Title of Article |
Optimization of Concrete Duct Bank Power Cable using Self-Adaptive Differential Evolution |
Date of Acceptance |
2 December 2018 |
Journal |
Title of Journal |
Mahasarakham International Journal of Engineering Technology |
Standard |
TCI |
Institute of Journal |
Faculty of Engineering, Mahasarakham University, Thailand |
ISBN/ISSN |
ISSN: (online) 2408-1566; (print) 2408-1957 |
Volume |
4 |
Issue |
2 |
Month |
July – December 2018 |
Year of Publication |
2019 |
Page |
41-49 |
Abstract |
Underground cable performance with the
qualitative aspects of the maximum cable temperature and
ampacity are functions of installation conditions. Thus, this
work presents an efficient methodology to improve the
thermal performance of power cable with respect to
optimize structural sizing involving the variables design of
concrete duct bank dimensions. The methodology
integrates the powerful features of the finite elements
method (FEM) technique and the self-adaptive Differential
Evolution (jDE) for handle various geometrical parameters
in the complex surrounding installation case. Simulation
results obtained by jDE were compared with control
algorithms of the Particle Swarm Optimization (PSO),
momentum-type PSO (mPSO) and Genetic Algorithm (GA).
To optimize structural sizing, it was found that the
performance of the concrete duct bank could be improved
by jDE method and be better when comparing with the
results from the other methods. Moreover, jDE could
reduce sizing of the concrete duct bank with 41.39%
compared with the traditional design at the same ampacity
of installation in noncomplex surrounding installation
(normal case). This is important for reduce installation cost
of the concrete duct bank. |
Keyword |
Underground power cables, concrete duct bank, cable ampacity, the temperature distribution, optimization |
Author |
|
Reviewing Status |
มีผู้ประเมินอิสระ |
Status |
ตีพิมพ์แล้ว |
Level of Publication |
ชาติ |
citation |
false |
Part of thesis |
true |
Attach file |
|
Citation |
0
|
|