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

The ICTQual Level 6 Diploma in Civil Engineering (360 Credits) is a comprehensive program designed to prepare future civil engineers with the skills and knowledge needed to thrive in the construction and infrastructure sectors. Originally structured as a three-year course, this qualification has been condensed into an accelerated two-year format, offering a fast-tracked pathway to success.

Civil engineering is at the heart of modern development, shaping the world through infrastructure projects, urban planning, and sustainable construction. The ICTQual Level 6 Diploma equips learners with the theoretical understanding and practical expertise to handle complex engineering challenges.

This program is ideal for aspiring civil engineers who want to accelerate their education and enter the workforce faster. It suits recent high school graduates, mid-career professionals seeking a career shift, or anyone passionate about shaping the future of infrastructure.

Take the first step toward a dynamic and fulfilling career in civil engineering. The ICTQual Level 6 Diploma in Civil Engineering (360 Credits) offers a blend of rigorous academics, practical training, and accelerated learning, making it a top choice for ambitious learners.

Study Units

Year 1: Foundation and Core Engineering Concepts (120 Credits)

• Introduction to Civil Engineering
• Mathematics for Engineers
• Engineering Mechanics
• Construction Materials
• Surveying and Measurement
• Environmental Science for Engineers
• Technical Drawing and CAD
• Hydraulics and Fluid Mechanics
• Geology and Soil Mechanics
• Health and Safety in Construction
• Construction Methods and Technologies
• Communication and Professional Skills

Year 2: Advanced Engineering Topics and Specializations (120 Credits)

• Structural Analysis and Design
• Geotechnical Engineering
• Transportation Engineering
• Water Resources Engineering
• Building Information Modeling (BIM)
• Advanced Surveying and GPS Technologies
• Steel and Concrete Structures
• Sustainable Construction Practices
• Highway Design and Maintenance
• Construction Contracts and Law
• Project Planning and Management
• Engineering Economics

Year 3: Professional Practice, Innovation, and Capstone Projects (120 Credits)

• Professional Ethics and Responsibilities in Civil Engineering
• Advanced Structural Engineering Applications
• Bridge Design and Construction Management
• Foundation Engineering for Complex Projects
• Urban Infrastructure Planning and Development
• Earthquake-Resistant Structural Design
• Construction Site Management and Supervision
• Environmental Impact Assessment for Civil Projects
• Risk Assessment and Mitigation in Construction Projects
• Entrepreneurship and Leadership in Civil Engineering
• Smart Cities and Sustainable Infrastructure
• Capstone Project (Professional Practice)

Learning Outcomes

Below are the learning outcomes for each of the study units in the ICTQual Level 6 Diploma in Civil Engineering program:

Year 1: Foundation and Core Engineering Concepts (120 Credits)

Engineering Principles and Practices

• Understand the fundamental principles of civil engineering, including key construction methods and materials.
• Demonstrate knowledge of the role of civil engineers in various stages of project delivery, from conception to completion.

Structural Analysis and Design

• Apply basic structural analysis techniques to simple civil engineering systems, considering forces, moments, and load distributions.
• Design basic structural elements such as beams and columns using fundamental engineering principles.

Mathematics for Civil Engineering

• Utilize advanced mathematical methods, including calculus and algebra, to solve engineering problems related to civil engineering design and analysis.
• Apply mathematical models to real-world engineering scenarios such as material strength and fluid dynamics.

Materials Science and Technology

• Identify and understand the properties and applications of various construction materials such as concrete, steel, and polymers.
• Evaluate the behavior of materials under different loading and environmental conditions to inform design choices.

Geotechnical Engineering

• Understand the basic principles of soil mechanics and their application to foundation design and soil-structure interaction.
• Analyze the behavior of soils under various loading conditions, and interpret results from geotechnical investigations.

Surveying and Measurement Techniques

• Demonstrate proficiency in surveying techniques such as distance measurement, leveling, and angular measurement.
• Apply surveying tools and methods to generate accurate measurements for civil engineering projects.

Building Information Modeling (BIM)

• Understand the principles and applications of Building Information Modeling (BIM) in civil engineering.
• Use BIM software to model and visualize construction projects, supporting the design and coordination process.

Environmental Engineering and Sustainability

• Analyze environmental challenges related to civil engineering, such as waste management and pollution control.
• Understand the importance of sustainability in construction and how to integrate sustainable practices into engineering design.

Project Management Fundamentals

• Develop an understanding of project management principles, including project scheduling, cost estimation, and resource allocation.
• Learn how to apply project management tools and techniques in civil engineering projects.

Health, Safety, and Legal Aspects in Civil Engineering

• Understand the key health, safety, and legal considerations in civil engineering, including regulations, ethics, and professional standards.
• Apply safety management practices to mitigate risks in construction and engineering environments.

Year 2: Advanced Engineering Topics and Specializations (120 Credits)

Advanced Structural Analysis and Design

• Apply advanced structural analysis techniques to more complex structures such as multi-story buildings and bridges.
• Design complex structural elements using reinforced concrete and steel, considering both serviceability and safety.

Advanced Geotechnical Engineering

• Evaluate and apply advanced soil mechanics principles to large-scale geotechnical projects, including deep foundations and retaining structures.
• Analyze complex soil-structure interactions and assess the stability of geotechnical systems under varying conditions.

Hydraulics and Fluid Mechanics

• Understand and apply fluid dynamics principles in the design of hydraulic systems, including water distribution and drainage.
• Solve complex problems involving the flow of fluids through pipes, open channels, and structures.

Transportation Engineering

• Design and plan transportation infrastructure systems such as roads, highways, and railway systems.
• Analyze traffic flow, safety issues, and environmental impact in transportation engineering.

Environmental Impact Assessment

• Understand and conduct environmental impact assessments (EIA) for civil engineering projects.
• Develop strategies for mitigating negative environmental impacts and promoting sustainability in construction.

Construction Materials and Technology

• Understand the properties and use of advanced construction materials such as high-strength concrete, composites, and sustainable alternatives.
• Evaluate new technologies in construction materials that improve performance, reduce costs, or promote sustainability.

Structural Steel Design

• Design structural steel components such as beams, columns, and frames using advanced design principles and safety factors.
• Understand the behavior of steel structures under various loading conditions and apply appropriate design codes.

Water Resources Engineering

• Apply principles of hydrology and hydraulics to the design and management of water resources systems, including reservoirs, canals, and flood control systems.
• Design sustainable water distribution systems and stormwater management systems to protect urban infrastructure.

Advanced Project Management and Contracting

• Develop advanced project management skills, including managing contracts, risk assessment, and quality control for large-scale civil engineering projects.
• Apply knowledge of procurement processes and construction law to effectively manage engineering projects.

Research Methodology in Civil Engineering

• Learn research methods relevant to civil engineering, including data collection, analysis, and interpretation.
• Develop critical thinking and problem-solving skills in order to conduct independent research and produce technical reports.

Year 3: Professional Practice, Innovation, and Capstone Projects (120 Credits)

Structural Design for Complex Systems

• Apply advanced design techniques to complex structural systems such as multi-storey buildings, bridges, and infrastructure projects.
• Ensure safety, efficiency, and cost-effectiveness in the design of large-scale structures.

Geotechnical Engineering for Large Projects

• Analyze and design foundations for large infrastructure projects, including bridges, tunnels, and high-rise buildings.
• Use advanced techniques to evaluate soil conditions and their impact on large-scale geotechnical projects.

Advanced Environmental Engineering

• Address advanced environmental issues in civil engineering, focusing on sustainable construction practices, energy efficiency, and pollution reduction.
• Design environmentally responsible systems and solutions for civil engineering projects.

Smart Cities and Urban Engineering

• Understand the principles of smart cities and their infrastructure, focusing on data integration, sustainable design, and technology-driven solutions.
• Design urban infrastructure that supports the integration of new technologies to improve urban living conditions.

Sustainable Infrastructure and Renewable Energy

• Analyze and design infrastructure systems that integrate renewable energy sources and promote environmental sustainability.
• Apply sustainable practices in the planning, design, and construction of energy-efficient infrastructure projects.

Advanced Hydraulics and Drainage Systems

• Design advanced drainage systems for flood control, stormwater management, and environmental protection.
• Apply hydraulic principles to design systems that ensure efficient water flow and management in urban areas.

Risk Management and Safety Engineering

• Understand and apply risk management techniques to mitigate hazards in civil engineering projects.
• Develop safety protocols and strategies to manage risk during the construction phase of projects.

Engineering Innovations and Emerging Technologies

• Explore emerging technologies in civil engineering, such as robotics, automation, and artificial intelligence, and their potential impact on the industry.
• Innovate new solutions to engineering challenges using cutting-edge technology.

Capstone Project – Civil Engineering Design

• Apply all acquired knowledge to a significant engineering design project, demonstrating problem-solving skills and the ability to work within constraints.
• Produce a professional-quality final report and presentation that reflects your design and research process.

Professional Development and Ethics

• Develop professional and leadership skills necessary for a successful career in civil engineering, including communication, teamwork, and ethical decision-making.
• Understand the role of ethics and professional responsibility in civil engineering practice.