Listing 1 - 8 of 8 |
Sort by
|
Choose an application
Statistical physics --- fysische transportverschijnselen --- fysische technologie --- Transport theory --- Tables --- Transport theory - Tables
Choose an application
fysische transportverschijnselen --- warmteoverdracht --- massaoverdracht --- impuls --- moleculair transport --- stromingsleer --- Massatransport --- Stromingsleer --- Warmtetransport --- Statistical physics --- fysische technologie
Choose an application
Fluid mechanics --- Statistical physics --- Gases handling. Fluids handling --- reologie --- transport vloeistoffen --- fysische technologie --- fysische transportverschijnselen
Choose an application
Fluid mechanics --- Statistical physics --- Gases handling. Fluids handling --- reologie --- transport vloeistoffen --- fysische technologie --- fysische transportverschijnselen
Choose an application
Chemical thermodynamics --- Chemical technology --- reactoren --- fysische technologie --- reactiekinetiek --- chemische technologie --- fysicochemie --- reacties (chemische technologie) --- Chemische reacties --- Katalyse --- Reactiekinetiek
Choose an application
Statistical physics --- fysische technologie --- fysische transportverschijnselen --- 66.02 --- chemische technologie --- massaoverdracht --- materiaaleigenschappen --- toegepaste mechanica --- warmteoverdracht --- wiskunde --- Chemische bewerkingshandelingen en uitrusting
Choose an application
This is a book for chemical engineers. It allows the engineer to calculate how rapidly components in a mixture move with respect to each other. This is important in the designing of equipment such as reactors and separation units. The method covers both traditional and modern equipment, including catalytic and membrane processes. The method is based on a force balance of each species in the mixture. (This in contrast to the Fick equation normally used). It can handle any number of components and considers forces due to gradients of concentration; and of electrical, pressure, centrifugal and other fields. It leads to a unified description of all mass transfer processes: distillation, absorption, electrodialysis, heterogeneous catalysis, chromatography, ultrafiltration and many others
Thermodynamics --- Macromolecules --- Chemical technology --- heat exchangers --- polymers --- reactoren (chemische technologie) --- warmtewisselaars --- thermodynamica --- multicomponentanalyse --- enthalpie --- massaoverdracht --- fysische technologie --- chemische procesindustrie --- polymeren --- diffusie
Choose an application
berekeningen --- reactoren (chemische technologie) --- Chemical technology --- absorptie --- kristallisatie --- extractie --- warmteoverdracht --- chemische technologie --- destillatie --- Chemical engineering --- -Mathematics --- 66.01 --- -Chemistry, Industrial --- Engineering, Chemical --- Industrial chemistry --- Engineering --- Chemistry, Technical --- Metallurgy --- Chemical engineering and processing principles. Process design and control. Plant layout and services. Materials, properties etc. --- Mathematics --- Berekeningen --- Fysische technologie --- Procestechnologie --- Rekenmethoden --- Mathematics. --- -Chemical engineering and processing principles. Process design and control. Plant layout and services. Materials, properties etc. --- Berekeningen. --- Fysische technologie. --- Procestechnologie. --- Rekenmethoden. --- 66.01 Chemical engineering and processing principles. Process design and control. Plant layout and services. Materials, properties etc. --- -66.01 Chemical engineering and processing principles. Process design and control. Plant layout and services. Materials, properties etc. --- Chemistry, Industrial --- Chemical engineering and processing principles. Process design and control. Plant layout and services. Materials, properties etc --- Monograph --- Chemical engineering - Mathematics
Listing 1 - 8 of 8 |
Sort by
|