Implementation of minimisation techniques to construction optimisation of iron-core inductor
- 1. Copper Mils Sevojno
- 2. Institute for Materials and Constructions Testings of Republic of Srpska
- 3. School of Electrical Engineering, University of Belgrade
- 4. Electrical Institute "Nikola Tesla"
Description
In this study, the authors propose a modelling algorithm of inductors that provides a powerful tool for solving a
variety of engineering optimisation problems. The algorithm has been developed in accordance with desire to consolidate
cost benefit, losses minimisation and inductance maximisation, and finding the best manufacturing solution. A non-linear
mathematical model for optimisation of three-phase, dry type double-E iron-core inductor has been presented in this
study. Its purpose is to show that design of three-phase, air-cooled, network frequency inductors can be obtained
using of new, adopted non-linear modelling algorithm-MISP (mixed-integer signomial programming), for minimising
cost of materials (or inductor’s mass) while ensuring the satisfaction of inductance value together with constraints
imposed by overall measures, copper fill factor, maximum allowed induction, current density and temperature rise.
The MISP is solved using branch-and-bound approach, specially implemented to inductor design problems. To confirm
the result obtains by optimisation, inductor has been constructed according to the minimum loss criterion. The
application is industry acceptable in cases if there are restrictions on the inductor weight. Also, where core dimensions
are known, this approach can be used to design inductor by either maximising the inductance value or minimising
total losses.
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Funding
- Increase of power efficiency, reliabillity and availability of EPS power plants by asserting capability curves of generators and by applying new methods of testing and remote monitoring 33024
- Ministry of Education, Science and Technological Development