Answered: Calculate the heat transfer per hour…

Engineering

Mechanical Engineering

Calculate the heat transfer per hour through a solid brick wall

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.

Chapter1: Basic Modes Of Heat Transfer

Section: Chapter Questions

Problem 1.1P: 1.1 On a cold winter day, the outer surface of a 0.2-m-thick concrete wall of a warehouse is exposed...

See similar textbooks

Related questions

Q: Consider a machine surface that is made of a 5-mm thick alu- minum with a thermal conductivity of…

Q: The inside surface of an insulation layer is maintained at 350oC and the outside surface dissipates…

A: Given that, Temperature at inside surface, Tb=350 °C,Temperature at outside surface, Ts=225 °C,Wall…

Q: der an alloy of two metals whose thermal conductivities are ki and Will the thermal conductivity of…

A: Thermal conductivity of the alloy is less than thermal conductivity of two metals. Let, thermal…

Q: A steam turbine casing is made of a 6mm thick steel plate. At one location it has an inside surface…

A: Given data: The thickness of steel, LS = 6 mm. Inside surface temperature, Ti = 100°C. Ambient…

Q: Consider a short cylinder of 10.0cm diameter and 5.0cm length with a thermal conductivity of k = 10…

A: Diameter = 10 cm = 0.1 m Length = 5 cm = 0.05 m k = 20 W/m.K h = 20 W/m2K Rate of heat generation =…

Q: 20-m pipe has an outside diameter of 50 mm. Pipe is insulated with a layer of asbestos, then…

Q: 40-W power transistor is to be cooled by attaching it to one of the commercially available heat…

Q: A wood slab with a thickness of 0.05 m is subjected to a heat flux of 40 W/m4. The left and right…

Q: An isolating wall (made up of 2-10mm thick plywood with 5mm woven silica sheet in between) encloses…

A: Given:Thickness of 1st plywood, t1=2 mmThickness of the silica sheet, t=5 mmThickness of 2nd…

Q: A very long 25mm diameter copper k=380W/m.K, rod extends from a surface at 120°C. The temperature of…

A: Given, diameter of the copper rod, d=25mm=0.025m Thermal conductivity of copper, k=380W/m.K…

Q: A large concrete wall is 300 mm thick and has a thermal conductivity of 1.2 W/m C. The heat flux…

Q: Find out more about the construction of the walls of the cabins of large aircraft commercial, the…

Q: The inside surface of an insulation layer is maintained at 350oC and the outside surface dissipates…

Q: A dormitory at a large university, built 50 years ago, has exterior walls constructed of L, =…

Q: The wall of an industrial furnace, a 0.15 m thick chamotte with a heat conduction coefficient of 1.7…

A: Wall thichness ∆x= 0.15 m Heat conduction coefficient k = 1.7 W / mK ∆T =1400-1150 = 250 K A =…

Q: Sheets os aluminum and steel, each 10 mm thick, are placed in contact. What is the temperature of…

A: Given Data T1=212°C T2=56°C Ratio of thermal conductivity of Aluminium and steel is 5

Q: Plate glass 5 mm thick at200°C is to be cooled fromb bothsides using air at 40°C. Ifs surfacecracks…

Q: A 0.15 m diameter long cylinder is made from a material that can generate heat at the rate of 10…

Q: r surface of the wall is at 1100◦C, and the room temperature is 25◦C. The heat-transfer coefficient…

A: given:

Q: 12- A furnace wall is comprised of a 200-mm thick fire clay wall with an average thermal…

A: Given Data⇒ Thickness of wall(t)=200 mm=0.2 m Average thermal conductivity(k)=0.26Wm-k Inside wall…

Q: calculate the heat transfer rate per unit length of a cylindrical wall of inner and outer radius as…

A: It is given in the data that inner radius is r1=0.1 m and outer radius is r2=0.2 m. Thermal…

Q: The thermal conductivity coefficient of a 0.2 m thick concrete wall is known as 1.2W / (mK). Since…

Q: A small stainless-steel rod 7 mm in diameter was heated so it is at 300 °C. It is quenched in a bath…

A: given data d= 7mm Ts = 300°c h= 30 w/m2 k to find time t

Q: One end of a 40 cm metal rod 2.0 cm2 in cross section is in a steam bath while the other end is…

Q: Example 1 A 15 mm diameter and 5 m long electric wire is tightly wrapped with 2 mm thick plastic…

Q: Consider 469 mm × 447 mm window in an aircraft. For a temperature difference of 98°C from the inner…

Q: 1- The rear window of an automobile is defogged by passing warm air over its inner surface with (k =…

A: Given DataT∞i=40T∞o=-10hi=30W/m2Kho=65W/m2Kk=1.4W/m.KL=4mm=0.004m

Q: An isolating wall (made up of 2-10mm thick plywood with 5mm woven silica sheet in between) encloses…

A: Heat transfer Heat transfer is the process in which heat is transfer from hot body to cold body or…

Q: Consider a machine surface that is made of a 5-mm thick alu- minum with a thermal conductivity of…

Q: A hot plate 1.2m wide, 0.35m high and at 1 is · Calculate the following Local heat transfer…

A: Given Wide = 1.2 m Height = 0.35 m To find Local heat transfer coefficient Average heat transfer…

Q: processing plant is convectively heating a solid half-sphere of radius of 12 cm made of pure…

Q: A long solid rod of 20 mm diameter was inserted into a furnace while the other end was projecting…

Q: A large concrete wall is 300 mm thick and has a thermal conductivity of 1.2 W/m C. The heat flux…

Q: Consider a machine surface that is made of a 5-mm thick alu- minum with a thermal conductivity of…

Q: How can you find the thermal conductivity of a metal bar in experimentally?

A: Hi and thanks for the question. Since you have asked multiple questions, we will solve the first…

Q: A wall 2 cm thick is to be constructed from material that has an average thermal conductivity of 1.3…

Q: A composite wall consisting of four different materials is shown in Figure 2. Determine the heat…

A: The temperature at one end of the composite wall is, T1=200°C Thermal conductivity of material A is,…

Q: Consider a machine surface that is made of a 5-mm thick alu- minum with a thermal conducdvity of 237…

Q: 2.5 cm-thick sheet of plastic initially at 21°C is placed between two heated steel plates that are…

Q: It is designed in such a way that the internal temperature of a commercial heat treatment furnace…

Q: Example 1: The resistance wire of a 1000- W iron is 15 in. Long and has a diameter of D= 0.08 in.…

Q: A dormitory at a large university, built 50 years ago, has exterior walls constructed of L, =…

Q: One side of refrigerated cold chamber is 6 m long by 3.7 m high and consists of 168 mm thickness of…

Q: In determining the thermal conductivity of a plate flat insulator, the temperature was measured on…

A: “Since you have asked multiple question, we will solve the first question for you. If you want any…

Q: The inner surface of a plane brick wall is at 60°C and the outer surface is at 35°C. Calculate the…

A: Data given - Ti = 60° C To = 35°C ∆x= 220 mm = 0.22 m K = 0.51 W/m°C.

Q: The rear window of an automobile is defogged by passing warm air over its inner surface. If the warm…

A: Find the surface temperature of the glass window.

Q: Tin 100 mm 50 mm 100 mm T out Figure 3 illustrates a compound wall constructed of an inner and outer…

A: To find : The rate of heat transfer through the wall per unit area . Given : Thermal conductivity of…

Q: A researcher tries to apply a 5mm thick cure-on epoxy insulation to an internally-heated spherical…

A: Write the given data with suitable variables. Q=1800 W/m2Ts=200 °C=200+273 K=473 Khair=40 W/m2K

Question

100%

Calculate the heat transfer per hour through a solid brick wall 6 m long, 2.9 m high, and 225 mm thick, when the outer surface is at 5°C and the inner surface 17°C, the coefficient of thermal conductivity of the brick being 0.6 W/m-K. Badly needed asap. I will rate helpful. Thank you in advance.

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

VIEW

Step 2

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps

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

Both ends of a 0.6-cm copper U-shaped rod are rigidly affixed to a vertical wall as shown in the accompanying sketch. The temperature of the wall is maintained at 93C. The developed length of the rod is 0.6 m, and it is exposed to air at 38C. The combined radiation and convection heat transfer coefficient for this system is 34W/m2K. (a) Calculate the temperature of the midpoint of the rod. (b) What will the rate of heat transfer from the rod be?
1.63 Liquid oxygen (LOX) for the space shuttle is stored at 90 K prior to launch in a spherical container 4 m in diameter. To reduce the loss of oxygen, the sphere is insulated with superinsulation developed at the U.S. National Institute of Standards and Technology's Cryogenic Division; the superinsulation has an effective thermal conductivity of 0.00012 W/m K. If the outside temperature is on the average and the LOX has a heat of vaporization of 213 J/g, calculate the thickness of insulation required to keep the LOX evaporation rate below 200 g/h.
The handle of a ladle used for pouring molten lead is 30 cm long. Originally the handle was made of 1.9cm1.25cm mild steel bar stock. To reduce the grip temperature, it is proposed to form the handle of tubing 0.15 cm thick to the same rectangular shape. If the average heat transfer coefficient over the handle surface is 14 W/m K, estimate the reduction of the temperature at the grip in air at 21C.
A section of a composite wall with the dimensions shown below has uniform temperatures of 200C and 50C over the left and right surfaces, respectively. If the thermal conductivities of the wall materials are: kA=70W/mK,kB=60W/mK, kC=40W/mK, and kD=20W/mK, determine the rate of heat transfer through this section of the wall and the temperatures at the interfaces.
3.38 An egg, which for the purposes of this problem is assumed to be a 5-cm-diameter sphere having the thermal properties of water, is initially at a temperature of . It is immersed in boiling water at for 15 min. The heat transfer coefficient from the water to the egg is assumed to be . What is the temperature of the egg center at the end of the cooking period?
2.43 A turbine blade 6.3 cm long, with cross-sectional area and perimeter , is made of stainless steel . The temperature of the root, , is . The blade is exposed to a hot gas at , and the heat transfer coefficient is K. Determine the temperature of the blade tip and the rate of heat flow at the root of the blade. Assume that the tip is insulated.
1.4 To measure thermal conductivity, two similar 1-cm-thick specimens are placed in the apparatus shown in the accompanying sketch. Electric current is supplied to the guard heater, and a wattmeter shows that the power dissipation is 10 W. Thermocouples attached to the warmer and to the cooler surfaces show temperatures of 322 and 300 K, respectively. Calculate the thermal conductivity of the material at the mean temperature in W/m K. Problem 1.4
1.1 On a cold winter day, the outer surface of a 0.2-m-thick concrete wall of a warehouse is exposed to temperature of –5°C, while the inner surface is kept at 20°C. The thermal conductivity of the concrete is 1.2 W/m K. Determine the heat loss through the wall, which is 10-m long and 3-m high. Problem 1.1
2.29 In a cylindrical fuel rod of a nuclear reactor, heat is generated internally according to the equation where = local rate of heat generation per unit volume at r = outside radius = rate of heat generation per unit volume at the centerline Calculate the temperature drop from the centerline to the surface for a 2.5-cm-diameter rod having a thermal conductivity of if the rate of heat removal from its surface is 1.6 .
A hollow sphere with inner and outer radii of R1 and R2, respectively, is covered with a layer of insulation having an outer radius of R3. Derive an expression for the rate of heat transfer through the insulated sphere in terms of the radii, the thermal conductivities, the heat transfer coefficients, and the temperatures of the interior and the surrounding medium of the sphere.
1.51 The inner wall of a rocket motor combustion chamber receives by radiation from a gas at . The convection heat transfer coefficient between the gas and the wall is . If the inner wall of the combustion chamber is at Problem 1.51 a temperature of , determine (a) the total thermal resistance of a unit area of the wall in and (b) the heat flux. Also draw the thermal circuit.
A section of a composite wall with the dimensions shown below has uniform temperatures of 200C and 50C over the left and right surfaces, respectively. If the thermal conductivities of the wall materials are: kA=70W/mK,kB=60W/mK, kC=40W/mK, and kP=20W/mK, determine the rate of heat transfer through this section of the wall and the temperatures at the interfaces. Repeat Problem 1.34, including a contact resistance of 0.1 K/W at each of the interfaces.