, b) Counter flow case, calculate the surface area of the pipe.
Hot exhaust gases of a stationary diesel engine are to be used to generate steam in an evaporator. Exhaust gases (cp = 1051 J/kg·K) enter the heat exchanger at 550°C at a rate of 0.25 kg/s while water enters as saturated liquid and evaporates at 200°C (hfg = 1941 kJ/kg). The heat transfer surface area of the heat exchanger based on water side is 0.5 m2 and overall heat transfer coefficient is 1780 W/m2·K. Determine the rate of heat transfer, the exit temperature of exhaust gases, and the rate of evaporation of water.
Forced air flows over a convective heat exchanger in a room heater resulting in an average convective heat transfer coefficient, h=# # # W/ (m? degree C). The surface temperature of the heat exchanger may be considered constant at 75 degree C, the air being at 25 degree C. Determine the heat exchanger surface area required for MJ/h of heating, 2
2. In a counterflow double-pipe heat exchanger, the hot fluid enters at 149°C and exits at 76°C. The cold fluid enters at 33°C and exits at 87°C. What is the heat exchanger effectiveness? Express your answer as a decimal value.
A single-pass cross-flow heat exchanger is used to cool jacket water (cp = 1.0 Btu/lbm·°F) of a diesel engine from 190°F to 140°F, using air (cp = 0.245 Btu/lbm·°F) with inlet temperature of 90°F. Both air flow and water flow are unmixed. If the water and air mass flow rates are 92,000 lbm/h and 400,000 lbm/h, respectively, determine the log mean temperature difference for this heat exchanger.
A stream of hydrocarbon (cp = 2.2 kJ/kg·K) is cooled at a rate of 720 kg/h from 150°C to 45°C in the tube side of a double-pipe counter-flow heat exchanger. Water (cp = 4.18 kJ/kg·K) enters the heat exchanger at 10°C at a rate of 540 kg/h. The outside diameter of the inner tube is 2.5 cm, and its length is 6.0 m. Calculate the overall heat transfer coefficient. (Round the answer to two decimal places.) The overall heat transfer coefficient is _____ kW/m2·K.
Hot oil, which enter a cross-flow heat exchanger at 200 C and leave at 100 C, are used to heat water at a flow rate of 1.5 kg/s from 30 to 120 C. The overall heat transfer coefficient based on the water-side surface area is U = 220 W/m2 . K. Determine : a) the required water surface area Ac using the NTU method(let effectiveness €=0.65). b) Ac when we change the water outlet temperature to 130Cc) discuss the effect of changing the water outlet temperature to Ac? d)draw the temperature profile along the heat exchanger