Concept explainers
Consider an opaque horizontal plate that is well insulated on its back side. The irradiation on the plate is
The value of emissivity, absorptivity and the radiosity of the plate.
The value of the net heat transfer rate per unit area.
Answer to Problem 12.1P
The value of emissivity is,
The value of absorptivity is,
The value of radiosity is,
The value of the net heat transfer rate per unit area is,
Explanation of Solution
Given:
The irradiation on the plate is,
The reflected irradiation is,
The emissive power of any surface,
The temperature of the plate,
The temperature of the air over the plate
Calculation:
The energy balance equation as per the incident radiation on a surface is,
Where,
For an opaque surface transmissivity,
Now the equation (1) become as,
The emissive power of a black surface,
Where,
The Stefan Boltzmann constant,
Emissivity
Mathematically,
Reflectivity
Mathematically,
Absorptivity
From equation (2), absorptivity will be calculated as,
Radiosity
The net heat transfer rate per unit area is calculated as:
Therefore, the value of the net heat transfer rate per unit area is,
Want to see more full solutions like this?
Chapter 12 Solutions
Fundamentals of Heat and Mass Transfer
Additional Engineering Textbook Solutions
Starting Out with Python (4th Edition)
Java How to Program, Early Objects (11th Edition) (Deitel: How to Program)
Starting Out with C++ from Control Structures to Objects (9th Edition)
Automotive Technology: Principles, Diagnosis, And Service (6th Edition) (halderman Automotive Series)
Starting Out with Java: From Control Structures through Objects (7th Edition) (What's New in Computer Science)
Java: An Introduction to Problem Solving and Programming (8th Edition)
- 11.31 A large slab of steel 0.1 m thick contains a 0.1 -m-di- ameter circular hole whose axis is normal to the surface. Considering the sides of the hole to be black, specify the rate of radiative heat loss from the hole. The plate is at 811 K, and the surroundings are at 300 K.arrow_forwardDetermine the total average hemispherical emissivity and the emissive power of a surface that has a spectral hemispherical emissivity of 0.8 at wavelengths less than 1.5m, 0.6 at wavelengths from 1.5to2.5m, and 0.4 at wavelengths longer than 2.5m. The surface temperature is 1111 K.arrow_forwardTwo large parallel plates with surface conditions approximating those of a blackbody are maintained at 816C and 260C, respectively. Determine the rate of heat transfer by radiation between the plates in W/m2 and the radiative heat transfer coefficient in W/m2K.arrow_forward
- Determine the rate of radiant heat emission in watts per square meter from a blackbody at (a) 15C, (b) 600C, and (c) 5700C.arrow_forward11.68 Two infinitely large, black, plane surfaces are 0.3 m apart, and the space between them is filled by an isothermal gas mixture at 811 K and atmospheric pressure. The gas mixture consists of by volume. If one of the surfaces is maintained at 278 K and the other at 1390 K, calculate (a) the effective emissivity of the gas at its temperature, (b) the effective absorptivity of the gas to radiation from the 1390 K surface, (c) the effective absorptivity of the gas to radiation from the 278 K surface, and (d) the net rate of heat transfer to the gas per square meter of surface area.arrow_forward1.26 Repeat Problem 1.25 but assume that the surface of the storage vessel has an absorbance (equal to the emittance) of 0.1. Then determine the rate of evaporation of the liquid oxygen in kilograms per second and pounds per hour, assuming that convection can be neglected. The heat of vaporization of oxygen at –183°C is .arrow_forward
- Please submit answer ,Previous one was wrong. Very urgentarrow_forwardA furnace has the shape of a cylinder and has R = H = 2m as its dimensions. The temperatures on the base, top, and side surfaces of the furnace are kept constant at 500, 700, and 1200 K accordingly. All three surfaces are black. Determine the net rate of radiation heat transfer from or to the top surface when the system is operating at a steady state.arrow_forwardes Check my work Required information Irradiation on a semi-transparent medium is at a rate of 610 W/m2. If 160 W/m2 of the irradiation is reflected from the medium and 130 W/m2 is transmitted through the medium, Determine the absorptivity of the medium. The absorptivity of the medium is.arrow_forward
- Two parallel plates (1mx0.5m) are maintained at uniform temperatures of T₁ = 1000K and T₂ = 500K and have emissivities of &, = 0.2 and ₂ = 0.5 respectively. Determine the net rate of radiation heat transfer between the two surfaces of the plates. F12=0.285 and o=5.669×10 W/m²K.arrow_forwardA horizontal opaque flat plate is well insulated on the edges and the lower surface. The top surface has an area of 5 m2, and it experiences uniform irradiation at a rate of 5000 W. The plate absorbs 4000 W of the irradiation, and the surface is losing heat at a rate of 500 W by convection. If the plate maintains a uniform temperature of 350 K, determine the absorptivity, reflectivity, and emissivity of the plate.arrow_forwardA circular disk (ignore its thickness) of D = 1 m diameter is placed over a barbecue pit maintained at T₁ = T2 = 600 K. The upper surface of the disk is exposed to quiescent ambient air and surroundings at 300 K. The bottom surface and top surface of the disk has emissivities of εd.1 = 1.0 and d2 = 0.9, respectively. The bottom and cylindrical side surface of the barbecue pit have emissivities of 81 = 0.6 and ɛ2 = 1.0, respectively. Assume the disk and barbecue pit surfaces are diffuse and gray. A) Determine the net heat transfer rate to the cover, qnet,d, when Ta= 500 K. B) Plot qnet,d as a function of the disk temperature for 300 K < Ta< 600 K, using Excel or MATLAB. What is the steady-state temperature of the disk? g Quiescent Air Tsur T300 K Disk- -Ed.2 = 0.9 Ed,1 = 1.0 -T₂, ₂ = 1 T₁, ₁ = 0.6; L= 0.5 m D=1marrow_forward
- Principles of Heat Transfer (Activate Learning wi...Mechanical EngineeringISBN:9781305387102Author:Kreith, Frank; Manglik, Raj M.Publisher:Cengage Learning