LEADER 05611nam  2200745Ia 450 
001 9910144429603321
005 20170925002935.0
010   $a1-282-12393-9
010   $a9786612123931
010   $a0-470-98974-2
010   $a0-470-98966-1
035   $a(CKB)1000000000687381
035   $a(EBL)470625
035   $a(OCoLC)609849604
035   $a(SSID)ssj0000353857
035   $a(PQKBManifestationID)11258805
035   $a(PQKBTitleCode)TC0000353857
035   $a(PQKBWorkID)10302042
035   $a(PQKB)10810676
035   $a(SSID)ssj0000356680
035   $a(PQKBManifestationID)12082020
035   $a(PQKBTitleCode)TC0000356680
035   $a(PQKBWorkID)10349737
035   $a(PQKB)11100528
035   $a(MiAaPQ)EBC470625
035   $a(CaSebORM)9780470519073
035   $a(EXLCZ)991000000000687381
100   $a20010208d2008      uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aApplied computational fluid dynamics techniques$b[electronic resource] $ean introduction based on finite element methods /$fRainald Lo?hner
205   $a2nd ed.
210   $aChichester ;$aNew York $cWiley$dc2008
215   $a1 online resource (539 p.)
300   $aDescription based upon print version of record.
311   $a0-471-49843-2 
311   $a0-470-51907-X 
320   $aIncludes bibliographical references and index.
327   $aAPPLIED COMPUTATIONAL FLUID DYNAMICS TECHNIQUES; CONTENTS; Index; FOREWORD TO THE SECOND EDITION; ACKNOWLEDGEMENTS; 1 INTRODUCTION AND GENERAL CONSIDERATIONS; 1.1 The CFD code; 1.2 Porting research codes to an industrial context; 1.3 Scope of the book; 2 DATA STRUCTURES AND ALGORITHMS; 2.1 Representation of a grid; 2.2 Derived data structures for static data; 2.2.1 Elements surrounding points - linked lists; 2.2.2 Points surrounding points; 2.2.3 Elements surrounding elements; 2.2.4 Edges; 2.2.5 External faces; 2.2.6 Edges of an element; 2.3 Derived data structures for dynamic data
327   $a2.3.1 N-trees2.4 Sorting and searching; 2.4.1 Heap lists; 2.5 Proximity in space; 2.5.1 Bins; 2.5.2 Binary trees; 2.5.3 Quadtrees and octrees; 2.6 Nearest-neighbours and graphs; 2.7 Distance to surface; 3 GRID GENERATION; 3.1 Description of the domain to be gridded; 3.1.1 Analytical functions; 3.1.2 Discrete data; 3.2 Variation of element size and shape; 3.2.1 Internal measures of grid quality; 3.2.2 Analytical functions; 3.2.3 Boxes; 3.2.4 Point/line/surface sources; 3.2.5 Background grids; 3.2.6 Element size attached to CAD data; 3.2.7 Adaptive background grids
327   $a3.2.8 Surface gridding with adaptive background grids3.3 Element type; 3.4 Automatic grid generation methods; 3.5 Other grid generation methods; 3.6 The advancing front technique; 3.6.1 Checking the intersection of faces; 3.6.2 Data structures to minimize search overheads; 3.6.3 Additional techniques to increase speed; 3.6.4 Additional techniques to enhance reliability; 3.7 Delaunay triangulation; 3.7.1 Circumsphere calculations; 3.7.2 Data structures to minimize search overheads; 3.7.3 Boundary recovery; 3.7.4 Additional techniques to increase speed
327   $a3.7.5 Additional techniques to enhance reliability and quality3.8 Grid improvement; 3.8.1 Removal of bad elements; 3.8.2 Laplacian smoothing; 3.8.3 Grid optimization; 3.8.4 Selective mesh movement; 3.8.5 Diagonal swapping; 3.9 Optimal space-filling tetrahedra; 3.10 Grids with uniform cores; 3.11 Volume-to-surface meshing; 3.12 Navier-Stokes gridding techniques; 3.12.1 Design criteria for RANS gridders; 3.12.2 Smoothing of surface normals; 3.12.3 Point distribution along normals; 3.12.4 Subdivision of prisms into tetrahedra; 3.12.5 Element removal criteria
327   $a3.13 Filling space with points/arbitrary objects3.13.1 The advancing front space-filling algorithm; 3.13.2 Point/object placement stencils; 3.13.3 Boundary consistency checks; 3.13.4 Maximum compaction techniques; 3.13.5 Arbitrary objects; 3.13.6 Deposition patterns; 3.14 Applications; 3.14.1 Space shuttle ascend configuration; 3.14.2 Pilot ejecting from F18; 3.14.3 Circle of Willis; 3.14.4 Generic submarine body; 3.14.5 Ahmed car body; 3.14.6 Truck; 3.14.7 Point cloud for F117; 3.14.8 Hopper filled with beans/ellipsoids; 3.14.9 Cube filled with spheres of different sizes
327   $a4 APPROXIMATION THEORY
330   $aComputational fluid dynamics (CFD) is concerned with the efficient numerical solution of the partial differential equations that describe fluid dynamics. CFD techniques are commonly used in the many areas of engineering where fluid behavior is an important factor. Traditional fields of application include aerospace and automotive design, and more recently, bioengineering and consumer and medical electronics. With Applied Computational Fluid Dynamics Techniques, 2nd edition, Rainald Lo?hner introduces the reader to the techniques required to achieve efficient CFD solvers, forming a bridge betwee
606   $aFluid dynamics$xMathematics
606   $aNumerical analysis
606   $aFinite element method
608   $aElectronic books.
615  0$aFluid dynamics$xMathematics.
615  0$aNumerical analysis.
615  0$aFinite element method.
676   $a620.1/064
676   $a620.1064
700   $aLo?hner$b Rainald$0924353
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910144429603321
996   $aApplied computational fluid dynamics techniques$92074342
997   $aUNINA

LEADER 02430nam0 22004813i 450 
001 VAN0249470
005 20230531092209.542
017 70$2N$a9783030591779
100   $a20220901d2020       |0itac50      ba
101   $aeng
102   $aCH
105   $a||||    |||||
200 1 $aMathematics (Education) in the Information Age$fStacy A. Costa, Marcel Danesi, Dragana Martinovic editors
210   $aCham$cSpringer$d2020
215   $ax, 226 p.$cill.$d24 cm
410  1$1001VAN0124254$12001 $aMathematics in Mind$1210  $aCham$cSpringer
500  1$3VAN0249471$aMathematics (Education) in the Information Age$92547772
606   $a92B20$xNeural networks for/in biological studies, artificial life and related topics [MSC 2020]$3VANC021414$2MF
606   $a97-XX$xMathematics education [MSC 2020]$3VANC023813$2MF
606   $a00B15$xCollections of articles of miscellaneous specific interest [MSC 2020]$3VANC023985$2MF
606   $a91Fxx$xOther social and behavioral sciences (mathematical treatment) [MSC 2020]$3VANC025040$2MF
606   $a97U70$xTechnological tools, calculators (aspects of mathematics education) [MSC 2020]$3VANC027168$2MF
606   $a97U50$xComputer assisted instruction, e-learning (aspects of mathematics education) [MSC 2020]$3VANC033793$2MF
606   $a97D30$xObjectives and goals of mathematics teaching [MSC 2020]$3VANC037128$2MF
610   $aArtificial Intelligence$9KW:K
610   $aCognitive science$9KW:K
610   $aGraphical literacy$9KW:K
610   $aImmanent visuality$9KW:K
610   $aPhilosophy of mathematics$9KW:K
610   $aPsychology of mathematics$9KW:K
620   $aCH$dCham$3VANL001889
702  1$aCosta$bStacy A.$3VANV204052
702  1$aDanesi$bMarcel$3VANV051043
702  1$aMartinovic$bDragana$3VANV204053
712   $aSpringer <editore>$3VANV108073$4650
801   $aIT$bSOL$c20240614$gRICA
856 4 $uhttp://doi.org/10.1007/978-3-030-59177-9$zE-book ? Accesso al full-text attraverso riconoscimento IP di Ateneo, proxy e/o Shibboleth
899   $aBIBLIOTECA DEL DIPARTIMENTO DI MATEMATICA E FISICA$1IT-CE0120$2VAN08
912   $fN
912   $aVAN0249470
950   $aBIBLIOTECA DEL DIPARTIMENTO DI MATEMATICA E FISICA$d08CONS      e-book                  4742        $e08eMF4742              20220901            
996   $aMathematics (Education) in the Information Age$92547772
997   $aUNICAMPANIA