BibTex format
@inbook{Oluleye:2018,
author = {Oluleye, G},
booktitle = {Waste to Energy Wte},
pages = {57--84},
title = {Process integration applied to waste-to-energy production},
year = {2018}
}
Citation
RIS format (EndNote, RefMan)
TY - CHAP
AB - Energy efficiency is a low-cost option for decarbonising energy systems. A form of energy recovery is waste-to-energy, especially where electricity and/or heat is generated from the primary treatment of waste. However, the energy efficiency of waste-to-energy production systems varies from 30-60% depending on the choice of technologies for heat and electricity provision. Recovery and re-use of wasted thermal energy in such systems has potential to increase their energy efficiency. The wasted thermal energy can be used directly, converted to electricity, used to provide chilling or upgraded to a higher temperature. This chapter aims to provide a holistic conceptual framework based on graphical techniques for improving the energy performance of waste-to-energy production systems through Process Integration.
AU - Oluleye,G
EP - 84
PY - 2018///
SP - 57
TI - Process integration applied to waste-to-energy production
T1 - Waste to Energy Wte
ER -
View publications by:
Topic
Climate Science
Earth and Life Sciences
Energy and Low-Carbon Futures
Resources and Pollution
Economics and Finance
Health
View all publications and browse by year
Publication type
Briefing papers and Briefing notes
Grantham Institute Outlooks
Evidence & submission papers
Infographics
Institute reports and analytics notes
Grantham notes
Collaborative publications
Discussion papers
Institute event overviews
Working papers