ABSTRACT
Waste and residuals are undeniably part of the
human society. The accumulation of these materials and the “throw away”
philosophy results in many environmental and health issues and safety hazard
problems prevent sustainable development in terms of resource recovery and
recycling of waste materials. The carbon sources in the waste can be converted
to energy (electricity) using different technologies including collecting and
converting current landfill gases, wet or dry anaerobic digestion to biogas,
incineration gasification and pyrolysis.
TABLE
OF CONTENTS
Certification:… … … … … … … … …
Dedication: … … … … … … … … …
Acknowledgments: … … … … … … … …
Table of contents: … … … … … … … …
Abstract: … … … … … … … … … …
Table of contents: … … … … … … …
List of tables: … … … … … … … …
List of figures: … … … … … … … …
CHAPTER
ONE:
1.0
General introduction: … … … … … …
1.1 Scope
of study: … … … … … … …
1.2 Method
of data collection: … … … … … …
1.3 Significance
of study: … … … … … …
1.4 Aims:
… … … … … … … … ….
1.5
Objectives: … … …
… …
…. … …
CHAPTER
TWO:
2.0 Literature
review: … … … … … … …
2.1 History
of waste as source of energy: … … … …
2.2 Types of waste used for energy overview of
waste-energy
conversion: … … … … … …
2.2.1 Industrial waste: …. …. …. …. ….. ….. ….
2.2.2 Sewage
sludge: …. …. …. …. …. …. ….
2.2.3 Food
waste: …. …. …. …. …. …. ….
2.2.4 Waste
heat: …. …. …. …. …. …. ….
2.2.5 Agricultural
waste: …. …. …. …. …. ….
2.2.6 Municipal
solid waste: …. …. …. …. …. ….
2.3 Characteristics
and calorific values of solid waste: ….
2.4 Overview of waste to energy conversion: …. ….
CHAPTER
THREE:
3.0 Waste
to energy conversion: … … … … …
3.1 Factors
affecting waste that can be converted to electricity:
3.2 Processes
of conversion: … … … … … …
3.2.1 Physical
method: …. …. …. …. …. …. …
3.2.2 Thermal
method (Incineration): …. …. …. ….
3.2.3 Gasification: …. …. …. …. …. …. …
3.2.4 Pyrolysis: …. …. …. …. …. …. …. ….
3.2.5 Biological
method: …. …. …. …. …. ….
3.2.6 Fermentation: …. …. …. ….. ….. ….. ….
3.2.7 Microbial
fuel cell: …. ….. …. …. …. ….
3.3 How
gases produce from waste generates electricity:
3.4 Problems
of power in Nigerian environment: … …
CHAPTER FOUR:
4.0 Waste
to electricity technology: Comparative study
and
application to Nigerian environment: … … …
4.1 Comparative
study of the technologies: … … …
4.2 Applications
to Nigerian environment: … … …
4.3 Waste
to energy plants/industry: … … … …
4.4 Effectiveness/reliability
of the processes: … … …
4.5 Waste as dependable source of electricity
generation
(using Europe as case study): … … … …
CHAPTER
FIVE:
5.0 Summary:… … … … … …
… …
5.1 Conclusion:
… … … … … … … …
5.2 Recommendation:
… … … … … … …
References:
… … … … … … … …
Umoh, J. (2018). WASTES AND SEWAGE AS A SOURCE OF ELECTRICITY GENERATION. Afribary. Retrieved from https://tracking.afribary.com/works/wastes-and-sewage-as-a-source-of-electricity-generation-782
Umoh, Justin "WASTES AND SEWAGE AS A SOURCE OF ELECTRICITY GENERATION" Afribary. Afribary, 29 Jan. 2018, https://tracking.afribary.com/works/wastes-and-sewage-as-a-source-of-electricity-generation-782. Accessed 22 Nov. 2024.
Umoh, Justin . "WASTES AND SEWAGE AS A SOURCE OF ELECTRICITY GENERATION". Afribary, Afribary, 29 Jan. 2018. Web. 22 Nov. 2024. < https://tracking.afribary.com/works/wastes-and-sewage-as-a-source-of-electricity-generation-782 >.
Umoh, Justin . "WASTES AND SEWAGE AS A SOURCE OF ELECTRICITY GENERATION" Afribary (2018). Accessed November 22, 2024. https://tracking.afribary.com/works/wastes-and-sewage-as-a-source-of-electricity-generation-782