語系:
繁體中文
English
說明(常見問題)
圖資館首頁
登入
回首頁
切換:
標籤
|
MARC模式
|
ISBD
Drop dynamics and dropwise condensat...
~
Khandekar, Sameer.
Drop dynamics and dropwise condensation on textured surfaces
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
Drop dynamics and dropwise condensation on textured surfacesby Sameer Khandekar, K. Muralidhar.
作者:
Khandekar, Sameer.
其他作者:
Muralidhar, K.
出版者:
Cham :Springer International Publishing :2020.
面頁冊數:
xxiv, 450 p. :ill., digital ;24 cm.
Contained By:
Springer Nature eBook
標題:
CondensationMathematical models.
電子資源:
https://doi.org/10.1007/978-3-030-48461-3
ISBN:
9783030484613$q(electronic bk.)
Drop dynamics and dropwise condensation on textured surfaces
Khandekar, Sameer.
Drop dynamics and dropwise condensation on textured surfaces
[electronic resource] /by Sameer Khandekar, K. Muralidhar. - Cham :Springer International Publishing :2020. - xxiv, 450 p. :ill., digital ;24 cm. - Mechanical engineering series,0941-5122. - Mechanical engineering series..
Introduction -- Intermediate steps in dropwise condensation -- Mechanism of Dropwise Condensation and its Modeling -- Drop Formation at the Atomic Scale -- Spreading of a Single Drop on Sessile and Pendant Surfaces -- Macroscopic Modeling of Dropwise Condensation -- Simulation of Dropwise Condensation in a Parallel Environment -- Dropwise Condensation of Water Vapor (Simulation) -- Dropwise Condensation of Bismuth (Simulation) -- Surface preparation Techniques -- Coalescence Dynamics of Drops over a Hydrophobic Surface -- Liquid Crystal Thermography of Condensing Drops -- Dropwise Condensation of water vapor -- Instrumentation Issues Encountered During Measurement of Heat Transfer -- Evaporation of a Liquid Drops from a Textured Surface -- Concluding remarks and perspectives -- Future Work.
This book is an expanded form of the monograph, Dropwise Condensation on Inclined Textured Surfaces, Springer, 2013, published earlier by the authors, wherein a mathematical model for dropwise condensation of pure vapor over inclined textured surfaces was presented, followed by simulations and comparison with experiments. The model factored in several details of the overall quasi-cyclic process but approximated those at the scale of individual drops. In the last five years, drop level dynamics over hydrophobic surfaces have been extensively studied. These results can now be incorporated in the dropwise condensation model. Dropwise condensation is an efficient route to heat transfer and is often encountered in major power generation applications. Drops are also formed during condensation in distillation devices that work with diverse fluids ranging from water to liquid metals. Design of such equipment requires careful understanding of the condensation cycle, starting from the birth of nuclei, followed by molecular clusters, direct growth of droplets, their coalescence, all the way to instability and fall-off of condensed drops. The model described here considers these individual steps of the condensation cycle. Additional discussions include drop shape determination under static conditions, a fundamental study of drop spreading in sessile and pendant configurations, and the details of the drop coalescence phenomena. These are subsequently incorporated in the condensation model and their consequences are examined. As the mathematical model is spread over multiple scales of length and time, a parallelization approach to simulation is presented. Special topics include three-phase contact line modeling, surface preparation techniques, fundamentals of evaporation and evaporation rates of a single liquid drop, and measurement of heat transfer coefficient during large-scale condensation of water vapor. We hope that this significantly expanded text meets the expectations of design engineers, analysts, and researchers working in areas related to phase-change phenomena and heat transfer.
ISBN: 9783030484613$q(electronic bk.)
Standard No.: 10.1007/978-3-030-48461-3doiSubjects--Topical Terms:
877427
Condensation
--Mathematical models.
LC Class. No.: QC304 / .K436 2020
Dewey Class. No.: 536.44
Drop dynamics and dropwise condensation on textured surfaces
LDR
:03962nmm a2200337 a 4500
001
586135
003
DE-He213
005
20210105102032.0
006
m d
007
cr nn 008maaau
008
210323s2020 sz s 0 eng d
020
$a
9783030484613$q(electronic bk.)
020
$a
9783030484606$q(paper)
024
7
$a
10.1007/978-3-030-48461-3
$2
doi
035
$a
978-3-030-48461-3
040
$a
GP
$c
GP
041
0
$a
eng
050
4
$a
QC304
$b
.K436 2020
072
7
$a
TGMB
$2
bicssc
072
7
$a
SCI065000
$2
bisacsh
072
7
$a
TGMB
$2
thema
082
0 4
$a
536.44
$2
23
090
$a
QC304
$b
.K45 2020
100
1
$a
Khandekar, Sameer.
$3
675262
245
1 0
$a
Drop dynamics and dropwise condensation on textured surfaces
$h
[electronic resource] /
$c
by Sameer Khandekar, K. Muralidhar.
260
$a
Cham :
$b
Springer International Publishing :
$b
Imprint: Springer,
$c
2020.
300
$a
xxiv, 450 p. :
$b
ill., digital ;
$c
24 cm.
490
1
$a
Mechanical engineering series,
$x
0941-5122
505
0
$a
Introduction -- Intermediate steps in dropwise condensation -- Mechanism of Dropwise Condensation and its Modeling -- Drop Formation at the Atomic Scale -- Spreading of a Single Drop on Sessile and Pendant Surfaces -- Macroscopic Modeling of Dropwise Condensation -- Simulation of Dropwise Condensation in a Parallel Environment -- Dropwise Condensation of Water Vapor (Simulation) -- Dropwise Condensation of Bismuth (Simulation) -- Surface preparation Techniques -- Coalescence Dynamics of Drops over a Hydrophobic Surface -- Liquid Crystal Thermography of Condensing Drops -- Dropwise Condensation of water vapor -- Instrumentation Issues Encountered During Measurement of Heat Transfer -- Evaporation of a Liquid Drops from a Textured Surface -- Concluding remarks and perspectives -- Future Work.
520
$a
This book is an expanded form of the monograph, Dropwise Condensation on Inclined Textured Surfaces, Springer, 2013, published earlier by the authors, wherein a mathematical model for dropwise condensation of pure vapor over inclined textured surfaces was presented, followed by simulations and comparison with experiments. The model factored in several details of the overall quasi-cyclic process but approximated those at the scale of individual drops. In the last five years, drop level dynamics over hydrophobic surfaces have been extensively studied. These results can now be incorporated in the dropwise condensation model. Dropwise condensation is an efficient route to heat transfer and is often encountered in major power generation applications. Drops are also formed during condensation in distillation devices that work with diverse fluids ranging from water to liquid metals. Design of such equipment requires careful understanding of the condensation cycle, starting from the birth of nuclei, followed by molecular clusters, direct growth of droplets, their coalescence, all the way to instability and fall-off of condensed drops. The model described here considers these individual steps of the condensation cycle. Additional discussions include drop shape determination under static conditions, a fundamental study of drop spreading in sessile and pendant configurations, and the details of the drop coalescence phenomena. These are subsequently incorporated in the condensation model and their consequences are examined. As the mathematical model is spread over multiple scales of length and time, a parallelization approach to simulation is presented. Special topics include three-phase contact line modeling, surface preparation techniques, fundamentals of evaporation and evaporation rates of a single liquid drop, and measurement of heat transfer coefficient during large-scale condensation of water vapor. We hope that this significantly expanded text meets the expectations of design engineers, analysts, and researchers working in areas related to phase-change phenomena and heat transfer.
650
0
$a
Condensation
$x
Mathematical models.
$3
877427
650
0
$a
Surfaces (Physics)
$3
224173
650
1 4
$a
Engineering Thermodynamics, Heat and Mass Transfer.
$3
338996
650
2 4
$a
Thermodynamics.
$3
183038
650
2 4
$a
Engineering Fluid Dynamics.
$3
273893
650
2 4
$a
Surface and Interface Science, Thin Films.
$3
489822
650
2 4
$a
Quantum Gases and Condensates.
$3
492482
700
1
$a
Muralidhar, K.
$3
802364
710
2
$a
SpringerLink (Online service)
$3
273601
773
0
$t
Springer Nature eBook
830
0
$a
Mechanical engineering series.
$3
558634
856
4 0
$u
https://doi.org/10.1007/978-3-030-48461-3
950
$a
Engineering (SpringerNature-11647)
筆 0 讀者評論
全部
電子館藏
館藏
1 筆 • 頁數 1 •
1
條碼號
館藏地
館藏流通類別
資料類型
索書號
使用類型
借閱狀態
預約狀態
備註欄
附件
000000189955
電子館藏
1圖書
電子書
EB QC304 .K45 2020 2020
一般使用(Normal)
在架
0
1 筆 • 頁數 1 •
1
多媒體
多媒體檔案
https://doi.org/10.1007/978-3-030-48461-3
評論
新增評論
分享你的心得
Export
取書館別
處理中
...
變更密碼
登入