Amanote Research

Amanote Research

    RegisterSign In

Computational Fluid Dynamics Based Optimal Design of Guiding Channel Geometry in UType Coolant Layer Manifold of Large-Scale Microchannel FischerTropsch Reactor

doi 10.1021/acs.iecr.5b03313.s001
Full Text
Open PDF
Abstract

Available in full text

Date

Unknown

Authors

Unknown

Publisher

American Chemical Society (ACS)


Related search

Computational Fluid Dynamics of Mixing Performance in Microchannel

2019English

Investigation of the Effect of Geometry and Type of Nanofluids on the Heat Transfer Inside the Microchannel Using Computational Fluid Dynamics (CFD)

Journal of Computational Methods In Engineering
2019English

Computational Fluid Dynamics Modeling of the Millisecond Methane Steam Reforming in Microchannel Reactors for Hydrogen Production

RSC Advances
ChemistryChemical Engineering
2018English

Model-Based Analysis and Design of a Microchannel Reactor for Tissue Engineering

Biotechnology and Bioengineering
Applied MicrobiologyBiotechnologyBioengineering
2006English

Computational Fluid Dynamics and Experimental Analysis for Optimum Geometry of Vortex Tube

International Journal of Innovative Research in Science, Engineering and Technology
2014English

Observations on Computational Methodologies for Use in Large-Scale, Gradient-Based, Multidisciplinary Design

1992English

Computational Fluid Dynamics Analysis of Flexible Duct Junction Box Design

2013English

Computational Fluid Dynamics Modeling of Radiation in a Steam Methane Reforming Fixed-Bed Reactor

English

Computational Fluid Dynamics.

2012English

Amanote Research

Note-taking for researchers

Follow Amanote

© 2026 Amaplex Software S.P.R.L. All rights reserved.

Privacy PolicyRefund Policy