Course Name
|
Turkish |
Atık ve Biyokütleden Enerji Üretimi
|
English |
Energy Genetation from Waste and Biomass |
Course Code
|
CBM 553 |
Credit |
Lecture
(hour/week) |
Recitation
(hour/week) |
Laboratory
(hour/week) |
Semester |
-
|
3 |
3 |
- |
- |
Course Language |
Turkish |
Course Coordinator |
Kadir Alp
Hasan Can Okutan
|
Course Objectives |
---This course aims to learn the following topics:
1. Waste and Biomass definitions, characteristics and energy potentials
2. Energy production technologies from waste and biomass by biological and thermal methods,
3. Costs of energy generation techniques from waste and biomass, Waste and Circular economy
|
Course Description |
--Definition of Biomass, View of Energy in the World and in Turkey, Waste Management, Waste and Biomass Characterization Methods; Storage, Preprocessing, RDF, SRF Preparation; Biogas Production; Fermentation (Biogas Production from Industrial Organic Wastes), Landfill-Landfill Gas Production; Bioethanol/Biodiesel Production Techniques; Thermal Methods I; Classification, Combustion/Incineration, Biomass Combustion Model, Combustion Calculations
BAT Technologies, Thermal Methods II – BAT Technologies; Torefaction and Pyrolysis Techniques, Energy Recovery by Thermal Methods; Future of Hydrogen and Carbon Dioxide Technologies; Hydrogen Production, Carbon Dioxide Capture and Use Methods, Technology Selection, Technoeconomic Evaluations, Circular Economy, Waste Gas Cleaning and Control Techniques
|
Course Outcomes |
--Graduate students who successfully complete this course gain knowledge, skills and competence in the following subjects;
I. Students will have information about the potentials of biomass and wastes in our country, and the targets related to such recoverable materials in master plans (information).
II. Students will learn about biological ((compost, RDF, biogas, biomethanol, biodiesel, landfill gas) and thermal conversion processes (torrefaction, incineration, co-incineration, pyrolysis, gasification), CO2 and Hydrogen technologies used for energy recovery. They will be able to make calculations of basic reactions in the design of systems, will have information about energy recovery and basic applications of this energy (combined cycle, cogeneration) and circular economy (information).
III. In this course, students will have information about the wastes of thermal conversion techniques, management and control of these wastes, and will use this knowledge (skill) in solving environmental engineering problems.
IV.Students will learn to communicate well with their colleagues in other engineering fields in the evaluation of thermal systems for utilizing the energies of biomass and wastes, to prepare presentations and write reviews about these processes (communication and social competence). |
Pre-requisite(s) |
-- |
Required Facilities |
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Other |
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Textbook |
-- |
Other References |
[1] E. Dahlquist, Technologies for Converting Biomass to Useful Energy, 2013.
[2] J.M. Jones, A.R. Lea-Langton, L. Ma, M. Pourkashanian and A. Williams, Pollutants Generated by the Combustion of Solid Biomass Fuels, 2014.
[3] E.L. Keating, Applied combustion, Mech. Eng. (2007), pp. xviii, 657 p.
[4] OECD/IEA & FAO, How2Guide for Bioenergy Roadmap Development and Implementation, IEA Publ. (2017), pp. 78.
[5] Technology roadmap: bioenergy for heat and power, Manag. Environ. Qual. An Int. J. 24 (2012), pp. meq.2013.08324aaa.005.
[6] Ooredoo, Annual Report 2017, (2017), .
[7] Pandey. A, Recent Advances In Thermochemical Conversion Of Biomass
8. C. Higman,M. Van Der Burgt, Gasification,Second Edition, GPP, 2007
9. K.Liu,C.Song,V.Subramani, Hydrogen and Syngas Production and Purification Technologies,Wiley,2010
10. D.Deublein,A.Steinhauser, Biogas From Waste and Renewable Resources, Wiley-VCH,2011
11. Best Available Techniques Reference Document On Waste Incineration
12. S.Capareda, Biomass Energy Conversions, CRC Press Taylor&Francis Group,2014
13. J. Cheng, Biomass Renewable Energy Processes, Second Edition, CRC Press Taylor&Francis Group, 2018 |
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