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유동 및 반응 해석 software 개발

유동 및 반응 해석 software 개발 (1회 대출)

자료유형
단행본
개인저자
성재석, 주관연구책임자
단체저자명
한국에너지기술연구원
서명 / 저자사항
유동 및 반응 해석 software 개발 = Development of a code of computational fluid dynamics and reaction / 한국에너지기술연구원 [주관연구].
발행사항
과천 :   과학기술부,   2001.  
형태사항
x, 121 p. : 삽도 ; 30 cm.
일반주기
주관연구책임자 : 성재석  
000 00000nam c2200205 k 4500
001 000000793113
005 20221227100046
007 ta
008 021114s2001 ggka a korBU
040 ▼a 211009 ▼c 211009 ▼d 211009
049 1 ▼l 121062938 ▼f 과학
082 0 4 ▼a 620.106 ▼2 21
090 ▼a 620.106 ▼b 2001
110 ▼a 한국에너지기술연구원
245 1 0 ▼a 유동 및 반응 해석 software 개발 = ▼x Development of a code of computational fluid dynamics and reaction / ▼d 한국에너지기술연구원 [주관연구].
260 ▼a 과천 : ▼b 과학기술부, ▼c 2001.
300 ▼a x, 121 p. : ▼b 삽도 ; ▼c 30 cm.
500 ▼a 주관연구책임자 : 성재석
700 1 ▼a 성재석, ▼e 주관연구책임자
710 ▼a 한국. ▼b 과학기술부, ▼e▼0 AUTH(211009)148152

소장정보

No. 소장처 청구기호 등록번호 도서상태 반납예정일 예약 서비스
No. 1 소장처 과학도서관/Sci-Info(1층서고)/ 청구기호 620.106 2001 등록번호 121062938 도서상태 대출가능 반납예정일 예약 서비스 B M

컨텐츠정보

목차

Introduction = 1
1. Pre-Processing = 2
  1.1 Mesh Generator = 2
    1.1.1 Theory = 2
    1.1.2 Using Mesh Generator Interface = 6
    1.1.3 Common interface = 7
    1.1.4 Import/Export = 7
        Import = 7
        Export = 7
        STL file import = 8
        Creation of an output file (INP) for calculation = 8
      1.1.5 Mesh Editing = 11
        Contours selecting = 11
        Automatic mesh building = 11
        Manual mesh building = 13
        Moving of internal points of a mesh = 17
        Mesh smoothing = 18
      1.1.6 3D meshes : examples = 19
        Axisymmetric valve = 20
        Complex valve = 21
2. Solver = 23
  2.1 Basic equations = 23
    2.1.1 Continuity equation = 23
  2.2 Navier-Stokes equations = 25
  2.3 Energy equations = 27
  2.4 Turbulent flow = 27
  2.5 Turbulence modeling = 29
    2.5.1 Standard K-ε-model = 30
    2.5.2 RNG-model = 31
    2.5.3 Chen''s model = 31
    2.5.4 Mixing length model = 32
  2.6 Energy transport = 33
    2.6.1 Convective transport = 33
    2.6.2 Conductivity = 33
    2.6.3 Radiation = 34
  2.7 Combustion models = 40
  2.8 Generalized differential equation = 42
  2.9 Discretisation the governing equations by unstructured mesh = 44
  2.10 Pressure calculation = 47
  2.11 Discretisation governing equations for turbulent jet by structured mesh = 48
    2.11.1 Example for the burner modeling - Semi-empirical model = 48
    2.11.2 Instant combustion model = 48
    2.11.3 Burner EBU-model = 49
    2.11.4 Method of solution - Discretisation of equations = 50
  2.12 Boundary conditions = 55
    2.12.1 Wall boundary conditions = 55
    2.12.2 Boundary conditions for inflow and outflow = 56
  2.13 The solver executing = 57
    2.13.1 External programs interface entrance = 57
      External entrance properties editor = 58
      Scene events assigner = 59
3. Post-processing = 61
  3.1 Introduction = 61
  3.2 Virtual Reality Numerical Data Analyzer architecture = 63
  3.3 Virtual Reality Scene Generator part = 64
    3.3.1 Example Solver-Virtual Reality Shell information exchange files specification and utilities description = 65
    3.3.2 Stand-alone executable utilities = 73
  3.4 PieX(Packed Information Envelope Exchanger) = 74
    3.4.1 PieX Library Architecture = 75
      PIE formats specification and utilities description = 76
  3.5 Internal PieX library interpolation algorithm description = 84
    3.5.1 Data interpolation from any non-structured curvilinear non-orthogonal multi block grid on a uniform rectilinear Cartesian grid = 84
    3.5.2 Interpolation formulas = 87
  3.6 Scene assembler = 88
    3.6.1 Scene Analyzer and Processor = 88
    3.6.2 Scene Analyzer and Processor interface = 89
  3.7 Navigation and in-scene virtual presence = 90
    3.7.1 Navigating in Scene Analyzer and Processor = 90
    3.7.2 Using Viewpoints = 91
    3.7.3 Moving around : Walk, Fly, and Study = 91
    3.7.4 Capture, Fit, and Align = 94
    3.7.5 Headlight, Navigation Speed and Renderer = 95
    3.7.6 Using Keyboard for Navigating = 96
    3.7.7 Mouse Pointers in the Scene = 97
    3.7.8 Setting Scene Analyzer and Processor Options = 98
    3.7.9 Rendering = 99
  3.8 Post-executive scene events processor = 99
    3.8.1 Run-Time Macro Variables = 99
  3.9 Main Menu for 2-d analyzer = 102
  3.10 Control Panel = 106
    3.10.1 PIE Window = 106
    3.10.2 Control Panel = 107
    3.10.3 View Panel = 107
    3.10.4 Static panel = 109
  3.11 Examples of calculations with the help of GALF CFD code = 110

관련분야 신착자료

Sharma, Atul, (Professor of mechanical engineering) (2022)
Doolan, Con J (2022)