AIChE Symposium Series, Issue 323 |
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Page 8
... structure and interaction forces and then computes average and transient molecular ( microscopic ) and local collective ( mezoscopic ) structure which can be used to obtain thermodynamic and transport ( macroscopic ) properties . Its ...
... structure and interaction forces and then computes average and transient molecular ( microscopic ) and local collective ( mezoscopic ) structure which can be used to obtain thermodynamic and transport ( macroscopic ) properties . Its ...
Page 325
... structure 1 . 2 . Plant I / O structure 3 . Task structure 4. Unit operations 5. Equipment design The batch / continuous choice does not have to be made beforehand . Parts of the process can be batch , whereas other parts can be ...
... structure 1 . 2 . Plant I / O structure 3 . Task structure 4. Unit operations 5. Equipment design The batch / continuous choice does not have to be made beforehand . Parts of the process can be batch , whereas other parts can be ...
Page 434
... Structure Ontology The plant structure ontology belongs to the physical dimension and refers to the description of the components of which the plant is built , their topology , their mereology and their spatial representation . The ...
... Structure Ontology The plant structure ontology belongs to the physical dimension and refers to the description of the components of which the plant is built , their topology , their mereology and their spatial representation . The ...
Contents
INVITED PAPERS | 1 |
RECENT DEVELOPMENTS | 21 |
The Web and Flow of Information in Pharmaceutical RD | 23 |
Copyright | |
45 other sections not shown
Common terms and phrases
activities addition AIChE algorithm allow alternatives analysis application approach batch bound calculations changes Chem chemical codes column Comp complex components composition computational concepts considered constraints continuous cost defined described detailed determine distillation dynamic economic effect efficient energy engineering equations equipment et al evaluation example experiments feed Figure Floudas flow flowsheet formulation function given global optimization Grossmann heat important improve increase industry integration involved lifecycle linear material mathematical methods molecular networks nonlinear objective obtained operating parameters particle performance phase plant possible predict presented problem procedure process design process modeling programming properties proposed reaction reactor reduced selection separation shown shows simulation solution solved specific stage step strategy structure synthesis techniques temperature types unit variables