Consider a water-to-water counterflow heat exchanger with these specifications. Hot water enters at 70°C while cold water enters at 20°C. The exit temperature of the hot water is 15°C greater than that of the cold water, and the mass flow rate of the hot water is 50 percent greater than that of the cold water. The product of heat transfer surface area and the overall heat transfer coefficient is 2200 W/K. Take the specific heat of both cold and hot water to be cp= 4180 J/kg.°C. NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. Cold water 20°C Hot water O °C Th. in Determine the mass flow rate of the cold water. The mass flow rate of the cold water is kg/s.

Consider a water-to-water counterflow heat exchanger with these specifications. Hot water enters at 70°C while cold water enters at 20°C. The exit temperature of the hot water is 15°C greater than that of the cold water, and the mass flow rate of the hot water is 50 percent greater than that of the cold water. The product of heat transfer surface area and the overall heat transfer coefficient is 2200 W/K. Take the specific heat of both cold and hot water to be cp= 4180 J/kg.°C. NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. Cold water 20°C Hot water O °C Th. in Determine the mass flow rate of the cold water. The mass flow rate of the cold water is kg/s.

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.

Chapter7: Forced Convection Inside Tubes And Ducts

Section: Chapter Questions

Problem 7.46P

See similar textbooks

Related questions

Q: 9.28 Determine the maximum allowable uniform heat flux that may be imposed at a wall heating panel 1…

Q: 3/1) During a brake test, the rear-engine car is stopped from an initial speed of 100 km/h in a…

Q: ᴀ ᴍᴀᴄʜɪɴᴇ ᴍᴇᴍʙᴇʀ ɪꜱ ʟᴏᴀᴅᴇᴅ ᴡɪᴛʜ ᴀ ʙɪᴀxɪᴀʟ ꜱᴛʀᴇꜱꜱᴇꜱ ᴏꜰ 60 ᴍᴘᴀ ᴀʟᴏɴɢ ᴛʜᴇ x-ᴀxɪꜱ, 20 ᴍᴘᴀ ᴀʟᴏɴɢ ᴛʜᴇ…

Q: For the truss loaded as shown, determine the equation for the line of action of the stand-alone…

Q: A) Determine the second moment of the shaded area on the right with respect to the y axis.

A: Let's first determine area and second moment of area about y axis of individual component For…

Q: A 1-in diameter cylinder 10 in long falls at 0.6 ft/s inside a tube of slightly larger diameter. A…

Q: Figure Txy 1 of 1 σx LI

A: Given system,

Q: Example 2-3: A harmonic displacement is x(t) = 10sin(30t-)mm, where t is in seconds and the phase…

A: “Since you have posted a question with multiple sub parts, we will provide the solution only to the…

Q: Assuming the dynamic model of a of a one-link robot arm is given as: 1 "1 ma²0+ mga sin 0 where m,…

A: Given model,

Q: Three blocks are connected by two cords, and are arranged as shown above. (The pulleys are…

A: Given: To find: Force P needed for block A to reach 16 ft/s in 2.5 seconds

Q: Consider steady-state conditions for one-dimensional conduction in a plane wall having a thermal…

Q: 13.38 A row of regularly spaced, cylindrical heating ele- ments is used to maintain an insulated…

A: Given: D = 10 mm S = 20 mm h = 200 W /m2K T1 = 500 K Te = ? T2 = 300 K T∞ = 450 K

Q: C1.3 If a = 120°, B = 45°, y = 60°, and F = 400 direction angles of the resultant force acting on…

Q: The piston rod of an air operated press has a length of 2500 mm, with its right-hand end pin…

Q: A plate has the shape of a circle with radius 5 m. The plate is submerged vertically in water so…

Q: For the process to be capable of meeting design specification the process capability index must be O…

A: option - a are correct . process to be capable of meeting design specification process capability…

Q: A cylinder of 0.40-ft radius rotates concentrically inside a fixed cylinder of 0.42-ft radius. Both…

Q: A pump supplies 7 kW to the water flowing at a rate of 4 x 10-2 m³/s. The water enters the pump at…

Q: Which of the following is FALSE on describing the characteristics of a trademark? O Trademarks are…

A: Option(3) are FALSE. Essential features of Trademark: *Trademark must be distinctive. *Trademark…

Q: What depth of fluid above the outlet nozzle is required to deliver 200 gal/min of water from the…

A: Given,Volume flow rate = 200gal/min 1 gallon/min = 0.00378541m3/60sec =…

Q: List engineering applications of Partial Differential Equations.

A: A partial derivative of any function represents its rate of change when more than one variable is…

Q: Consider a vertical 3-m-diameter cylindrical furnace whose surfaces closely approximate black…

Q: A ship is sailing north at a speed of 12 knots. Knowing that the speed of the tide is 5 knots and…

A: Given data:- Speed of ship=12 knots.(north) The speed of the tide=5 knots (west) To find:- the…

Q: 9m 12 kN/m | с 15 kN/m 10 m D B + -5 m E 6 m

Q: The engineering stress-strain curve below was obtained for a precipitation hardened Aluminum alloy.…

A: Given:

Q: b. A particle moves along a straight line with the (v-t) graph as shown. Displacement, s = 0 m, when…

Q: You have been asked to design an experiment to measure the speed of a fired bullet as part of your…

Q: Gasoline (sg0.67) is flowing at 0.11 m³/s in the fabri- cated tube shown in Fig. 6.19. If the…

A: Given:Outer diameter of the larger pipe, D=160 mmThickness of the larger pipe, t1=5.5 mmOuter…

Q: A 1.28 Mg MINI accelerates at 6 m/s² starting from rest. If the drag resistance on the MINI due to…

A: given Mass of the car is m=1.28 Mg = 1280 kg Acceleration of the car a=6 ms2 Drag force Fd = 10*v N…

Q: A cube of material with edge lengths d and specific weight 2y is suspended by a cable and submerged…

A: for solution refer below images.

Q: 19. Find the loss of head in the pipe entrance if speed of flow is 10 m/s. OA. 5.10 m OB. 10.2 m O…

Q: Required information A Diesel cycle has a compression ratio of 22 and begins its compression at 87…

Q: Calculate the pressure of the air in the sealed tank shown in Fig. 6.25 that would cause the…

Q: A water cooling system takes cold air to cool water from 82°C to 72°C. The mass flow rate and…

Q: What are the best dimensions for a rectangular brick channel (n = 0.015) designed to carry 5 m³/s of…

A: Given data as per the question Flow rate=5 m3sn=0.015S0=0.001

Q: What is the cooling curve for both metals and plastics?

A: Cooling Curve: A cooling curve is a line graph that represents the change of phase of matter,…

Q: Estimate the power of the Complexe Desjardins fountain: the jet rises to about 20m and the pipe has…

Q: T du dy Liquid A Liquid B

Q: Find the volume flow rate of water exiting from the tank shown in Fig. 7.12. The tank is sealed with…

Q: Q1/A curved link mechanism made from a round steel bar 1 KN is shown in Fig. below, The material for…

A: Introduction We shall compute the factor of safety in this case by determining the maximum stress on…

Q: An experimental device imparts a force of magnitude F-34 lb to the front edge of the rim at A to…

Q: Solar collector 2 W₁ RAD 3 Turbine 4 Condenser Q

Q: Steel is carburized in a high-temperature process that depends on the transfer of carbon by…

A: Given data: Dc-s=2*10-5*e-17000T m2/sT=1000°Ccarbon mole fraction=0.02carbon content of the steel…

Q: 2) A pump is being used to transport apple juice from an open tank to a second tank as shown below.…

A: Given:Mass flow rate of apple juice, m˙juice=1 kg/sInside diameter of suction pipe, d1=4 cm=0.04…

Q: A 50-cm x 50-cm circuit board that contains 121 square chips on one side is to be cooled by combined…

Q: The guy wires AB and AC are attached to the top of the transmission tower. The tension in cable AB…

Q: A small circuit board is fitted with a heat sink of a base of 4-cmx4-cm. The heat sink contains 20…

Q: 3. Find the moment of inertia for the x and y axes.

Q: be developed in this member due to a uniform live load of 3 kN/m that acts on the bridge deck along…

Q: a) The velocity component of an incompressible and 2-dimensional flow is given by Determine u = -x +…

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

100%

Thank You! I have a follow up question and was wondering if you could answer it. It is shown below:

Required information
Consider a water-to-water counterflow heat exchanger with these specifications. Hot water enters at 70°C while cold
water enters at 20°C. The exit temperature of the hot water is 15°C greater than that of the cold water, and the mass flow
rate of the hot water is 50 percent greater than that of the cold water. The product of heat transfer surface area and the
overall heat transfer coefficient is 2200 W/K. Take the specific heat of both cold and hot water to be cp= 4180 J/kg.°C.
NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part.
Cold water
20°C
Hot water
O
Th, in
Determine the mass flow rate of the cold water.
The mass flow rate of the cold water is
kg/s.

Expert Solution

This question has been solved!

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

SEE SOLUTION Check out a sample Q&A here

Step 1

Step 2

Step 3

Step 4

Step by step

Solved in 4 steps with 4 images

SEE SOLUTION Check out a sample Q&A here

Follow-up Questions

Read through expert solutions to related follow-up questions below.

Follow-up Question

Thank you so much! I have one last follow up question. It is about heat transfer rate. Can you answer it too? It is shown in the screenshot:

Solution

by Bartleby Expert

SEE SOLUTION

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

A counterflow heat exchanger is employed to cool 0.55 kg/s (CP = 2.45 kJ/kg-K) of oil from 115°C to 40°C by the use of water. The inlet and outlet temperatures of cooling water are 15°C and 75°C, respectively. The overall heat transfer coefficient is expected to be 1450 W/m2-°C. Using the NTU method, calculate the following:a. The mass flow rate of water.b. The effectiveness of the heat exchanger c.Surface area required
Why does a “mixed” or “unmixed” fluid arrangement influence heat-exchanger performance?
A Counter-flow heat exchanger (water-to-water) with these specifications. Hot water enters at 95 oC while cold water enters at 20 oC. The exit temperature of hot water is 15 oC greater than that of cold water, and the mass flow rate of hot water is 50 percent greater than that of cold water. The product of heat transfer surface area and the overall heat transfer coefficient is 1400 W/K. Taking the specific heat of both cold and hot water to be Cp = 4180 J/kg.K, Calculate: (a) The outlet temperature of the cold water, (b) LMTD (c) The effectiveness of the heat exchanger, (d) The mass flow rate of the cold water, (e) The heat transfer rate.
2-b Hot exhaust gases, which enter a finned-tube, cross-flow heat exchanger at 300 °C and leave at 100 °C. are used to heat pressurized water at a flow rate of 1 kg/s from 35 °C to 125 °C. The specific heat of water at the average water temperature is 4197 J/kg. K. The overall heat transfers coefficient based on the gas-side surface area is Un = 100 W/m².K. Determine the required gas-side surface area A, using the LMTD and E-NTU method.
What is application of parallel flow heat exchanger? and counter flow heat exchanger?
In a heat exchanger, water flows through a long copper tube (inside diameter 2.2 cm) with an average velocity of 2.13 m/s. The water is heated by steam condensing at 150oC on the outside of the tube. Water enters at 15o C and leaves at 60o C. What is the heat transfer coefficient, h, for the water?
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.
Consider a water-to-water counter-flow heat exchanger with thesespecifications. Hot water enters at 95oC while cold water enters at 20oC. Theexit temperature of hot water is 15oC greater than that of cold water, and themass flow rate of hot water is 50 percent greater than that of cold water.The product of heat transfer surface area and the overall heat transfercoefficient is 1400 W/m2 · oC. Taking the specific heat of both cold andhot water to be Cp=4180 J/kg · oC, determine (a) the outlet temperature of the cold water (b) the effectiveness of the heat exchanger (c) the mass flow rate of the cold water, and (d) the heat transfer rate.
A double-pipe counter-flow heat exchanger isto cool eth ylene glycol (Cp = 2560 J/kg-°C) flowing at a rate of 3.5 kg/s from 80°C to 40°C by water (Cp = 4180 J/kg-°C) that enters at 20°C and leaves at 55°C. The overall heat transfer coefficient based on the inner surface area ofthetubeis 250 W/m2°C. Determine theheat transfer surface area on the inner side ofthetube. m2
A cross-flow heat exchanger is used to transfer heat from a stream of saturated water at 100 °C to a stream of air entering at 40 °C. The UA value of the heat exchanger is 5000 W/K. Develop an equation for the outlet temperature of the air as a function of the mass flow rate of air through the heat exchanger. Plot the outlet air temperature vs. mass flow rate of air from 0.5 kg/s to 20 kg/s.
A heat exchanger is being used to transfer heat between water and a benzene. The benzene enters the heat exchanger at 1.2 m3/h with a temperature of 90 C. The water enters the heat exchanger at 1 m3/h at a temperature of 15°C. The UA product of the heat exchanger is found to be 2800 kJ/h-°K. . Determine (a) the outlet temperature of water and benzene (b) the heat transfer rate between the fluids for a counter-flow heat exchanger.
Exhaust gases flowing through a tubular heat exchanger at the rate of 0.3 kgs-1 are cooled from400⁰C to 120 ⁰C by water initially at 10⁰C. The specific heat of exhaust gases and water may betaken as 1.13 and 4.19 kJkg-1K-1 respectively, and the overall heat transfer coefficient from gasesto water is 140 Wm-2K-1. Calculate the surface area required when the cooling flow is 0.4 kgs-1 forboth a co-flow and counter flow heat exchanger.