Undergraduate study
Engineering

Chemical Engineering by Flexible Open Learning
HND

 

Course overview

This distance learning chemical engineering HND course is designed for learners who wish to work as technicians/technician engineers in the chemical or process engineering sectors. You could be involved in manufacturing, maintenance and testing work. It has been developed in consultation with local industry, and combines theory and practical work with the focus being on industrial applications.

The Higher National Diploma (HND) in Chemical Engineering by flexible open learning provides you with a programme of study over a range of disciplines to help you develop skills to progress your career through employment or further education at degree level. This is an award of Teesside University delivered under licence from Pearson by Teesside University Open Learning (Engineering). You can study this award as a top up from the HNC Chemical Engineering.

Find out more
01642 342740
tuole@tees.ac.uk
tees.ac.uk/tuole

Application dates

  • Ongoing

Professional accreditation

The HND programme is a nationally recognised qualification awarded under licence from Pearson.

 

Course details

You study 16 units chosen to cover the range of needs of local and national industries and business. The HND provides a sound understanding of all key principles.

Course structure

Year 1 core modules

Engineering Design (HN)

You gain experience of carrying out a design project, giving you an appreciation of how design involves harmonising key parameters and blending them into the design solution, and to produce a design report. You cover each stage of the process, including: client brief, planning, design specification, design report and evaluation.

Engineering Mathematics

This module introduces the range of mathematical skills that are relevant to an engineering degree. You revisit and develop your knowledge of the fundamentals of algebra, trigonometry and basic statistics. The central ideas of vectors, matrices, complex numbers, and differential and integral calculus are also examined.

Throughout the module you develop a range of mathematical skills and techniques fundamental to the solution of engineering problems. You also advance your skills in selecting and applying mathematical techniques.

This module is delivered through a combination of lectures and tutorial sessions.

Engineering Science (HN)

You are introduced to the fundamental laws and applications of the physical sciences within engineering and how to apply this knowledge to find solutions to a variety of engineering problems.

You study international system of units, interpreting data, static and dynamic forces, fluid mechanics and thermodynamics, material properties and failure, and AC/DC circuit theories.

Fluid Mechanics (HN)

You are introduced to the basic principles of fluid mechanics. You explore properties of fluids and different types of flow, and the underlying principles and theory of fluid mechanics in lectures. You look at worked examples in tutorials and laboratory work to enable practical investigation.

Managing a Professional Engineering Project (HN)

You are introduced to the techniques and best practices required to successfully manage an engineering project - from identifying a problem, through to finding a solution. You consider the role and function of engineering in our society, the professional duties and responsibilities expected of engineers together with the behaviours that accompany their actions.

You cover: roles, responsibilities and behaviours of a professional engineer, planning a project, project management stages, devising solutions, theories and calculations, management using a Gantt chart, evaluation techniques, communication skills, and the creation and presentation of a project report.

Mass and Energy Balances (HN)

You are introduced to the basics of the Law of Conservation of mass and the concept of energy can neither be created nor destroyed, but can be changed from one form to another. This module provides a clear understanding for setting up and solving mass and energy balance problems related to chemical processes and the use of steam tables for solving energy balance problems.

 

Optional modules

Analytical Instrumentation

This module is concerned with modern techniques of detecting variables in industrial processes. The aim of these techniques is to ensure that the measurement, or sampled quantity, is representative of the measureand.

The module also aims to develop an understanding of modern measurement principles and recognition of how these concepts are applied in the design of commercial instruments for the measurement of both analytical and chemical composition variables.

Materials Engineering (HN)

The aim of this module is to provide you with basic background knowledge and understanding of the properties, selection, processing and use of materials.

Measurement of Process Variables

Level, pressure, flow and temperature are the most common industrial process variables and the aim of this module is to provide an understanding of the principles of measurement of these variables and describe the associated measuring systems and instruments.

Students will be provided with a learning pack where core subjects are presented in sequenced lessons that include self assessment questions with solutions to aid developmental learning. Module assessment comprises a formative element and a summative element. The formative assessment is a series of self assessment questions and answers at the end of each lesson. Feedback is also given to the students through email or by telephone. The summative assessment involves a single in course assessment comprising several elements.

 

Year 2 core modules

Further Mathematics (HN)

You are introduced to the concepts necessary for the successful analysis of engineering problems and apply numerical methods relevant to solving advanced mathematical problems arising from engineering and technology

You learn how to use applications of number theory in practical engineering situations, solve systems of linear equations relevant to engineering applications using matrix methods, approximate solutions of contextualised examples with graphical and numerical methods, and review models of engineering systems using ordinary differential equations.

Mass Transfer Operations

This module will enable you to develop an understanding of basic theories of mass transfer and phase equilibria and to be able to specify and design equipment for distillation, gas absorption, liquid extraction and leaching processes.

Professional Engineering Management (HN)

While it is essential that a product or service designed by an engineer delivers the performance required in the specification, it is equally important that it contributes to the economic viability of the company and that all aspects of its life cycle are managed in a professional manner. You explore how a product or service is designed and supported from a business perspective and learn how to adopt the Engineering Council’s preferred approach to your development as a professional engineer working in industry

Project

This module extends the development of independent learning skills by allowing you to investigate an area of engineering or technology for an extended period.

You receive training in writing technical reports for knowledgeable readers and you produce a report or dissertation of the work covered. In addition, you give an oral presentation, a poster presentation or both. The topic can be in the form of a research project or a design project.

You develop key skills in research, knowledge application and creation through keynote lectures where appropriate and self-managed independent study. Support is provided through regular tutorial sessions.

 

Optional modules

Control Systems and Automation (HN)

You gain an insight into the principles of control engineering and how these principles can be used to model engineering systems and processes. This module involves mathematical analysis and theory; practical situations are examined using computer simulation tools.

Petroleum Processing Engineering

You apply physical principles and engineering techniques to evaluate the properties of the underground formation which will help to establish the existence of oil and gas beneath the earth’s surface. The module looks at how different properties affect production in oil and gas wells, and explains the technologies used for drilling, well completion and testing, and operation and control for the extraction of the reservoir fluids.

Plant Services

This module introduces the relevant physical and chemical principles for use in the evaluation of the production, distribution and use of each of the common plant services such as steam, air and refrigeration services.

Safety Engineering

This module covers the fundamentals of contemporary Safety Engineering as applied to industrial processes. It consists of an introduction to the terminology, the nature and treatment of hazards, hazard analysis, risk assessment, emergency procedures and the application of protective measures associated with various hazards.

The main aims of the module are to provide a firm foundation for work in Safety Engineering and to act a basis for more advanced studies of safety practices.

Students will be provided with a learning pack where core subjects are presented in sequenced lessons that include self assessment questions with solutions to aid developmental learning. Module assessment comprises a formative element and a summative element. The formative assessment comprises a series of self assessment questions and answers at the end of each lesson. Feedback is also given to the students through email or by telephone. The summative assessment involves a single in course assessment comprising several elements.

Statistical Process Control

This module provides you with an insight into commonly occurring statistical process control techniques, the use of control charts, and inspection and sampling methods.

 

Modules offered may vary.

 

How you learn

You are provided with a self-contained comprehensive study pack for each of the modules. Each module consists of a folder or folders containing a series of lessons grouped into topics. Each lesson has an introduction, your aims, study advice, self-assessment questions and a summary.

It is important that you realise that open learning study requires a considerable degree of self-discipline. You must be prepared to devote both time and effort to studying notwithstanding other distractions which may be present.

Each module is supported through e-learning@tees.ac.uk.

How you are assessed

The module leaning outcomes are assessed through tutor marked assignments (TMAs). Some of the units also require practical work - we provide additional software and/or practical kit for this. After you have completed the assessment for a module, your tutor will arrange an exit interview which enables them to authenticate your work and confirm the grade. These interviews can be done in person, by phone or Skype.

TMAs are a means of continuous assessment. They contain a series of questions which can be used to satisfy the learning outcomes of the module. The TMAs for the module are available to download from the module online elearning site.

All completed answers for the TMAs should be submitted through the online site, elearning@tees. Your module tutor will grade your answers and provide feedback through elearning@tees.


Our Disability Services team provide an inclusive and empowering learning environment and have specialist staff to support disabled students access any additional tailored resources needed. If you have a specific learning difficulty, mental health condition, autism, sensory impairment, chronic health condition or any other disability please contact a Disability Services as early as possible.
Find out more about our disability services

Find out more about financial support
Find out more about our course related costs

 
 

Entry requirements

Entry requirements

If you are already qualified to HNC level (or equivalent) in an appropriate subject you can use the 'apply online' link on the relevant HND to apply for a place.

If you are topping up your HNC to HND level, the maximum Edexcel registration period to complete this is five years. You are required by the award regulations to successfully complete at least two modules (30 credits) in each year.

If you don't already hold a relevant HNC (or equivalent level) qualification it is essential that you complete your HNC first before progressing onto the HND. This provides you with up to five years to complete your HNC and up to another five years to complete your HND. It is possible to complete your HNC and HND in a much shorter time frame by successfully completing more than two modules a year.

If you decide to study the HND directly without studying the HNC first, we strongly recommend you study the units that encompass the HNC before you study the other modules.

Bridging module
There are bridging modules available. A Level 3 maths bridging module Foundation Mathematics for Engineers.

References
We don't require references if you are applying to study through open learning.

Certificates
You must include your qualification certificates when applying.

English language requirements
If English is not your first language and you haven't undertaken your final two years of schooling in English, you must demonstrate capability in English at a standard equivalent to the levels below:

  • Common European Framework of Reference for Languages level B2
  • GCSE English language grade C
  • PTE 51
  • IELTS 5.5 - reading and writing must be at 5.5 (or equivalent).

For additional information please see the entry requirements in our admissions section


You can gain considerable knowledge from work, volunteering and life. Under recognition of prior learning (RPL) you may be awarded credit for this which can be credited towards the course you want to study.
Find out more about RPL

 

Employability

Career opportunities

Students who complete this course can progress directly to an appropriate degree at the University. Please note the degree is not offered by distance learning but most are available on day release attending the University on a weekly basis.

This course provides the skills and knowledge which will enable you to gain employment within the process and related industries in the area of management.

The qualification provides you with the opportunity to seek career development into a senior position in national and international companies.

 

Fees

Course costs
For a Higher National Certificate (HNC) you study eight modules at £495 for each module. For the Higher National Diploma (HND) you study a maximum of 16 modules, again at £495 each. You usually pay for one module at a time. Some modules are subject to availability.

If you join the course having completed no appropriate HNC modules previously, the total cost of an HNC is currently £3,960 for the eight modules required and an HND is another £3,960 on top of this for the additional eight modules you will need to study. All payments for modules must be made through the Online Shop. The link will be provided in your offer letter.

Supplementary materials
Practical kits - several of the electronic modules require practical work to be done. Teesside University open learning in engineering has developed practical kits to enable you to complete this work at home. If you are studying directly with us you are loaned these kits as required for no extra charge (except for the return postal costs).

Software - some HNC modules require you to use specific software. Wherever possible we use free software that can be downloaded once the module is paid for. For example Business Management Techniques requires Microsoft Project and Engineering Design requires AutoCAD.

Student loans
Home students may be eligible to apply for a student loan using the student finance website - click on ‘apply online for student finance’.

Search for Teesside University and the course title for the month you wish to start your studies and apply for a loan of £990 only to cover the cost of the first two modules. You must not select the maximum allowance option. If you study more than two modules within your year, the University will issue the Student Loans Company with an electronic change of circumstances request for an increase in your tuition fee loan. Please note you must apply each year for your next student loan - for example, if your loan starts in May 2017 you will need to apply again in May 2018 for that year.

When you receive your letter of confirmation from the Student Loans Company, please email it to us at tuole@tees.ac.uk before the start of your course. Please note that the foundation modules (if applicable) are not covered by this loan.

We are an ELCAS provider, provider number 1691.

 
 

Full-time

  • Not available full-time
 

Part-time

2019 entry

Fee for UK/EU applicants:
£3,960 (120 credits)
More details about our fees

  • Length: 2-5 years
  • Attendance: Distance learning
  • Enrolment date: Monthly
  • Admission enquiries: 01642 342740
  • Semester dates

Apply online (part-time)

 
 

Facilities

A tour of Teesside University engineering facilities and employer partnerships, enabling us to produce graduates ready for the world of work.

 

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