ICTQual Level 6 Diploma in Environmental Engineering 360 Credits – Three Years

Engineering Solutions for a Healthier and Safer World.

ATTICS International is Directly Approved Centre of ICTQual AB

Course Overview

The ICTQual Level 6 Diploma in Environmental Engineering (360 Credits – Three Years) is a comprehensive qualification designed to develop advanced knowledge and practical skills needed to address today’s environmental challenges. This program provides in-depth training in environmental protection, water and wastewater treatment, air pollution control, waste management, environmental impact assessment, and sustainable infrastructure development. By combining scientific principles with engineering solutions, the diploma prepares learners to design and implement systems that protect natural resources and promote environmental sustainability.

Over the three-year duration, students gain industry-relevant competencies aligned with global environmental standards and sustainable development goals. Graduates develop the ability to manage environmental risks, ensure regulatory compliance, and implement eco-friendly engineering practices across industrial and infrastructure projects. This qualification supports career progression into roles such as environmental engineer, sustainability officer, waste management specialist, environmental compliance officer, or water treatment technician, and also provides a pathway to higher education and professional advancement in the environmental engineering sector.

Course Structure

This is a three-year diploma program designed to build comprehensive Environmental Engineering knowledge and practical skills.

  • Total Credits: 360
  • Total Study Units: 36
  • Credits per Year: 120
  • Units per Year: 12

Study Units

  1. Introduction to Environmental Engineering
  2. Environmental Science Principles
  3. Basics of Environmental Chemistry
  4. Introduction to Renewable Energy Systems
  5. Mathematics for Environmental Engineers
  6. Engineering Mechanics and Materials
  7. Introduction to Fluid Mechanics
  8. Pollution Control and Prevention
  9. Environmental Regulations and Standards
  10. Soil Science and Geotechnical Engineering
  11. Introduction to Sustainable Development
  12. Communication Skills for Engineers
  1. Advanced Water Supply and Wastewater Treatment
  2. Air Pollution Control and Management
  3. Waste Management and Recycling Techniques
  4. Hydrology and Water Resources Management
  5. Advanced Renewable Energy Technologies
  6. Environmental Impact Assessment (EIA)
  7. Risk Management in Environmental Engineering
  8. Environmental Economics and Policy
  9. Sustainable Infrastructure and Urban Planning
  10. Climate Change and Environmental Adaptation
  11. Environmental Data Collection and Analysis
  12. Environmental Project Management
  1. Sustainable Resource Management
  2. Advanced Environmental Chemistry
  3. Energy Efficiency and Green Technologies
  4. Environmental Monitoring and Data Systems
  5. Life Cycle Assessment and Eco-Design
  6. Green Building and Construction Techniques
  7. Environmental Biotechnology
  8. Environmental Law and Ethics
  9. Research Methodology in Environmental Engineering
  10. Environmental Engineering Design Projects
  11. Industrial Internship in Environmental Engineering
  12. Research Project and Dissertation

Learning Outcomes

Learning outcomes are clear statements that describe what a learner is expected to know, understand, and be able to do after completing a course or training program.

They define the specific skills, knowledge, and competencies students will gain and demonstrate upon successful completion.

Year 1: Foundations of Environmental Engineering

  1. Introduction to Environmental Engineering
    • Understand the fundamental concepts and scope of environmental engineering.
    • Explain the role of environmental engineers in solving global environmental issues.
  2. Environmental Science Principles
    • Demonstrate knowledge of key environmental science concepts and their applications in engineering.
    • Assess the interaction between human activities and environmental systems.
  3. Basics of Environmental Chemistry
    • Understand the chemical processes that impact environmental systems.
    • Identify pollutants and their effects on air, water, and soil quality.
  4. Introduction to Renewable Energy Systems
    • Gain an overview of renewable energy technologies, including solar, wind, and biomass.
    • Evaluate the environmental benefits and challenges of renewable energy sources.
  5. Mathematics for Environmental Engineers
    • Apply mathematical principles to solve engineering problems related to environmental systems.
    • Develop proficiency in calculations involving fluid dynamics, pollution control, and energy efficiency.
  6. Engineering Mechanics and Materials
    • Understand the principles of engineering mechanics in the context of environmental engineering.
    • Identify materials used in environmental engineering and their properties.
  7. Introduction to Fluid Mechanics
    • Grasp basic concepts in fluid mechanics, including flow, pressure, and velocity.
    • Apply fluid dynamics principles to environmental engineering problems such as water treatment and waste management.
  8. Pollution Control and Prevention
    • Identify various types of pollution and their sources.
    • Propose engineering solutions for the prevention and control of pollution in different environmental contexts.
  9. Environmental Regulations and Standards
    • Understand environmental laws and regulations at national and international levels.
    • Evaluate how these regulations impact environmental engineering practices.
  10. Soil Science and Geotechnical Engineering
  • Gain knowledge of soil properties and their significance in environmental engineering.
  • Analyze soil contamination and remediation techniques.
  1. Introduction to Sustainable Development
  • Define sustainable development and its importance in environmental engineering.
  • Identify practices that promote sustainability in engineering projects.
  1. Communication Skills for Engineers
  • Develop effective communication skills for technical writing, presentations, and teamwork in engineering contexts.
  • Present complex environmental engineering concepts clearly and concisely.

Year 2: Specialized Environmental Engineering Topics

13.Advanced Water Supply and Wastewater Treatment

  • Understand advanced techniques in water purification, treatment, and distribution.
  • Design and evaluate wastewater treatment systems for environmental sustainability.
  1. Air Pollution Control and Management
  • Identify sources of air pollution and their environmental impacts.
  • Develop strategies for air quality monitoring and pollution control.
  1. Waste Management and Recycling Techniques
  • Analyze waste management practices and recycling technologies.
  • Design sustainable waste management systems for urban and industrial applications.
  1. Hydrology and Water Resources Management
  • Apply hydrological principles to manage water resources efficiently.
  • Design systems for water conservation and sustainable usage.
  1. Advanced Renewable Energy Technologies
  • Analyze and evaluate emerging renewable energy technologies.
  • Develop engineering solutions for integrating renewable energy systems into the existing infrastructure.
  1. Environmental Impact Assessment (EIA)
  • Conduct environmental impact assessments for engineering projects.
  • Identify potential environmental impacts and propose mitigation strategies.
  1. Risk Management in Environmental Engineering
  • Apply risk management strategies to assess and minimize environmental risks.
  • Develop risk assessment models for environmental engineering projects.
  1. Environmental Economics and Policy
  • Understand the economic aspects of environmental issues and sustainability.
  • Analyze policies and their impact on environmental engineering practices.
  1. Sustainable Infrastructure and Urban Planning
  • Design and evaluate infrastructure projects with a focus on sustainability.
  • Integrate sustainable urban planning principles in engineering solutions.
  1. Climate Change and Environmental Adaptation
  • Examine the impacts of climate change on environmental systems.
  • Develop engineering strategies for adaptation to climate change challenges.
  1. Environmental Data Collection and Analysis
  • Gather and analyze environmental data for decision-making in engineering projects.
  • Use software tools and methodologies to interpret environmental data effectively.
  1. Environmental Project Management

Develop project management skills, including budgeting, timelines, and team coordination.

Manage environmental engineering projects from planning to execution.

Year 3: Advanced Studies and Practical Applications

25.Sustainable Resource Management

  • Understand principles of sustainable resource use and conservation.
  • Design systems for efficient management of natural resources.
  1. Advanced Environmental Chemistry
  • Apply advanced chemical principles to address complex environmental challenges.
  • Analyze the chemical processes involved in pollutant degradation and treatment.
  1. Energy Efficiency and Green Technologies
  • Design and implement energy-efficient systems and green technologies.
  • Analyze the role of energy efficiency in reducing environmental impacts.
  1. Environmental Monitoring and Data Systems
  • Develop and implement systems for monitoring environmental parameters.
  • Use advanced technologies for environmental data collection and analysis.
  1. Life Cycle Assessment and Eco-Design
  • Conduct life cycle assessments to evaluate the environmental impacts of products and processes.
  • Apply eco-design principles to create environmentally friendly products and systems.
  1. Green Building and Construction Techniques
  • Understand sustainable construction methods and green building standards.
  • Design and implement energy-efficient and environmentally sustainable buildings.
  1. Environmental Biotechnology
  • Explore the use of biotechnology in environmental engineering applications.
  • Analyze the role of bioremediation and microbial technologies in environmental cleanup.
  1. Environmental Law and Ethics
  • Understand the legal and ethical considerations in environmental engineering.
  • Evaluate the role of laws in regulating environmental protection and engineering practices.
  1. Research Methodology in Environmental Engineering
  • Develop skills in research design and methodology specific to environmental engineering.
  • Conduct scientific research and analysis in environmental engineering topics.
  1. Environmental Engineering Design Projects
  • Apply engineering principles to design sustainable environmental systems and solutions.
  • Work on complex design projects addressing real-world environmental issues.
  1. Industrial Internship in Environmental Engineering
  • Gain hands-on experience through an industrial internship.
  • Apply theoretical knowledge to practical environmental engineering tasks in the workplace.
  1. Research Project and Dissertation
  • Present findings in a comprehensive dissertation that demonstrates critical thinking and research skills.
  • Conduct independent research on a selected environmental engineering topic.

Certification Route

This qualification offers two flexible pathways for certification.

Route 1: New Learners (No Experience)

Enrollment & Training
Learners must enroll with an ICTQual Approved Training Centre and complete all required study units. Training includes both theoretical instruction and practical activities.

Assessment
Learners are required to complete and submit assignments based on the course learning outcomes. These assessments evaluate understanding and the ability to apply environmental engineering concepts in practical situations.

Certification
After successfully completing all assignments and assessments, learners will be awarded the ICTQual Level 6 Diploma in Environmental Engineering (360 Credits – Three Years).

Route 2: Experienced & Competent Candidates

Eligibility
Candidates must have a minimum of 6 years of verified experience in environmental engineering or a related technical field relevant to the qualification.

Competence Assessment
The ICTQual Approved Training Centre will assess the candidate’s existing knowledge and skills to ensure they meet the course learning outcomes.

Evidence Submission
Candidates must provide documented evidence of work experience, including job roles, responsibilities, and tasks demonstrating competence in required areas.

Knowledge Verification
Centres will confirm familiarity with all learning outcomes. If gaps are identified, a skills gap assessment or additional learning may be required.

Certification
Upon successful verification of competence and experience, candidates will be awarded the ICTQual Level 6 Diploma in Environmental Engineering (360 Credits – Three Years) without completing the full training program.

Certification Benefits

ICTQual Level 6 Diploma in Environmental Engineering (360 Credits – Three Years)

  • International Recognition – A globally respected qualification that enhances professional credibility and career mobility.
  • British Council Verifiable – Confirms authenticity and strengthens international acceptance.
  • MOFA & Embassy Attestable – Suitable for overseas employment and official documentation requirements.
  • Supports Iqama & Work Visa Approval – Helps meet employment and residency requirements in Gulf countries.
  • Growing Global Demand – Opens opportunities in environmental protection, sustainability, water treatment, waste management, and infrastructure projects.
  • Industry-Relevant Skills – Develops practical expertise in environmental compliance, pollution control, and sustainable engineering practices.
  • Career Advancement – Supports progression into supervisory, consultancy, and environmental management roles.
  • Supports Sustainable Development Goals (SDGs) – Prepares professionals to contribute to environmental protection and sustainable growth.
  • Pathway to Higher Education – Enables further studies and specialization in environmental and sustainability fields.
  • Professional Recognition – Demonstrates competence in environmental engineering and commitment to sustainable practices.

This certification enhances global career prospects while supporting environmental responsibility and professional advancement.

Course Details

  • Duration: 4 to 36 Months
  • Mode: Online and incampus
  • Assessments: Assignments and work based

Get in Touch

+92-333-0106324
engineering@atticsintl.com

Course Eligibility

Learners should meet the following entry requirements:

  • A Level 5 qualification or relevant diploma in environmental science, engineering, or a related technical field is recommended.
  • Relevant work experience in environmental, engineering, or technical fields (preferred but not mandatory).
  • Ability to communicate in English (reading and speaking)

Course Fee

150k PKR / 450G BP / 600 USD

FAQs

Yes, the diploma is suitable for new learners and also offers a competency-based route for experienced professionals.

Yes, the qualification is internationally recognized and British Council verifiable, enhancing global acceptance.

Yes, it is MOFA and Embassy attestable, making it suitable for international job and legal documentation requirements.

Yes, it supports employment opportunities and documentation requirements such as Iqama and work visa approvals.

Graduates can work as environmental engineers, sustainability officers, environmental compliance specialists, waste management professionals, or water treatment technicians.

Yes, candidates with at least 6 years of relevant experience may qualify through a competency assessment route.

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