Posted by **AlenMiler** at Oct. 15, 2014

Wiley-AIChE; 2 edition | October 16, 2012 | English | ISBN: 1118024729 | 400 pages | PDF | 4 MB

This Second Edition of the go-to reference combines the classical analysis and modern applications of applied mathematics for chemical engineers.

Posted by **tanas.olesya** at Sept. 14, 2014

John Wiley & Sons | December 6, 1994 | English | ISBN: 0471303771 | 731 Pages | DJVU | 4 MB

Bridges the gap between classical analysis and modern applications. Following the chapter on the model building stage, it introduces traditional techniques for solving ordinary differential equations, adding new material on approximate solution methods such as perturbation techniques and elementary numerical solutions. Also includes analytical methods to deal with important classes of finite-difference equations. The last half discusses numerical solution techniques and partial differential equations.

Posted by **Alexpal** at June 24, 2006

Wiley | ISBN 0471303771 | 1994 Year | DjVu | 4,32 Mb | 720 Pages

Posted by **Jeembo** at April 15, 2017

English | 1984 | ISBN: 0471887617 | 258 Pages | PDF | 15.4 MB

An introduction to the quantitative treatment of differential equations arising from modeling physical phenomena in chemical engineering designed for advanced undergraduates or graduates of chemical engineering taking a course in applied mathematics.

Posted by **nebulae** at April 8, 2017

English | ISBN: 1118914686 | 2017 | 368 pages | PDF | 5 MB

Posted by **rotten comics** at Nov. 20, 2016

1989 | ISBN: 0070391599 | English | 725 pages | PDF | 14 MB

Posted by **DZ123** at Dec. 13, 2015

English | 1991 | ISBN: 0071008713 | PDF | pages: 925 | 16 mb

Posted by **step778** at Oct. 29, 2015

1990 | pages: 741 | ISBN: 0071007938 | PDF | 31,4 mb

Posted by **step778** at Nov. 26, 2014

1991 | pages: 925 | ISBN: 0071008713 | PDF | 16 mb

Posted by **tanas.olesya** at Oct. 10, 2014

McGraw-Hill; 2nd edition | June 1, 1990 | English | ISBN: 0071007938 | 741 pages | PDF | 31 MB

The purpose of this book is to convey to undergraduate students an understanding of those areas of process control that all chemical engineers need to know. The presentation is concise, readable and restricted to only essential elements. The methods presented have been successfully applied in industry to solve real problems. Analysis of closedloop dynamics in the time, Laplace, frequency and sample-data domains are covered. Designing simple regulatory control systems for multivariable processes is discussed.