Jakob Gustavsson; Jonas Tallberg; Karin Aggestam; Jan Joel Andersson; Rikard Bengtsson; Ulf Bjereld; Annika Björkdahl Studentlitteratur AB (2021) Pehmeäkantinen kirja
Stina Bengtsson; Staffan Ericson; Fredrik Stiernstedt; Linus Andersson; Jonas Andersson Schwarz; Göran Bolin; Anders Burman Studentlitteratur AB (2020) Pehmeäkantinen kirja
Ali Sarkohi; Gerhard Andersson; Finn Bengtsson; Jan Beskow; Maria Bragesjö; Mats Dahlin; Pia Enebrink; Tomas Furmark Studentlitteratur AB (2021) Pehmeäkantinen kirja
Lisa Kilman; Josefine Andin; Håkan Hua; Jerker Rönnberg; Gerhard Andersson; Patrik Arvidsson; Staffan Bengtsson Studentlitteratur AB (2021) Pehmeäkantinen kirja
Bengt Starrin; Mikael Alexandersson; António Barbosa da Silva; Rosmari Eliasson Lappalainen; Staffan Larsson; Gerd Lindgren Studentlitteratur AB (1994) Pehmeäkantinen kirja
Roland Andersson; Bengt Jeppsson; Anders Rydholm; Håkan Ahlman; Maria Albertsson; Henrik Ekberg; Pelle Gustafson Studentlitteratur AB (2012) Pehmeäkantinen kirja
Stephan Rapp; Kenny Andersson; Peter Skoglund; Ann-Kathrin Hedberg; Monika Andersson; Bengt-Åke Gustafsson Norstedts Juridik AB (2011) Pehmeäkantinen kirja
Olle Lidbom; Helena Olsson; Bengt Johansson; Nicklas Håkansson; Nils Hanson; Mats Ekström; Jonas Andersson; Elin Gardeström Institutet för Mediestudier (2020) Pehmeäkantinen kirja
A solid introduction to mathematical modeling for a range of chemical engineering applications, covering model formulation, simplification and validation. It explains how to describe a physical/chemical reality in mathematical language and how to select the type and degree of sophistication for a model. Model reduction and approximation methods are presented, including dimensional analysis, time constant analysis and asymptotic methods. An overview of solution methods for typical classes of models is given. As final steps in model building, parameter estimation and model validation and assessment are discussed. The reader is given hands-on experience of formulating new models, reducing the models and validating the models. The authors assume the knowledge of basic chemical engineering, in particular transport phenomena, as well as basic mathematics, statistics and programming. The accompanying problems, tutorials, and projects include model formulation at different levels, analysis, parameter estimation and numerical solution.
