出版時(shí)間:2011-9 出版社:機(jī)械工業(yè)出版社 作者:J.P.霍爾曼 頁(yè)數(shù):522
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內(nèi)容概要
《傳熱學(xué)(英文版·原書(shū)第10版)》是當(dāng)今最流行的傳熱學(xué)入門教材之一,以簡(jiǎn)潔明了、容易入門以及包含有大量例題與習(xí)題而著稱。
《傳熱學(xué)(英文版·原書(shū)第10版)》寫(xiě)作深入淺出,圖文并茂,生動(dòng)活潑,趣味性強(qiáng),突出了以讀者為主的寫(xiě)作思想。
《傳熱學(xué)(英文版·原書(shū)第10版)》體系完整,內(nèi)容全面,包含了傳熱學(xué)學(xué)習(xí)中熱傳導(dǎo)、熱對(duì)流、熱輻射和換熱器等各個(gè)重要方面。
通過(guò)百余道無(wú)固定答案的設(shè)計(jì)習(xí)題來(lái)強(qiáng)化設(shè)計(jì)訓(xùn)練。
作者簡(jiǎn)介
作者:(美國(guó))J.P.霍爾曼 (J.P.Holman)
書(shū)籍目錄
出版說(shuō)明iv
序v
guide to worked examplesxi
prefacexv
about the authorxviii
list of symbolsxix
chapter 1 introduction
1.1conduction heat transfer
1.2thermal conductivity
1.3convection heat transfer
1.4radiation heat transfer
1.5summary
review questions
problems
references
chapter 2 steady.state conduction—one dimension
2.1introduction
2.2the plane wall
2.3insulation and r values
2.4radial systems
2.5the overall heat.transfer coefficient
2.6critical thickness of insulation
2.7heat.source systems
2.8cylinder with heat sources
2.9conduction.convection systems
2.10fins
2.11thermal contact resistance
review questions
list of worked examples
problems
references
chapter 3 steady.state conduction—multiple dimensions
3.1introduction
3.2mathematical analysis of two.dimensional heat conduction
3.3the conduction shape factor
3.4numerical method of analysis
3.5gauss.seidel iteration
3.6accuracy considerations
3.7summary
review questions
list of worked examples
problems
references
chapter 4 unsteady.state conduction
4.1introduction
4.2lumped.heat.capacity system
4.3transient heat flow in a semi.infinite solid
4.4convection boundary conditions
4.5multidimensional systems
4.6summary
review questions
list of worked examples
problems
references
chapter 5 principles of convection
5.1introduction
5.2viscous flow
5.3inviscid flow
5.4laminar boundary layer on a flat plate
5.5energy equation of the boundary layer
5.6the thermal boundary layer
5.7the relation between fluid friction and heat transfer
5.8turbulent.boundary.layer heat transfer
5.9turbulent.boundary.layer thickness
5.10heat transfer in laminar tube flow
5.11turbulent flow in a tube
5.12summary
review questions
list of worked examples
problems
references
chapter 6 empirical and practical relations for forced.convection
heat transfer
6.1introduction
6.2empirical relations for pipe and tube flow
6.3flow across cylinders and spheres
6.4flow across tube banks
6.5summary
review questions
list of worked examples
problems
references
chapter 7 natural convection systems
7.1introduction
7.2free.convection heat transfer on a vertical flat plate
7.3empirical relations for free convection
7.4free convection from vertical planes and cylinders
7.5free convection from horizontal cylinders
7.6free convection from horizontal plates
7.7free convection from inclined surfaces
7.8nonnewtonian fluids
7.9simplified equations for air
7.10free convection from spheres
7.11free convection in enclosed spaces
7.12summary
7.13summary procedure for all
convection problems
review questions
list of worked examples
problems
references
chapter 8 radiation heat transfer
8.1introduction
8.2physical mechanism
8.3radiation properties
8.4radiation shape factor
8.5relations between shape factors
8.6heat exchange between nonblackbodies
8.7infinite parallel surfaces
8.8radiation shields
8.9gas radiation
8.10radiation network for an absorbing and transmitting
medium
8.11radiation exchange with specular surfaces
8.12formulation for numerical solution
8.13solar radiation
8.14radiation properties of the environment
8.15effect of radiation on temperature measurement
8.16the radiation heat.transfer coefficient
8.17summary
review questions
list of worked examples
problems
references
chapter 9 condensation and boiling heat transfer
9.1introduction
9.2condensation heat.transfer phenomena
9.3the condensation number
9.4film condensation inside horizontal tubes
9.5boiling heat transfer
9.6simplified relations for boiling heat transfer with water
9.7the heat pipe
review questions
list of worked examples
problems
references
chapter 10 heat exchangers
10.1introduction
10.2the overall heat.transfer coefficient
10.3fouling factors
10.4types of heat exchangers
10.5the log mean temperature difference
10.6effectiveness.ntu method
10.7compact heat exchangers
10.8heat.exchanger design considerations
review questions
list of worked examples
problems
references
appendix a
tables
a.1the error function
a.2property values for metals
a.3properties of nonmetals
a.4properties of saturated liquids
a.5properties of air at atmospheric pressure
a.6properties of gases at atmospheric
pressure
a.7physical properties of some common low.melting.point
metals
a.8diffusion coefficients of gases and vapors
in air at 25℃ and 1 atm
a.9properties of water (saturated liquid)
a.10normal total emissivity of various surfaces
a.11steel.pipe dimensions
a.12conversion factors
章節(jié)摘錄
版權(quán)頁(yè):插圖:A particular material may exhibit entirely different absorptance and transmittance properties for the two types of radiation. The classic example of this behavjor is a greenhouse. Ordi- nary glass transmits radiation very readily at wavelengths below 2 /u,m; thus it transmits the large part of solar radiation incident upon it. This glass, however, is essentially opaque to long-wavelength radiation above 3 or 4 ru,m. Practically all the low-temperature radiation emitted by objects in the greenhouse is of such a long-wavelength character that it remains trapped in the greenhouse. Thus the glass allows much more radiation to come in than can escape, thereby producing the familiar heating effect. The solar radiation absorbed by objects in the greenhouse must eventually be dissipated to the surroundings by convection from the outside walls of the greenhouse.
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