語系:
繁體中文
English
說明(常見問題)
登入
回首頁
(回前一個查詢頁籤)
[ subject:"VM156" ]
切換:
標籤
|
MARC模式
|
ISBD
Practical ship hydrodynamics
~
Bertram, Volker.
Practical ship hydrodynamics
紀錄類型:
書目-語言資料,印刷品 : 單行本
作者:
BertramVolker.,
其他團體作者:
ScienceDirect (Online service)
出版地:
Oxford
出版者:
Butterworth-Heinemann;
出版年:
2000.
面頁冊數:
x, 270 p.ill. : 24 cm.;
標題:
Ships - Hydrodynamics. -
標題:
Electronic books. -
標題:
Hydrodynamica. -
標題:
Scheepsschroeven. -
標題:
Voortstuwing. -
電子資源:
http://www.loc.gov/catdir/description/els031/00034269.html
電子資源:
http://www.loc.gov/catdir/description/els031/00034269.html
電子資源:
http://www.loc.gov/catdir/description/els031/00034269.html
電子資源:
http://www.loc.gov/catdir/description/els031/00034269.html
附註:
Electronic reproduction. Amsterdam : Elsevier Science & Technology, 2007.
摘要註:
The author has provided the reader with comprehensive coverage of ship hydrodynamics with a focus on numerical methods now in use. The book provides a global overview of experimental and numerical methods for ship resistance and propulsion, manoeuvring and seakeeping. As boundary element techniques are now in standard use, these are covered in sufficient detail for independent code development. The book is divided into seven chapters. Chapter one contains an overview of problems and approaches, including the basics of model and full scale testing. An introduction to computational fluid dynamics is given, including a discussion of applications. The next four chapters cover the subjects: propellers, resistance and propulsion, seakeeping and manoeuvring. These chapters present basic methods, such as model testing, extrapolation to full scale, and procedures for design. Substantial parts of each chapter include numerical methods and their applications. The last two chapters are devoted to boundary element methods for resistance and seakeeping. Web-supported text. Questions provided in chapters with answers on the web Covers well-established methods as well as the newest numerical procedures in the area of ship hydrodynamics.
ISBN:
0750648511
內容註:
Introduction; Overview of problems and approaches; Model test and similarity laws; Full scale tests; Numerical approaches (Computational Fluid Dynamics); Basic equations, Basic techniques; Applications. Propeller Flows: Propeller geometry and other basics, Propeller curves; Numerical methods for propeller design; Lifting line theory; Lifting surface theory; BEM for propellers; Field methods; Cavitation; Experimental approach; Propeller design procedure. Resistance and propulsion: Resistance and propulsion concepts; Interaction between ship and propeller; Decomposition of resistance; Experimental approach; Towing tanks and experimental set up; Resistance test; Method ITTC 1957; Method of Hughes-Prohaska; Propulsion test; Additional resistance under service conditions; Simple design approaches; CFD approaches for steady flow; Wave resistance computations; Viscous flow computations; Problems for fast and unconventional ships. Ship Seakeeping: Introduction to seakeeping; Experimental approaches (model and full-scale); Waves and seaway; Airy waves (harmonic waves of small amplitude); Natural seaway; Wind and seaway; Wave climate; Numerical prediction of ship seakeeping; Overview of computational methods; Strip method; Rankine panel methods; Problems for fast and unconventional ships; Further quantities in regular waves; Ship responses in stationary seaway; Simulation methods; Long-term distributions; Slamming. Manoeuvring: Simulation of manoeuvring with known coefficients; Coordinate systems and definitions; Body forces and manoeuvring motions; Linear motion equations; CFD for manoeuvring; Experimental approaches; Manoeuvring tests for full-scale ships in sea trials; Model tests; Rudders; Computation of body forces; Slender-body theory; Influence of heel; Shallow-water effect; Jet thrusters; Stop manoeuvres. Boundary element methods: Green function formulation; Integral equations; Source elements; Point source; Regular first-order panel; Jensen panel; Higher-order panel; Vortex elements; Dipole elements; Point dipole. Numerical examples for BEM: Two-dimensional body in infinite flow; Theory; Numerical implementation.
Practical ship hydrodynamics
Bertram, Volker.
Practical ship hydrodynamics
/ Volker Bertram. - Oxford : Butterworth-Heinemann, 2000.. - x, 270 p. ; ill. ; 24 cm..
Introduction; Overview of problems and approaches; Model test and similarity laws; Full scale tests; Numerical approaches (Computational Fluid Dynamics); Basic equations, Basic techniques; Applications. Propeller Flows: Propeller geometry and other basics, Propeller curves; Numerical methods for propeller design; Lifting line theory; Lifting surface theory; BEM for propellers; Field methods; Cavitation; Experimental approach; Propeller design procedure. Resistance and propulsion: Resistance and propulsion concepts; Interaction between ship and propeller; Decomposition of resistance; Experimental approach; Towing tanks and experimental set up; Resistance test; Method ITTC 1957; Method of Hughes-Prohaska; Propulsion test; Additional resistance under service conditions; Simple design approaches; CFD approaches for steady flow; Wave resistance computations; Viscous flow computations; Problems for fast and unconventional ships. Ship Seakeeping: Introduction to seakeeping; Experimental approaches (model and full-scale); Waves and seaway; Airy waves (harmonic waves of small amplitude); Natural seaway; Wind and seaway; Wave climate; Numerical prediction of ship seakeeping; Overview of computational methods; Strip method; Rankine panel methods; Problems for fast and unconventional ships; Further quantities in regular waves; Ship responses in stationary seaway; Simulation methods; Long-term distributions; Slamming. Manoeuvring: Simulation of manoeuvring with known coefficients; Coordinate systems and definitions; Body forces and manoeuvring motions; Linear motion equations; CFD for manoeuvring; Experimental approaches; Manoeuvring tests for full-scale ships in sea trials; Model tests; Rudders; Computation of body forces; Slender-body theory; Influence of heel; Shallow-water effect; Jet thrusters; Stop manoeuvres. Boundary element methods: Green function formulation; Integral equations; Source elements; Point source; Regular first-order panel; Jensen panel; Higher-order panel; Vortex elements; Dipole elements; Point dipole. Numerical examples for BEM: Two-dimensional body in infinite flow; Theory; Numerical implementation..
Electronic reproduction. Amsterdam : Elsevier Science & Technology, 2007..
Includes bibliographical references (p. 265-268) and index..
ISBN 0750648511ISBN 9780750648516
Ships Electronic books.Hydrodynamica.Scheepsschroeven.Voortstuwing. -- Hydrodynamics.
Practical ship hydrodynamics
LDR
:04656nam 2200325Ii 4500
001
363504
005
20130114165320
009
158040
010
1
$a
0750648511
010
1
$a
9780750648516
100
$a
20070806d2000 u0engy0103 b
101
0
$a
eng
102
$a
enk
135
$a
v
200
1
$a
Practical ship hydrodynamics
$f
Volker Bertram.
204
1
$a
[electronic resource]
210
$a
Oxford
$a
Boston
$c
Butterworth-Heinemann
$d
2000.
215
1
$a
x, 270 p.
$c
ill.
$d
24 cm.
300
$a
Electronic reproduction. Amsterdam : Elsevier Science & Technology, 2007.
320
$a
Includes bibliographical references (p. 265-268) and index.
327
0
$a
Introduction; Overview of problems and approaches; Model test and similarity laws; Full scale tests; Numerical approaches (Computational Fluid Dynamics); Basic equations, Basic techniques; Applications. Propeller Flows: Propeller geometry and other basics, Propeller curves; Numerical methods for propeller design; Lifting line theory; Lifting surface theory; BEM for propellers; Field methods; Cavitation; Experimental approach; Propeller design procedure. Resistance and propulsion: Resistance and propulsion concepts; Interaction between ship and propeller; Decomposition of resistance; Experimental approach; Towing tanks and experimental set up; Resistance test; Method ITTC 1957; Method of Hughes-Prohaska; Propulsion test; Additional resistance under service conditions; Simple design approaches; CFD approaches for steady flow; Wave resistance computations; Viscous flow computations; Problems for fast and unconventional ships. Ship Seakeeping: Introduction to seakeeping; Experimental approaches (model and full-scale); Waves and seaway; Airy waves (harmonic waves of small amplitude); Natural seaway; Wind and seaway; Wave climate; Numerical prediction of ship seakeeping; Overview of computational methods; Strip method; Rankine panel methods; Problems for fast and unconventional ships; Further quantities in regular waves; Ship responses in stationary seaway; Simulation methods; Long-term distributions; Slamming. Manoeuvring: Simulation of manoeuvring with known coefficients; Coordinate systems and definitions; Body forces and manoeuvring motions; Linear motion equations; CFD for manoeuvring; Experimental approaches; Manoeuvring tests for full-scale ships in sea trials; Model tests; Rudders; Computation of body forces; Slender-body theory; Influence of heel; Shallow-water effect; Jet thrusters; Stop manoeuvres. Boundary element methods: Green function formulation; Integral equations; Source elements; Point source; Regular first-order panel; Jensen panel; Higher-order panel; Vortex elements; Dipole elements; Point dipole. Numerical examples for BEM: Two-dimensional body in infinite flow; Theory; Numerical implementation.
330
0
$a
The author has provided the reader with comprehensive coverage of ship hydrodynamics with a focus on numerical methods now in use. The book provides a global overview of experimental and numerical methods for ship resistance and propulsion, manoeuvring and seakeeping. As boundary element techniques are now in standard use, these are covered in sufficient detail for independent code development. The book is divided into seven chapters. Chapter one contains an overview of problems and approaches, including the basics of model and full scale testing. An introduction to computational fluid dynamics is given, including a discussion of applications. The next four chapters cover the subjects: propellers, resistance and propulsion, seakeeping and manoeuvring. These chapters present basic methods, such as model testing, extrapolation to full scale, and procedures for design. Substantial parts of each chapter include numerical methods and their applications. The last two chapters are devoted to boundary element methods for resistance and seakeeping. Web-supported text. Questions provided in chapters with answers on the web Covers well-established methods as well as the newest numerical procedures in the area of ship hydrodynamics.
452
1
$1
0101
$a
0750648511
606
$a
Ships
$x
Hydrodynamics.
$3
455366
606
$a
Electronic books.
$3
452603
606
$a
Hydrodynamica.
$3
455593
606
$a
Scheepsschroeven.
$3
455594
606
$a
Voortstuwing.
$3
455595
676
$a
623.8/12
$v
22
680
$a
VM156
$b
.B457 2000eb
700
1
$a
Bertram
$b
Volker.
$3
455592
712
0 2
$a
ScienceDirect (Online service)
$3
454379
801
0
$a
tw
$b
TUL
$c
20090617
801
1
$a
tw
$b
TUL
$c
20090617
856
7
$u
http://www.loc.gov/catdir/description/els031/00034269.html
856
7
$u
http://www.engineeringvillage.com/controller/servlet/OpenURL?genre=book&isbn=9780750648516
$z
An electronic book accessible through the World Wide Web; click for information
856
7
$u
http://www.sciencedirect.com/science/book/9780750648516
$z
An electronic book accessible through the World Wide Web; click for information
856
7
$u
http://www.loc.gov/catdir/toc/els031/00034269.html
筆 0 讀者評論
多媒體
評論
新增評論
分享你的心得
Export
取書館別
處理中
...
修改密碼
登入