Publication detail

Laminar Flow Heat Transfer Model for 1D and 3D Modeling

ŠEBELA, K. JANOUŠEK, M. ŠTĚTINA, J.

English title

Laminar Flow Heat Transfer Model for 1D and 3D Modeling

Type

article in a collection out of WoS and Scopus

Language

en

Original abstract

Heat transfer model for laminar flow is built in GT-Suite software. Proposed method is based on analytic heat transfer model for universal length channel and average heat transfer coefficient is applied to global model. Laminar flow heat transfer model is used in fluid to fluid heat exchanger numerical model. Heat exchanger is discretized to 1D fluid domain and 3D heat conduction in solid material. Both domains are solved together and are used for first design optimalisation before 3D CDF is used for final version assessment.

English abstract

Heat transfer model for laminar flow is built in GT-Suite software. Proposed method is based on analytic heat transfer model for universal length channel and average heat transfer coefficient is applied to global model. Laminar flow heat transfer model is used in fluid to fluid heat exchanger numerical model. Heat exchanger is discretized to 1D fluid domain and 3D heat conduction in solid material. Both domains are solved together and are used for first design optimalisation before 3D CDF is used for final version assessment.

Keywords in English

Heat transfer, 1D and 3D, heat exchanger

Released

22.09.2021

Publisher

ČESKÁ ZEMĚDĚLSKÁ UNIVERZITA V PRAZE, TECHNICKÁ FAKULTA, KATEDRA VOZIDEL A POZEMNÍ DOPRAVY

Location

Praha

ISBN

978-80-213-3132-7

Book

Sborník přednášek

Pages from–to

184–191

Pages count

234

BIBTEX


@inproceedings{BUT173071,
  author="Kamil {Šebela} and Michal {Janoušek} and Josef {Štětina},
  title="Laminar Flow Heat Transfer Model for 1D and 3D Modeling",
  booktitle="Sborník přednášek",
  year="2021",
  month="September",
  pages="184--191",
  publisher="ČESKÁ ZEMĚDĚLSKÁ UNIVERZITA V PRAZE, TECHNICKÁ FAKULTA, KATEDRA VOZIDEL A POZEMNÍ DOPRAVY",
  address="Praha",
  isbn="978-80-213-3132-7"
}