ICTQual Level 5 Diploma in Chemical Engineering 240 Credits – Two Years

The ICTQual Level 5 Diploma in Chemical Engineering is a comprehensive two-year program designed to provide students with the essential skills and knowledge required for a successful career in chemical engineering. With a total of 240 credits, this course offers a robust foundation for individuals looking to advance in this dynamic and ever-evolving field.

Chemical engineering is at the heart of industries like pharmaceuticals, energy, food processing, and materials manufacturing. This diploma equips students with the technical expertise, problem-solving skills, and innovative mindset needed to thrive in these sectors. The program covers key topics such as process engineering, thermodynamics, fluid mechanics, chemical reaction engineering, and safety management.

Applicants must have a minimum of high school education in science subjects, particularly chemistry, physics, and mathematics. Some programs may also require an entrance assessment or prior work experience in a related field.

The ICTQual Level 5 Diploma in Chemical Engineering offers a perfect blend of theory and practice, providing students with the tools they need to excel in the chemical engineering industry. With its two-year structure and 240 credits, this program is an excellent choice for aspiring engineers looking to make a meaningful impact in the field.

Course overview

Level 5 Diploma in Chemical Engineering 240 Credits – Two Years

The entry requirements for the ICTQual Level 5 Diploma in Chemical Engineering (240 Credits – Two Year) may vary depending on the institution offering the program. However, typical entry requirements for this course include:

  • Educational Qualifications: Applicants must hold a Level 4 qualification, such as a diploma, certificate, or equivalent, in a related field. A background in subjects like chemistry, physics, mathematics, or engineering is highly recommended, as the course builds on foundational concepts in chemical engineering.
  • Age Requirement: Candidates must be at least 18 years old to enroll in the program, ensuring they possess the maturity to manage the academic and practical aspects of the course.
  • English Proficiency: Proficiency in English is essential, as students must navigate technical terminology, submit written assignments, and communicate effectively within the chemical engineering domain.
  • Technical Skills: Basic computer skills are required, as the program involves assignments, simulations, and the use of engineering software for process design and analysis.
  • Relevant Experience (Optional): While not mandatory, prior exposure to chemical engineering concepts, laboratory practices, or industrial processes can provide an added advantage, enhancing understanding and overall performance in the program.

Year 1 (120 Credits)

Semester 1

  1. Introduction to Chemical Engineering Principles
  2. Engineering Mathematics and Statistics
  3. Material and Energy Balances
  4. Thermodynamics
  5. Chemistry for Engineers
  6. Fluid Mechanics

Semester 2

  1. Heat Transfer Processes
  2. Chemical Process Industries
  3. Mechanical Properties of Materials
  4. Laboratory Skills and Safety
  5. Environmental Science and Sustainability
  6. Technical Communication and Report Writing

Year 2 (120 Credits)

Semester 1

  1. Advanced Thermodynamics
  2. Advance Fluid Mechanics
  3. Process Control and Instrumentation
  4. Chemical Reaction Engineering
  5. Separation Processes
  6. Industrial Health and Safety Management

Semester 2

  1. Chemical Process Design and Simulation
  2. Advanced Separation Processes
  3. Energy Systems and Renewable Technologies
  4. Advance Chemical Reaction Engineering
  5. Industrial Project Management
  6. Research Project in Chemical Engineering

Here are the Learning Outcomes for each study unit in the ICTQual Level 5 Diploma in Chemical Engineering (240 Credits – Two Year):

Year 1 (120 Credits)

Semester 1

Introduction to Chemical Engineering Principles

  • Understand the role of chemical engineering in industrial processes.
  • Analyze basic principles such as mass transfer, fluid flow, and heat exchange.
  • Apply fundamental engineering concepts to solve chemical process problems.

Engineering Mathematics and Statistics

  • Utilize advanced mathematical techniques for engineering problem-solving.
  • Interpret statistical data relevant to chemical processes.
  • Develop mathematical models for process simulations.

Material and Energy Balances

  • Perform mass and energy balance calculations for chemical systems.
  • Evaluate process efficiency and resource utilization.
  • Apply conservation principles to real-world chemical engineering scenarios.

Thermodynamics

  • Explain thermodynamic principles related to energy and material transformations.
  • Solve problems involving the first and second laws of thermodynamics.
  • Analyze phase equilibrium and thermodynamic properties of substances.

Chemistry for Engineers

  • Understand the chemical principles underpinning engineering processes.
  • Analyze chemical reactions, stoichiometry, and kinetics.
  • Evaluate the behavior of materials in various chemical environments.

Fluid Mechanics

  • Explain fluid properties and their impact on process systems.
  • Design and analyze fluid flow systems using Bernoulli’s equation and other principles.
  • Solve engineering problems involving pumps, turbines, and pipe networks.

Semester 2

Heat Transfer Processes

  • Understand conduction, convection, and radiation heat transfer mechanisms.
  • Design and analyze heat exchangers for industrial applications.
  • Evaluate thermal efficiency and optimize heat transfer systems.

Chemical Process Industries

  • Analyze key chemical industries, including petrochemical, pharmaceutical, and food processing.
  • Evaluate industrial processes from raw material to final product.
  • Understand economic and environmental factors in chemical production.

Mechanical Properties of Materials

  • Understand material behavior under stress, strain, and temperature variations.
  • Evaluate materials for use in chemical engineering applications.
  • Analyze failure modes and select appropriate materials for specific processes.

Laboratory Skills and Safety

  • Develop practical laboratory skills for chemical analysis and engineering experiments.
  • Follow safety protocols and risk assessments in laboratory environments.
  • Accurately record, analyze, and interpret experimental data.

Environmental Science and Sustainability

  • Understand environmental impacts of chemical engineering processes.
  • Develop sustainable engineering solutions for waste management and energy efficiency.
  • Analyze regulatory requirements for environmental protection.

Technical Communication and Report Writing

  • Develop technical writing skills for clear and concise communication.
  • Prepare comprehensive engineering reports and documentation.
  • Present technical findings effectively to varied audiences.

Year 2 (120 Credits)

Semester 1

Advanced Thermodynamics

  • Analyze advanced thermodynamic cycles and systems.
  • Solve complex problems involving multi-phase and non-ideal systems.
  • Apply thermodynamic principles to optimize industrial processes.

Advanced Fluid Mechanics

  • Understand advanced concepts in fluid dynamics, including turbulence and compressible flow.
  • Design and optimize fluid transport systems.
  • Use computational tools to model fluid behavior in engineering systems.

Process Control and Instrumentation

  • Understand process control principles, including feedback and feedforward systems.
  • Design control strategies for industrial chemical processes.
  • Use modern instrumentation and sensors for process monitoring.

Chemical Reaction Engineering

  • Analyze reaction kinetics and reactor design.
  • Optimize chemical reactors for efficiency and safety.
  • Apply modeling techniques to scale up chemical reactions from lab to industry.

Separation Processes

  • Understand principles of separation techniques such as distillation, filtration, and chromatography.
  • Design and evaluate industrial separation systems.
  • Optimize separation processes for cost and energy efficiency.

Industrial Health and Safety Management

  • Analyze risks associated with chemical engineering processes.
  • Develop safety management plans and emergency protocols.
  • Ensure compliance with health and safety regulations in industrial environments.

Semester 2

Chemical Process Design and Simulation

  • Use simulation tools to design and analyze chemical processes.
  • Develop process flow diagrams and identify optimization opportunities.
  • Evaluate the economic feasibility of chemical process designs.

Advanced Separation Processes

  • Understand complex separation techniques, including membrane processes and crystallization.
  • Design advanced systems for high-purity product requirements.
  • Evaluate environmental impacts of separation technologies.

Energy Systems and Renewable Technologies

  • Analyze energy systems and their applications in chemical engineering.
  • Develop solutions using renewable energy technologies in process industries.
  • Evaluate energy efficiency and sustainability in industrial processes.

Advanced Chemical Reaction Engineering

  • Explore complex reaction mechanisms and multi-reaction systems.
  • Optimize catalytic and non-catalytic reactions in industrial reactors.
  • Apply computational tools to model reaction engineering systems.

Industrial Project Management

  • Plan, execute, and monitor industrial engineering projects.
  • Apply project management tools and techniques to chemical process industries.
  • Ensure projects are completed on time, within scope, and on budget.

Research Project in Chemical Engineering

  • Conduct independent research on a chemical engineering topic.
  • Apply theoretical knowledge to practical problems through experiments or simulations.
  • Present findings through detailed reports and presentations.

Completing the ICTQual Level 5 Diploma in Chemical Engineering opens up numerous academic and professional opportunities for students seeking to advance their careers in the field of chemical engineering and related disciplines. Below are the key progression paths:

Career Progressions

  1. Entry-Level Roles in Chemical Engineering
    • Graduates can start their careers in positions such as:
      • Process Technician
      • Junior Chemical Engineer
      • Quality Assurance Specialist
  2. Industrial and Manufacturing Sectors
    • Opportunities are available in industries like oil and gas, pharmaceuticals, food and beverages, and materials production.
  3. Environmental and Renewable Energy Roles
    • With a growing focus on sustainability, graduates can work in environmental consulting or renewable energy projects, designing eco-friendly processes and systems.
  4. Research and Development (R&D)
    • Graduates may join research teams to develop new products, materials, or processes in sectors like nanotechnology, polymers, or biotechnology.
  5. Project and Operations Management
    • Skills in project management can lead to roles in overseeing industrial operations, ensuring safety, efficiency, and profitability.

Entrepreneurship

Graduates with a strong innovative mindset may venture into entrepreneurship, developing chemical products, sustainable solutions, or offering consultancy services to industries.

Path to Professional Recognition

For those aiming to become Chartered Chemical Engineers, this diploma serves as the foundation. By pursuing further studies and gaining industry experience, graduates can achieve professional recognition from organizations such as IChemE, enhancing their global career prospects.

The ICTQual Level 5 Diploma in Chemical Engineering is not just a qualification but a stepping stone to a fulfilling academic journey and a rewarding career in the diverse and impactful world of chemical engineering.

Even if a centre is already registered with ICTQual AB, it must meet specific requirements to deliver the ICTQual Level 5 Diploma in Chemical Engineering. These standards ensure the quality and consistency of training, assessment, and learner support.

1. Approval to Deliver the Qualification

  • Centres must obtain formal approval from ICTQual AB to deliver this specific qualification, even if they are already registered.
  • The approval process includes a review of resources, staff qualifications, and policies relevant to the program.

2. Qualified Staff

  • Tutors: Must have relevant qualifications in Chemical Engineering at Level 6 or higher, alongside teaching/training experience.
  • Assessors: Must hold a recognized assessor qualification and demonstrate expertise in Chemical Engineering.
  • Internal Quality Assurers (IQAs): Must be appropriately qualified and experienced to monitor the quality of assessments.

3. Learning Facilities

Centres must have access to appropriate learning facilities, which include:

  • Classrooms: Modern, multimedia-equipped classrooms for delivering engaging theoretical instruction on chemical processes, reaction engineering, and industrial applications.
  • Practical Areas: Advanced labs featuring state-of-the-art equipment for chemical analysis, process simulation, distillation, heat transfer, and fluid mechanics to provide hands-on training and experimental experience.
  • Technology Access: High-performance computers with specialized software (e.g., Aspen Plus, MATLAB, CHEMCAD) and internet connectivity for process modeling, simulations, and technical project work.

4. Health and Safety Compliance

  • Centres must ensure that practical training environments comply with relevant health and safety regulations.
  • Risk assessments must be conducted regularly to maintain a safe learning environment.

5. Resource Requirements

  • Learning Materials: Approved course manuals, textbooks, and study guides aligned with the curriculum.
  • Assessment Tools: Templates, guidelines, and resources for conducting and recording assessments.
  • E-Learning Systems: If offering online or hybrid learning, centres must provide a robust Learning Management System (LMS) to facilitate remote delivery.

6. Assessment and Quality Assurance

  • Centres must adhere to ICTQual’s assessment standards, ensuring that all assessments are fair, valid, and reliable.
  • Internal quality assurance (IQA) processes must be in place to monitor assessments and provide feedback to assessors.
  • External verification visits from ICTQual will ensure compliance with awarding body standards.

7. Learner Support

  • Centres must provide learners with access to guidance and support throughout the program, including:
    • Academic support for coursework.
    • Career guidance for future progression.
    • Additional support for learners with specific needs (e.g., disabilities or language barriers).

8. Policies and Procedures

Centres must maintain and implement the following policies, as required by ICTQual:

  • Equal Opportunities Policy.
  • Health and Safety Policy.
  • Complaints and Appeals Procedure.
  • Data Protection and Confidentiality Policy.

9. Regular Reporting to ICTQual

  • Centres must provide regular updates to ICTQual AB on learner enrollment, progress, and completion rates.
  • Centres are required to maintain records of assessments and learner achievements for external auditing purposes.

Route for Candidates with No Experience

This route is ideal for learners who are new to the Chemical Engineering field and do not have prior work experience. The process is as follows:

  • Admission: The candidate enrolls in the program at an ICTQual Approved Training Centre.
  • Training: The learner undergoes formal training, covering all the essential study units. Training will include both theoretical instruction and practical activities.
  • Assessment: Learners will be required to complete and submit assignments based on the course’s learning outcomes. These assignments will test the learner’s understanding and application of the course material.
  • Certification: After successfully completing the required assignments and assessments, the learner will be awarded the ICTQual Level 5 Diploma in Chemical Engineering.

Route for Experienced and Competent Candidates

For candidates who already have relevant work experience in the Chemical industry, the following route is available:

  • Eligibility: The candidate must have at least 5 years of verified experience in Chemical engineering or a related field. This experience must be relevant to the learning outcomes of the qualification.
  • Assessment of Competence: The candidate does not need to undergo the full training program. Instead, the ICTQual Approved Training Centre will assess whether the candidate’s existing knowledge and skills align with the learning outcomes of the course.
  • Evidence Submission: The candidate must submit documentation and evidence of their work experience to demonstrate competence in the required areas. This can include job roles, responsibilities, and tasks performed that align with the learning outcomes of the course.
  • Knowledge and Understanding: Centres must ensure that the candidate is familiar with all the course’s learning outcomes. If necessary, a skills gap assessment may be conducted to determine if any additional learning is required.
  • Certification: Upon successful verification of experience and competence, the candidate will be awarded the ICTQual Level 5 Diploma in Chemical Engineering without having to complete the full training course.

Both routes ensure that candidates either gain the necessary knowledge through training or demonstrate their existing competency to achieve the ICTQual Level 5 Diploma in Chemical Engineering. This flexible approach caters to both new learners and experienced professionals seeking formal certificate.

FAQs

The ICTQual Level 5 Diploma in Chemical Engineering is a two-year program offering 240 credits, designed to provide in-depth knowledge and practical skills in chemical engineering, covering areas like thermodynamics, fluid mechanics, and process design.

This course is ideal for individuals with a strong interest in science and engineering, high school graduates seeking a career in chemical engineering, or professionals looking to enhance their qualifications.

Applicants must hold a Level 4 qualification in a related field, have a background in subjects like chemistry or mathematics, be at least 18 years old, and demonstrate English proficiency.

ICTQual Level 5 Diploma in Chemical Engineering 240 Credits – Two Year course is offered in various formats, including online, in-person, or a combination of both. Participants can choose the format that best fits their schedule and learning preferences. But final decision is made by ATC.

Yes, ICTQual Level 5 Diploma in Chemical Engineering 240 Credits – Two Year consist of 240 mandatory assessments. These assessments are designed to evaluate participants’ comprehension of course material and their capacity to apply concepts in practical situations. It is mandatory to pass all assessments to achieve this qualification.