Sustainable Energy Systems: Efficiency and Optimization

This book explores how the concepts, methods and tools of systemic analyses have been utilised in various contexts, and at different levels, to improve the efficiency and optimisation of sustainable energy systems.

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Bibliographic Details
Other Authors: Brent, Alan (Editor), Nakata, Toshihiko (Editor)
Format: Book Chapter
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2022
Subjects:
Online Access:Get Fullteks
DOAB: description of the publication
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653 |a renewable portfolio standards 
653 |a emissions trading scheme 
653 |a optimal operational strategy 
653 |a generation expansion plan 
653 |a energy planning 
653 |a public institution 
653 |a passive energy 
653 |a CRITIC method 
653 |a urban metabolism 
653 |a household energy metabolism 
653 |a household energy metabolism assessment methods 
653 |a household energy consumption 
653 |a energy systems optimisation 
653 |a exergy analysis 
653 |a cumulative-exergy consumption minimisation 
653 |a multi-energy systems 
653 |a energy-system design 
653 |a municipal energy systems 
653 |a internet of things 
653 |a IoT applications 
653 |a energy efficiency 
653 |a energy in buildings 
653 |a smart energy systems 
653 |a smart grid 
653 |a flexible demand 
653 |a energy storage 
653 |a concentrating solar power 
653 |a geographic information systems 
653 |a potential assessment 
653 |a renewable energy 
653 |a solar thermal 
653 |a South Africa 
653 |a CSP 
653 |a energy and economy transition 
653 |a decision making 
653 |a international energy security risk index 
653 |a multiple regression analysis 
653 |a multicollinearity test 
653 |a multicollinearity test with variance inflation factors 
653 |a renewable energy systems 
653 |a microgrids 
653 |a optimal expansion planning 
653 |a energy resilience 
653 |a resilient energy systems 
653 |a critical loads 
653 |a electric vehicles 
653 |a techno-economic analysis 
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653 |a New Zealand 
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