Parametric optimisation of resistance temperature detector design using validated virtual prototyping approach

Parametric optimisation of resistance temperature detector design using validated virtual prototyping approach

The study presents a successful approach used in development of new design of thermal product. The high uncertainty of dynamic thermofluid process analysis and the need of fast exploration of large dataset of design parameters require elaboration of this new approach. It combines detailed thermoCFD...

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Bibliographic Details
Main Authors: Georgi Todorov, Konstantin Kamberov, Tsvetozar Ivanov
Format: Article
Language:English
Published: Elsevier 2021-12-01
Series:Case Studies in Thermal Engineering
Subjects:
Sensor
Thermocouple
Mutliphysics
CFD
Virtual prototyping
Online Access:http://www.sciencedirect.com/science/article/pii/S2214157X21004652
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spelling doaj-9bd5657c72be4c27942c0f2b47829e722021-09-01T04:21:12ZengElsevierCase Studies in Thermal Engineering2214-157X2021-12-0128101302Parametric optimisation of resistance temperature detector design using validated virtual prototyping approachGeorgi Todorov0Konstantin Kamberov1Tsvetozar Ivanov2Technical University – Sofia, FIT, TMMM, Laboratory “CAD/CAM/CAE in Industry”, 8, “Kl. Ohridski” Blvd, 1797, Sofia, BulgariaCorresponding author.; Technical University – Sofia, FIT, TMMM, Laboratory “CAD/CAM/CAE in Industry”, 8, “Kl. Ohridski” Blvd, 1797, Sofia, BulgariaTechnical University – Sofia, FIT, TMMM, Laboratory “CAD/CAM/CAE in Industry”, 8, “Kl. Ohridski” Blvd, 1797, Sofia, BulgariaThe study presents a successful approach used in development of new design of thermal product. The high uncertainty of dynamic thermofluid process analysis and the need of fast exploration of large dataset of design parameters require elaboration of this new approach. It combines detailed thermoCFD simulation models that are validated with physical experiments, with simplified thermostructural simulation models. The need for such an approach is predetermined by the request for fast processing of big data with certain level of accuracy and detail. The approach is demonstrated by a case study of resistance temperature detector design development.http://www.sciencedirect.com/science/article/pii/S2214157X21004652SensorThermocoupleMutliphysicsCFDVirtual prototyping
collection DOAJ
language English
format Article
sources DOAJ
author Georgi Todorov
Konstantin Kamberov
Tsvetozar Ivanov
spellingShingle Georgi Todorov
Konstantin Kamberov
Tsvetozar Ivanov
Parametric optimisation of resistance temperature detector design using validated virtual prototyping approach
Case Studies in Thermal Engineering
Sensor
Thermocouple
Mutliphysics
CFD
Virtual prototyping
author_facet Georgi Todorov
Konstantin Kamberov
Tsvetozar Ivanov
author_sort Georgi Todorov
title Parametric optimisation of resistance temperature detector design using validated virtual prototyping approach
title_short Parametric optimisation of resistance temperature detector design using validated virtual prototyping approach
title_full Parametric optimisation of resistance temperature detector design using validated virtual prototyping approach
title_fullStr Parametric optimisation of resistance temperature detector design using validated virtual prototyping approach
title_full_unstemmed Parametric optimisation of resistance temperature detector design using validated virtual prototyping approach
title_sort parametric optimisation of resistance temperature detector design using validated virtual prototyping approach
publisher Elsevier
series Case Studies in Thermal Engineering
issn 2214-157X
publishDate 2021-12-01
description The study presents a successful approach used in development of new design of thermal product. The high uncertainty of dynamic thermofluid process analysis and the need of fast exploration of large dataset of design parameters require elaboration of this new approach. It combines detailed thermoCFD simulation models that are validated with physical experiments, with simplified thermostructural simulation models. The need for such an approach is predetermined by the request for fast processing of big data with certain level of accuracy and detail. The approach is demonstrated by a case study of resistance temperature detector design development.
topic Sensor
Thermocouple
Mutliphysics
CFD
Virtual prototyping
url http://www.sciencedirect.com/science/article/pii/S2214157X21004652
work_keys_str_mv AT georgitodorov parametricoptimisationofresistancetemperaturedetectordesignusingvalidatedvirtualprototypingapproach
AT konstantinkamberov parametricoptimisationofresistancetemperaturedetectordesignusingvalidatedvirtualprototypingapproach
AT tsvetozarivanov parametricoptimisationofresistancetemperaturedetectordesignusingvalidatedvirtualprototypingapproach
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