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内容简介对流换热及其强化的理论与实验研究最新进展 本书内容包括:强化传热、传质原理与方法的实验与数值研究、多孔介质中的传热传质规律研究、微细结构中流动与换热基本规律研究、脉管制冷机中的传输机理研究等。
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% D% n# A& y9 |% |1 {http://www.readbuy.cn/product/image/bg_point1.gif 作者简介对流换热及其强化的理论与实验研究最新进展作者姓名:陶文铨
% q3 {- B, \% t% n! L相关作品:《传热与流动问题的多尺度数值模拟:方法与应用》《数值传热学》《工程热力学》《计算传热学的近代进展》《对流换热及其强化的理论与实验研究最新进展》《传热学》《传热学》# g$ h2 W: M- C: p' l; f% f7 [0 |
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作者姓名:何雅玲. |0 J) t; @; b( e
相关作品:《工程热力学精要分析典型题解》《格子Boltzmann方法的理论及应用》《工程热力学常见题型解析及模拟题》《对流换热及其强化的理论与实验研究最新进展》《工程热力学精要分析及典型题精解》+ j# H8 U( u, K4 Q: Y8 {. {* Q
作者简介:何雅玲,女,1963年9月生,博士,教授,博士生导师,获政府特殊津贴的专家,长江学者奖励计划特聘教授,国家杰出青年科学基金获得者及全国百篇优秀博士论文获得者,第二届国家教学名师奖获得者,被人事部、科技部等七部委联合确定为新世纪百千万人才工程国家级人才,获国家人事部、教育部授予的全国模范教师称号,教育部新世纪优秀人才,全国优秀教师宝钢特等奖获得者,国家首届优秀教学团队负责人,国家级精品课程“工程热力学”负责人。
7 ]1 R- V! O0 Q( J+ j/ ~* Z6 i; w现兼任:国际制冷学会热力学与传热过程委员会副主席,教育部高等学校热工基础课程教学指导委员会副主任委员,中国工程热物理学会理事及工程热力学分科学会副主任,真空低温技术与物理国防科技国家重点实验室学术委员会委员等多个学术委员会的委员或理事。国际期刊《Applied Thermal Engineering》地区副主编,《科学通报》、《西安交通大学学报》等多个学术期刊编委。国家科学技术奖评审专家,国际科技合作计划项目评价专家,国家863计划评审专家。
$ }# u; E# p* q& b. l成果:多年来一直从事能源与动力工程领域的前沿研究。主持多项国家重点基础研究(973),国家重点科技攻关,国家自然科学基金重点与面上项目,国家863,教育部重大科技项目,国防武器预研项目,中美、中日国际合作等科研项目30余项。获科研、教学成果奖30余项,其中,国家自然科学二等奖1项,教育部科技进步一等奖、教育部自然科学二等奖各1项,省科技进步一等奖1项;国家级优秀教学成果一等奖1项,二等奖2项,省优秀教学成果特等奖2项,一等奖2项。出版著作、教材9部(含合作)。发表研究论文330余篇,国际期刊100余篇,国际会议80余篇。获发明专利授权10项,实用新型专利5项,获软件著作权13项。
1 n) @" E% i9 s k 主要研究方向:能源的高效利用与节能理论与新方法研究,新能源利用(燃料电池,太阳能),电子器件冷却技术,流动与传热过程的数值原理及其应用,高技术中热机和制冷机的新循环及其热工理论。" L/ B( g9 \# E0 j
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http://www.readbuy.cn/product/image/bg_point1.gif 目录对流换热及其强化的理论与实验研究最新进展Progress on researches for physical laws of natural convection heat transfer in past decade
; m7 ^* h) \7 n: ]专题总结论文' }! L* W; g% w1 }
强化迁移过程的基本理论——场协同原理及其应用+ z5 W# G# b, @2 p+ g2 {. @
微通道内流动与换热的数值模拟与实验研究, F3 {3 w3 T x; H& R
非连续多孔介质热物性的分形描述和能量与物质迁移规律的研究
# t. Q0 l4 g$ a含湿多孔介质中热量和物质组分耦合迁移的机制与模型研究7 R1 ~3 z- x C3 h$ p/ ~ _) Z6 P
CPL毛细芯内相变传热与流动的模型与数值计算
) K8 Y5 S- n5 b8 c3 z双尺度波纹板板壳式换热器强化换热的研究. @. E U& F# P7 R5 U+ `+ U1 _
一、强化传热、传质原理与方法的实验与数值研究
& _3 e- C0 s+ A, @换热器集箱管组流动和换热分析
* P& e% A0 T: X: @) A2 ?A unified analysis on enhancing single phase convective heat transfer with field synergy principle
" Q) K V9 W! r# G; I. N# O iField synergy principle for enhancing convective heat transfer~its extension and numerical verifications8 O( {. O- z( I- I7 p
Applications of the field synergy principle in developing new type heat transfer enhanced Surfaces/ p1 S4 w) J/ [: w. a
Numerical verification of the field synergy principle for turbulent flow
$ \5 H- o M- q- a4 h7 _Pressure drop and heat transfer characteristics of turbulent flow in annular tubes with internal 0 j; s' u2 N2 j
wave—like longitudinal fins# A2 x6 j5 F7 G: G& b/ b) T5 R6 T& `$ j
Three—dimensional numerical simulation on laminar heat transfer and fluid flow characteristics of
9 Z. ^+ Q o; _# c8 P9 C# [1 k) o3 istrip fin surface with X—arrangement of strips' t7 v9 ]' }. w: Z$ u! O8 w6 ?1 J
Numerical design of efficient slotted fin surface based on the field synergy principle Cheng Y P,Qu:* \; M# m m. g- f2 D- q+ i6 r- |
非饱和多孔介质中自然对流传热的场协同分析8 e. W, \: ?) q' V( J- w
CPL蒸发器毛细芯中流动与传热的场协同分析9 l' K H( r* n5 h
Study on boiling heat transfer in liquid saturated particle bed and fluidized bed: ^% f, H$ s. I- x
离心流化床中强制对流换热的实验研究
5 ^$ c; Z0 B/ H) R: k离心力场作用下多孔介质中强制对流换热的研究- S7 Q ]$ l; r0 a, a
用波动理论确定气固磁流化床的临界稳定区
# H) c0 N0 n$ Z3 B! g0 n" n固体颗粒强化液体沸腾换热和抗垢特性的研究
) c! B7 `% G y; [+ C8 D0 `# T+ M活性炭对苯蒸气吸附与分离过程的实验研究, R: w' t6 L- c( o4 C( U
双尺度波纹板束上溴化锂降膜吸收的实验研究3 d# V; V1 f( L* g$ t3 M! _
湍流流动和传热整体传输特性的数学分析+ F7 z; L( S3 v9 c1 e# ^
二、多孔介质中的传热传质规律研究8 x$ Y) M; l1 _# G) j3 [
Heat transfer and phase change of liquid in an inclined enclosure packed with unsaturated porous media: O2 b, h) y9 ^7 X9 P
Heat and mass transfer with phase change in a rectangular enclosure packed with unsaturated porous material
$ M- p9 g0 G" H8 @Fraetal analysis of permeabilities for porous media
8 _0 P' }/ ^- H" F ~6 MNumerical and experimental analysis of convection heat transfer in passive 4 g0 o2 J2 v- h% Z4 i5 f
solar heating room with greenhouse and heat storage
' W; {- @1 u/ T0 V$ v! x7 A: y5 ENumerical analysis of heat transfer in a composite wall solar collector system with porous absorber
; c: I2 d1 ]6 m9 ZStudy of heat and moisture transfer in soil with a dry surface layer8 r# Z( _0 X# h) T) w1 L
Modeling for heat and mass transfer with phase change in porous wick of CPL evaporator
( t4 W9 e9 t% z) k8 N! d6 u( qSteady numerical simulation for heat and moisture migration in vegetation soil under various conditions 8 }7 a& p6 O G8 W. ^/ R
Determination of pel~neability using fractal method for porous media
+ r: U- j( p8 m, AInvestigation on moisture transfer mechanism in porous media during rapid drying process: V; ]! D# R# S* t
分形多孔介质中的热传导
8 F' n4 j6 s$ Q& K& @) K1 ?7 X三、微细结构中流动与换热基本规律研究
! A# b) T( f: ?5 w/ wLattice Boltzmann method for simulating gas flow in microchannels
+ {! j% G7 `4 ^: R; Z$ KLattice Boltzmann simulation of flow in porous media on nonuniform mesh grids
) z2 `) \- C6 F* R. g# sAn experimental investigation of gaseous flow characteristics in microchannels
' D9 ~# J: W4 hTurbulent statistics of rarefied flows in mierochannel flow and heat transfer
/ y( j0 P! w5 r* c9 p* N2 S* lLattice Boltzmann method for gaseous mieroflows using kinetic theory boundary conditions
( j& o0 [/ r& ^/ r; U4 uThree-dimensional lattice Bohzmann model for gaseous flow in rectangular microducts and
k0 l i S& x; ]! Rmieroseale porous media
5 R9 h/ A3 a" M1 ^A numerical study of laminar convective heat transfer in microchannel with non--circular crosssection
9 i% `" t, r) ~4 w) h* w# T用直接模拟Monte Carlo方法计算微通道的流动与换热% q" p' c" U+ a! F/ i
四、脉管制冷机中的传输机理研究. {% d. d+ S/ H" b
Steady natural convection in a vertical cylindrical envelope with adiabatic lateral wall
, I0 n' A" b1 mSteady natural convection in a tilted long cylindrical envelope with lateral adiabatic
2 W4 k( T6 | `& U7 gsurface,part 1:theoretical modeling and numerical treatments" d |/ r4 k j
Steady natural convection in a tilted long cylindrical envelope with lateral adiabatic+ J+ `- `7 k; R
surface,part 2:heat transfer rate,flow patterns and temperature distributions6 i: Y' T) Z9 n
The effect of tube wall heat conduction on the natural convection in a long cylindrical envelope with an adiabatic lateral
$ K# m6 o# u, ~. BImprovement of the thermal performance of pulse tube refrigerator by using a general# n. _/ t# K! l1 z) U' Z
principle for enhancing energy transport and conversion processes# g# C5 H" k; r) P( G* @1 `* r+ h
五、流动与传热问题的先进数值模拟方法6 ]' G7 W& G6 W4 X
A novel segregated algorithm for incompressible fluid flow and heat transfer problems--CLEAR(coupled&linked e
0 }6 h8 O* Z8 v7 J3 z' r& G& talgorithm revised)part I:mathematical formulation and solution procedure9 y7 h, K& E6 u/ b T! _
A novel segregated algorithm for incompressible fluid flow and heat transfer problems--CLEAR(coupled&linked e
8 J9 @! o+ m, G5 T Ralgorithm revised)partⅡ:application examples8 b @& }/ @4 N
Simulation of fluid flow and heat transfer in a plane channel using the lattice Bohzmann method
; ~4 r& Q7 W2 kRefinement of the convective boundedness criterion of Gaskell and Lau
/ O, P7 F, u, {8 }Control of convergence in a computational fluid dynamic simulation using fuzzy logic
3 ?5 j' ^- S5 e! S5 E1 JDiscussion on momentum interpolation method for collocated grids of incompressibl flow
7 V f4 m+ Y+ M c; ~; E" t+ F# V! i/ w( oDiscussion on numerical stability and boundedness 0f convective discretized scheme
9 q1 W1 V O! T0 i( G4 Z8 \A comparison study of the convergence characteristics and robustness for fEEt variants cf HMPLE family at fine grids & O4 f: t2 k3 y# d
附件11 o# j6 o" u9 _6 \/ A
杨世铭教授论著清单 % [' W0 y& Q4 o' ?7 n; K
附件2+ v1 b4 Z i; O. A$ p& _2 V8 A
973项目“高效节能的关键科学问题”第三课题《不连续介质中传热传质的建模、数值模拟及实验研究》
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附件32 F" y; c, w: K1 j+ p
973国家重点基础研究发展规划项目“高效节能的关键科学问题”第三课题《不连续介质中传热传质的建模、" I9 v3 U% {4 Z1 ?- S; _* [2 P5 e
数值模拟及实验研究》(G2000026303)发表论文清单 |
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发表于 2010-1-21 13:33:27
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