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LEADER 00000cam a2200565 i 4500
001 on1140353704
003 OCoLC
005 20211008041809.0
006 m o d
007 cr |||||||||||
008 191206s2020 nyua ob 001 0 eng
010 2019056819
020 1536168319|qelectronic book
020 9781536168310|q(electronic book)
020 |z9781536168273|qpaperback
035 (OCoLC)1140353704
040 DLC|beng|erda|cDLC|dOCLCF|dOCLCO|dOCLCQ|dYDX|dN$T
042 pcc
049 RIDW
050 04 TJ260|b.I5725 2020
082 00 621.402/8|223
090 TJ260|b.I5725 2020
245 00 Intelligent thermal energy systems :|ban overview /|cCheng
Siong Chin, editor.
264 1 New York :|bNova Science Publishers,|c[2020]
300 1 online resource (xi, 85 pages) :|billustrations (some
color).
336 text|btxt|2rdacontent
337 computer|bc|2rdamedia
338 online resource|bcr|2rdacarrier
347 text file|2rdaft
490 1 Energy science, engineering and technology
504 Includes bibliographical references and index.
505 2 Thermal wrap for cooling cylindrical lithium iron
phosphate / Joel Chiew and Cheng Siong Chin, Satellite
Technology and Research Centre, Department of Electrical
and Computer Engineering, Faculty of Engineering, National
University of Singapore, Singapore, and others -- Heat and
cold thermal energy storage systems : An overview / Rami
Saeed, R&D Innovation Center, Phase Change Energy
Solutions, North Carolina, US -- Thermal energy storage
systems / Satyender Singh, Department of Mechanical
Engineering, Dr. B. R. Ambedkar, National Institute of
Technology Jalandhar, Punjab, India.
520 "This book covers an overview and applications of the
thermal storage systems used in batteries for the electric
automotive industry such as in electric vehicles, thermal
storage system in smart grid systems, thermal harvesting
for battery-less use for wireless sensor networks, thermo-
electric generators and biomedical sensing. The thermal
storage system can be used to harvest energy for
implementation of battery-less, zero-maintenance and place
-and-forget electronic systems. This book has been
prepared for the needs of those who seek an application on
developing the thermal system. The choice of material is
guided by the basic objective of making an engineer or
student capable of dealing with thermal system design. The
book can be used as reference book for undergraduate and
postgraduate students in the area of thermal system
overview, design and applications. Lithium iron phosphate
(LiFePO4) batteries have gained significant traction in
the electric automotive industry in the recent years
mainly due to their high safety performance, flat voltage
profile and low cost. Although LiFePO4 batteries have
excellent thermal stability, they still suffer from
thermal runaway like other lithium-ion type cells. Thermal
volatility is a major drawback in the lithium-ion and
sufficient knowledge of the thermal distribution and heat
generation of the LiFePO4 battery is necessary to avoid
catastrophic thermal failure. The first chapter details
the thermal analysis of a LiFePO4 battery cell with a
latent heat thermal cooling wrap. The model has been
developed as a tool to study the cooling effects of the
wrap on the battery cell during discharging. The proposed
latent heat storage based battery cooling wrap is used to
passively manage the heat produced by the cell and
absorbing and maintaining the battery temperature within
operational temperatures and below thermal runaway
temperature. Thermal energy storage (TES) is another
important concept of the smart grid systems. For non-
renewable, the benefit of TES systems is the improvement
of the generation performance by supporting the energy
demand during peak hours. Also, TES is often able to
improve the system efficiency in a way that is more energy
and cost effective. The best-known method for thermal
energy storage is by utilizing the latent heat of fusion
of energy storage material known as phase change materials
(PCM). TES systems are classified into two main categories
such as sensible and latent heat storage. An overview of
the research on performance improvement are also
delineated. Hence, the thermal energy harvesting has
indeed gained attention in the last decade due to its
promising possibilities in area such as wireless sensor
networks (WSN) for wide range of IoT (Internet of Things)
applications. Thermal energy scavenging from waste heat
can enable implementation of battery-less, zero-
maintenance and place-and-forget electronic systems.
Scavenging energy from the temperature difference between
human body heat and ambiance is an attractive solution for
powering wearables for continuous health monitoring,
biomedical sensing and body area sensor networks (BASN).
The low energy efficiency and low voltage output of the
thermo-electric generators (TEG) pose challenges to the
deployment of industry ready powering systems"--|cProvided
by publisher.
588 Description based on online resource; title from digital
title page (viewed on May 11, 2020).
590 eBooks on EBSCOhost|bEBSCO eBook Subscription Academic
Collection - North America
650 0 Heat storage devices.|0https://id.loc.gov/authorities/
subjects/sh85059815
650 0 Thermoelectric apparatus and appliances.|0https://
id.loc.gov/authorities/subjects/sh85134787
650 7 Heat storage devices.|2fast|0https://id.worldcat.org/fast/
953986
650 7 Thermoelectric apparatus and appliances.|2fast|0https://
id.worldcat.org/fast/1149857
655 4 Electronic books.
700 1 Chin, Cheng Siong,|0https://id.loc.gov/authorities/names/
n2012058311|eeditor.
776 08 |iPrint version:|tIntelligent thermal energy systems|dNew
York : Nova Science Publishers, Inc., [2019]
|z9781536168273|w(DLC) 2019056818
830 0 Energy science, engineering and technology series.|0https:
//id.loc.gov/authorities/names/no2009115408
856 40 |uhttps://rider.idm.oclc.org/login?url=https://
search.ebscohost.com/login.aspx?direct=true&scope=site&
db=nlebk&AN=2270172|zOnline ebook via EBSCO. Access
restricted to current Rider University students, faculty,
and staff.
856 42 |3Instructions for reading/downloading the EBSCO version
of this ebook|uhttp://guides.rider.edu/ebooks/ebsco
901 MARCIVE 20231220
948 |d20211213|cEBSCO|tEBSCOebooksacademic NEW Oct-Nov 5018
|lridw
994 92|bRID
