Contact
schliessen

Filtern

 

Bibliotheken

Logo der Bibliothek

Siegel TU Braunschweig Universitätsbibliothek Braunschweig
You do not seem to be within the network of Braunschweig University.
As student, researcher or staff member of Braunschweig University you can use the VPN service to gain access to electronic publications.
Alternatively, you can use your university username and password via Shibboleth to gain access to electronic publications with certain publishers. You can find more details in our Blog (in German).

Simulation of high dimensional systems = : Simulation nichtlinearer Destillationsprozesse

Analysis of high dimensional nonlinear systems often involve simulation on a digital computer. In this work we have addressed the problem of devising effective algorithms for performing such simulation studies. In the first part of the thesis a class of composite algorithms of the Runge-Kutta type i... Full description

Fulltext access:
Availability is being checked...
Interlibrary loan: Check possibility for interlibrary loan
Additional Keywords: DESTILLATION
NICHTLINEARITAET
SIMULATIONSVERSUCH
STROEMUNGSLEHRE
VERDAMPFUNG
ZWEIPHASENSTROEMUNG
Notes: Copyright: Metadaten: TEMA, Copyright WTI-Frankfurt eG
Copyright: (C) Alle Rechte beim Herausgeber
Physical Description: 163 Seiten
PPN (Catalogue-ID): WTI014991993
Note: WTI TEMA DB
more publication details ...

Associated Publications/Volumes

  • Associated records are being queried...
more (+)
Internes Format
LEADER 01991nam a2200289 c 4500
001 WTI014991993
003 DE-601
005 20190329101132.0
008 171222s1979 000 0 und d
028 5 2 |a TEMA1981_wti_pica 
035 |a (DE-599)WTIM81060553350 
040 |b ger  |c GBVCP 
084 |a 3P  |a 3BB  |2 FON2006 
245 0 0 |a Simulation of high dimensional systems =  |b Simulation nichtlinearer Destillationsprozesse 
300 |a 163 Seiten 
500 |a Copyright: Metadaten: TEMA, Copyright WTI-Frankfurt eG 
500 |a Copyright: (C) Alle Rechte beim Herausgeber 
520 |a Analysis of high dimensional nonlinear systems often involve simulation on a digital computer. In this work we have addressed the problem of devising effective algorithms for performing such simulation studies. In the first part of the thesis a class of composite algorithms of the Runge-Kutta type is developed for integrating large systems of coupled ordinary differential equations. Classes of problems which can be studied with such an approach are also identified. In the latter part of the thesis a new scheme is developed for determining the minimum reflux condition in a multicomponent distillation. The infinite stage column is modelled as a continuous one. This results in significant reduction in the number of equations to be solved. This approach can be used with any vapor-liquid equilibrium model. In addition a short cut method is presented which assumes constant relative volatility and constant heat of vaporization. This is more accurate than the classic Underwood method and yet involves the same amount of computational work. (Posamentier) 
653 4 |a DESTILLATION 
653 4 |a ZWEIPHASENSTROEMUNG 
653 4 |a VERDAMPFUNG 
653 4 |a STROEMUNGSLEHRE 
653 4 |a SIMULATIONSVERSUCH 
653 4 |a NICHTLINEARITAET 
912 |a GBV_WTI 
950 |a DESTILLATION  |a ZWEIPHASENSTROEMUNG  |a VERDAMPFUNG  |a STROEMUNGSMECHANIK  |a SIMULATIONSVERSUCH  |a NICHTLINEARITAET  |2 DE-601 
951 |a BO