Optimization of reactive epoxy casting process of 15 kV outdoor sensor using advanced CFD simulations

Author

Raschka, David ; Singh, Bandeep

Author_Institution

Technol. Centre, ABB Inc., Pinetops, NC, USA

fYear

2015

Firstpage

584

Lastpage

587

Abstract

The paper presents an advanced investigation method based on numerical computational fluid dynamics. This calculation allows researches and engineers to understand cycloaliphatic polymeric thermoset epoxy resin behavior during casting process from the fluid dynamics, heat transfer and curing (solidification) exothermal chemical reaction phenomenon point of view. Method is presented on an example of outdoor current and voltage sensor. Results generated by the numerical simulation of the epoxy resin casting process have helped to reduce both product development time and costs, improve the production processes and to improve performance and service life of outdoor epoxy resin encapsulated power product.

Keywords

casting; chemical reactions; computational fluid dynamics; curing; electrical products; encapsulation; epoxy insulation; heat transfer; numerical analysis; optimisation; power electronics; sensors; solidification; CFD simulations; curing exothermal chemical reaction phenomenon; current sensor; cycloaliphatic polymeric thermoset epoxy resin behavior; heat transfer; numerical computational fluid dynamics; outdoor epoxy resin encapsulated power product; outdoor sensor; production processes; reactive epoxy casting process; voltage 15 kV; voltage sensor; Casting; Heating; Numerical models; Polymers; CFD; Kamal model; casting; curing; epoxy resin; numerical simulation; outdoor insulation;

fLanguage

English

Publisher

ieee

Conference_Titel

Electrical Insulation Conference (EIC), 2015 IEEE

Print_ISBN

978-1-4799-7352-1

Type

conf

DOI

10.1109/ICACACT.2014.7223501

Filename

7223501