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LEADER 00000cam a2200505 i 4500
003 OCoLC
005 20240129213017.0
006 m o d
007 cr unu||||||||
008 191218s2018 njua ob 001 0 eng d
020 9781119536307
020 1119536308
035 (OCoLC)1131863251
037 CL0501000085|bSafari Books Online
040 UMI|beng|erda|epn|cUMI|dOCLCF|dDST|dOCLCQ|dOCLCO|dOCLCQ
|dOCLCO|dOCLCL
049 INap
082 04 621.31/24
082 04 621.31/24|223
099 eBook O'Reilly for Public Libraries
100 1 Sahoo, Umakanta,|eauthor.
245 12 A polygeneration process concept for hybrid solar and
biomass power plant :|bsimulation, modelling, and
optimization /|cUmakanta Sahoo.|h[O'Reilly electronic
resource]
264 1 Hoboken, NJ :|bWiley ;|aBeverly, MA :|bScrivener
Publishing,|c[2018]
264 4 |c©2018
300 1 online resource (1 volume) :|billustrations
336 text|btxt|2rdacontent
337 computer|bc|2rdamedia
338 online resource|bcr|2rdacarrier
504 Includes bibliographical references and index.
520 The global warming phenomenon as a significant
sustainability issue is gaining worldwide support for
development of renewable energy technologies. The term
"polygeneration" is referred to as "an energy supply
system, which delivers more than one form of energy to the
final user." For example, electricity, cooling and
desalination can be delivered from a polygeneration
process. The polygeneration process in a hybrid solar
thermal power plant can deliver electricity with less
impact on the environment compared to a conventional
fossil fuel-based power generating system. It is also THE
next generation energy production technique with the
potential to overcome the undesirable intermittence of
renewable energy systems. In this study, the
polygeneration process simultaneous production of power,
vapor absorption refrigeration (VAR) cooling and multi-
effect humidification and dehumidification (MEHD)
desalination system from different heat sources in hybrid
solar-biomass (HSB) system with higher energy efficiencies
(energy and exergy), primary energy savings (PES) and
payback period are investigated, focusing on several
aspects associated with hybrid solar-biomass power
generation installations, such as wide availability of
biomass resources and solar direct normal irradiance (DNI),
and other technologies. Thermodynamic evaluation (energy
and exergy) of HSB power has also been investigated, along
with the VAR cooling system, the modelling, simulation,
optimization and cost analysis of the polygeneration
hybrid solar biomass system, all accompanied by multiple
case studies and examples for practical applications. This
volume provides the researcher, student and engineer with
the intellectual tool needed for understanding new ideas
in this rapidly emerging field. The book is also intended
to serve as a general source and reference book for the
professional (consultant, designer, contractor etc.) who
is working in the field of solar thermal, biomass, power
plant, polygeneration, cooling and process heat. It is a
must-have for anyone working in this field
588 0 Print version record.
590 O'Reilly|bO'Reilly Online Learning: Academic/Public
Library Edition
650 0 Solar power plants.
650 0 Biomass energy.
650 0 Hybrid power systems.
650 6 Centrales solaires.
650 6 Bioénergie.
650 6 Énergie|xSystèmes hybrides.
650 7 solar power plants.|2aat
650 7 Biomass energy|2fast
650 7 Hybrid power systems|2fast
650 7 Solar power plants|2fast
776 08 |iPrint version:|aSahoo, Umakanta.|tPolygeneration process
concept for hybrid solar and biomass power plant.|dHoboken,
NJ, USA : Wiley-Scrivener, 2019|z9781119536307|w(DLC)
2018034677|w(OCoLC)1045640569
856 40 |uhttps://ezproxy.naperville-lib.org/login?url=https://
learning.oreilly.com/library/view/~/9781119536093/?ar
|zAvailable on O'Reilly for Public Libraries
994 92|bJFN