Showing
1 - 4
results of
4
for search '
Berecibar, M.
'
Skip to content
Home
High Impact Articles
Search Options
UiTM Open Access
Search by UiTM Scopus
Advanced Search
Search by Category
Discovery Service
Sources
Jawi Collection
UiTM Journals
List UiTM Journal in IR
Statistic
About
Open Access
Creative Commons Licenses
COKI | Malaysia Open Access
Report Technical
User Guide
Contact Us
Search Tips
FAQs
All Fields
Title
Author
Subject
Call Number
ISBN/ISSN
Tag
Find
Advanced
Author
Berecibar, M.
Showing
1 - 4
results of
4
for search '
Berecibar, M.
'
, query time: 0.05s
Refine Results
Sort
Relevance
Date Descending
Date Ascending
Call Number
Author
Title
1
An Experimental Study on Thermal Performance of Graphite-Based Phase-Change Materials for High-Power Batteries
by
Behi, H.
,
Berecibar
,
M
.
,
Karimi, D.
,
Van Mierlo, J.
Published 2022
Call Number:
Loading...
Located:
Loading...
View Fulltext in Publisher
Article
2
An Experimental Study on Thermal Performance of Graphite-Based Phase-Change Materials for High-Power Batteries
by
Behi, H.
,
Berecibar
,
M
.
,
Karimi, D.
,
Van Mierlo, J.
Published 2022
Call Number:
Loading...
Located:
Loading...
View Fulltext in Publisher
Article
3
Heavy-Duty Battery Electric Buses’ Integration in Cities Based on Superfast Charging Technologies: Impact on the Urban Life
by
Al-Saadi, M.
,
Berecibar
,
M
.
,
Fievet, B.
,
Käsgen, J.
,
Mathes, M.
,
Schmidt, M.
,
Van Tichelen, P.
Published 2022
Call Number:
Loading...
Located:
Loading...
View Fulltext in Publisher
Article
4
Advanced hybrid thermal management system for LTO battery module under fast charging
by
Behi, H.
,
Berecibar
,
M
.
,
Haider, A.
,
He, J.
,
Kalogiannis, T.
,
Karimi, D.
,
Muller, J.-D
,
Patil, M.S
,
Van Mierlo, J.
Published 2022
Call Number:
Loading...
Located:
Loading...
View Fulltext in Publisher
Article
Search Tools:
Get RSS Feed
—
Email this Search
Related Subjects
Lithium-ion batteries
Natural convection
Phase change materials
Temperature control
Thermal management (electronics)
Graphite
High power
High power applications
High power battery
High thermal conductivity
Lithium-ion capacitors
Maximum temperature
Supercapacitor
Temperature reduction
Thermal
Thermal Performance
Thermal conductivity
Thermal management
graphite
high power applications
high thermal conductivity
phase-change materials
thermal management
Charging (batteries)
Charging process
Cooling
Cooling systems
Hybrid cooling
Hybrid cooling system
Ions
Loading...