At the end of this course, the students; 1) Solves problems in the field of Energy Systems Engineering by using the acquired knowledge of mathematics, science and engineering. 2) Completes the necessary information with scientific methods using the data they have. 3) Designs theoretical and applied research in the field by developing original ideas and methods. 4) Develop and apply innovative methods to solve problems related to Energy Systems Engineering by following the scientific studies in its field.
MODE OF DELIVERY
Face to face
PRE-REQUISITES OF THE COURSE
No
RECOMMENDED OPTIONAL PROGRAMME COMPONENT
COURSE DEFINITION
Atık kaynakları, miktarları ve kompozisyonu; Kentsel, tıbbi, tehlikeli ve yıkıntı atıkların yönetimi; Çeşitli atıklar için geri dönüşüm teknolojileri
COURSE CONTENTS
WEEK
TOPICS
1st Week
What is waste, types of waste, damages of waste, waste disposal methods
2nd Week
Provincial solid waste management system, legislation on solid waste management
3rd Week
Waste recovery technologies and equipment
4th Week
Incineration technologies
5th Week
Energy storage technologies
6th Week
Biogas, pyrolysis and plasma technology
7th Week
Cleaning waste incineration emissions
8th Week
Cleaning waste incineration emissions:
9th Week
The effect of waste disposal on environmental pollution and greenhouse gas
10th Week
Use of energy from waste
11th Week
Economic analysis of solid waste disposal and energy production
12th Week
Environmental analysis of solid waste disposal and energy production
13th Week
The importance of solid waste disposal in sustainable development
14th Week
The importance of solid waste disposal in sustainable development
RECOMENDED OR REQUIRED READING
1. Thomas H. Christensen, (2017), Katı Atık Yönetimi ve Teknolojileri, Nobel Akademik Yayıncılık 2. Ulrich Wiegel , Martin Steiner, (2009), Katı Atık Yönetimi Atık Yönetiminin Temellerine Yönelik Rehber Kitap, Efil Yayınevi yayınları 3. B Koziorowski; J Kucharski, (1972), Industrial Waste Disposal, Pergamon Press
