Environmental Sustainability Programs
Environmental sustainability is a pressing global challenge that demands urgent action. Our programs and courses explore clean water, land degradation, and climate action through fieldwork and problem-based learning. By combining theory with practical skills, students learn to analyze, debate, and develop solutions to real-world environmental issues.
Environmental Sustainability Programs:
- BA in Energy & Environmental Engineering
- BA in Planning Engineering and City Technology
- BA in Architectural Engineering
- BA in Civil Engineering
- BA in Agricultural Engineering
- MSc in Clean Energy Conservation Engineering
- MSc in Water & Environmental Engineering
- MSc in Environmental Sciences
- MSc in Disaster Risk Management
- MSc in Nutrition and Food Technology
- MSc in Profitable Agribusiness
- MSc in Geomatics
- MSc in Sustainability and Building Technology
- MSc in Sustainable Engineering in Production
- PhD in Sustainable Energy Technology
Example of Environmental Sustainability Courses:
|
Course Name |
Course Description |
Credit Hours |
|
Air Pollution Control |
Covers air pollution sources, measurement techniques, and mitigation technologies. |
3 |
|
Environment Social Impact Assessment |
Evaluates environmental and social effects of development projects, emphasizing planning and mitigation. |
3 |
|
Environmental Chemistry |
This course applies chemistry concepts to environmental issues, focusing on air pollution, pollutant types, purification, disposal methods, pollution detection, and sample analysis. |
3 |
|
Environ't Planning & Impact Analysis |
Focuses on environmental assessment, air and water quality, and sustainable urban planning. |
3 |
|
Air Pollution |
Examines air pollutants, their impact, regulatory frameworks, dispersion modeling, and mitigation strategies through case studies. |
3 |
|
Buildings and Climate Change Mitigation |
Explores passive design, emission reduction, and sustainable building practices. |
3 |
|
Chemical Pollution & Industrial Saftey |
Addresses chemical and radiological pollutants, monitoring techniques, and industrial safety measures. |
3 |
|
Climate Change Mitigation for Buildings |
Addresses energy-efficient buildings, renewable integration, and climate resilience strategies. |
3 |
|
Climate Change Risk Mitigration and Adaption |
Covers climate change science, risk assessment, adaptation strategies, renewable energy, and extreme weather impacts. |
3 |
|
Climatology |
Explores climatic models, climate classification, and applied research in climate science. |
3 |
|
Coastal Management |
Explores marine ecosystems, pollution risks, resource conservation, and legal frameworks. |
3 |
|
Ecology |
Introduces ecological principles, ecosystem interdependencies, and environmental sustainability. |
2 |
|
Energy & Environment |
Explores energy generation’s environmental impact and sustainable energy solutions. |
3 |
|
Enviromental Chemistry |
Examines chemistry in natural and polluted environments, focusing on air, water, and soil contamination and treatment. |
3 |
|
Environment Impact Assessment |
Introduces EIA processes, regulations, and methods for assessing development projects. |
3 |
|
Environment Preservation |
Examines human-environment interactions, pollution, resource depletion, and sustainable solutions. |
3 |
|
Environmental Engineering |
Covers pollutants, their control, and prevention. Topics include environmental chemistry, microbiology, water purification, wastewater treatment, and air pollution management. |
3 |
|
Environmental Impact Assesment |
Introduces EIA principles, assessing environmental impacts of projects, policies, and energy systems, with hands-on case studies. |
3 |
|
Environmental Law |
Covers regulations for pollution control, environmental protection, and sustainability policies. |
3 |
|
Environmental Legislations & Town Planning Law |
Discusses environmental laws, pollution control, water management, and urban planning regulations. |
3 |
|
Environmental Science |
Examines human-environment relationships, pollution impacts, and policy-driven environmental solutions. |
3 |
|
Indoor Environmental Quality |
Studies pollutants in indoor spaces, ventilation, air quality control, and health impacts. |
3 |
|
Industrial Pollution Control |
Analyzes industrial waste treatment for petrochemicals, energy production, and manufacturing industries. |
3 |
|
Introduction to Environmental Design |
Explores environmental design across architecture, urban planning, and sustainability disciplines. |
2 |
|
Microclimate and Environmental Design |
Analyzes how urban environments affect climate and how design can enhance sustainability. |
3 |
|
Pollution and Risk Management |
Covers pollution sources, monitoring, purification, and safety measures for hazardous chemicals. |
3 |
|
Principles of Climate |
Studies climatology, meteorology, and atmospheric influences on environmental conditions. |
3 |
|
Solid Wastes Processing |
Covers waste sources, composition, handling (collection, storage, transportation), and disposal methods, including recycling, incineration, and landfills. |
3 |
|
Sustainable Architecture |
Focuses on passive design, renewable energy, green materials, and energy-efficient building techniques. |
3 |
|
Sustainable Waste Management and Disposal |
Focuses on circular economy waste management, emphasizing reduction, recycling, and energy recovery. |
3 |
|
Urban Environment Management |
Studies urban sustainability, disaster resilience, land use conflicts, and environmental quality in cities. |
3 |
|
Waste Management |
Examines solid waste generation, collection, sorting, recycling, and disposal methods. |
3 |
|
Water and Waste Water Treatment |
Explores water sources, treatment processes (coagulation, filtration, disinfection, desalination), and advanced purification techniques. |
3 |
|
Water Treatment Chemistry |
Explores chemical processes in water treatment, focusing on purification and quality management. |
3 |