About this course
The purpose of BTEC Higher National Diploma in Construction & Built Environment (Civil Engineering) is to develop you as professional, self-reflecting individual able to meet the demands of employers in the civil engineering and construction sector and adapt to a constantly changing world.
The objectives of the BTEC Higher National Diploma in Construction & Built Environment (Civil Engineering) are as follows:
- To equip you with construction and the built environment skills, knowledge and the understanding necessary to achieve high performance in the global construction and the built environment sector.
- To provide you with education and training for a range of careers in construction and the built environment, including civil engineering, building services engineering, quantity surveying, construction management, and architectural technology.
- To provide you with an understanding of the way technologies are transforming the industries of construction and the built environment and prepare them to work with these technologies.
- To support you to understand the local, regional and global context of construction and the built environment.
- To provide you with opportunities to address contemporary issues facing the industry, and society at large; with emphasis on sustainability and the environment, recognising the role that construction and the built environment plays in addressing these issues.
- To provide you with the context in which to consider professional ethics and their relation to personal, professional and statutory responsibilities within the industry.
You will benefit from an innovative variety of assessment modes. Assessment is mainly via coursework, which can take forms such as traditional essays and reports, individual and group project work, research and consultancy projects, presentations, posters, and design of digital materials.
Teaching and Learning
You will be taught through a combination of lectures, seminars and tutorials. You will be attending on Saturdays. You will be taught by experienced lecturers whose knowledge and expertise are matched to the content of the modules on the course.
When not attending lectures or seminars, you will also be expected to study through independent learning. Independent learning plays a vital role in your studies and involves research, such as reading books and journal articles, preparing assignments and presentations, working on individual and group projects. You will have access to a variety of materials to support you in your learning, such as books, journals, lecture notes and a wide range of e-resources.
During one term, you will typically be attending four modules of 15 credits each. A taught 15 credit module consists of approximately 10 hours of lecture content, 20 hours of seminar content and assessment practice. On top of this, you will be expected to spend around 10 – 15 hours per week on independent learning and completing assessments.
Course Entry Requirements
You will be expected to have at least one of the following:
- A BTEC Level 3 qualification in Construction and The Built Environment
- A GCE Advanced Level profile that demonstrates strong performance in a relevant subject or adequate performance in more than one GCE subject.
- Other related Level 3 qualifications
- An Access to Higher Education Certificate awarded by a recognised institution
- An international equivalent of the above
- Related work experience
Plus you will usually have five GCSE subjects including Maths and English Language at grade C/grade 4 or above is strongly recommended. We will normally accept Key Skills and Higher Diploma qualifications as the equivalent to GCSEs.
What if I don’t meet any of these entry requirements?
Even if you have few or no formal qualifications, you may be able to gain entry to the course if you have the required communication and learning skills, as well as the knowledge, experience and motivation to succeed.
You will be required to take and English and/or Mathematics skills test if you do not hold GCSE Maths and English qualifications or their recognised equivalent. You may also be interviewed for the course.
You may need to take an Access course or Foundation (Year 0) course first. If you have been away from academic study for a while, these courses are a great way to get you back into studying. Or if you have never studied before, they help you learn new study skills, essential for success in higher education.
Careers and employability
BTEC Higher National Diplomas are well-established and internationally recognised qualifications offering graduates progression directly to employment. This course will prepare you for a range of construction and civil engineering jobs, such as:
- Assistant Design Co-ordinator
- Design & Build Co-ordinator
- Construction Site Supervisor
- Construction Design Technician
- Site Manager
- Project Manager
- Health & Safety Manager
- Planning Supervisor Site Engineering Technician
- Structural Engineering Design
- Civil Engineering Design
- Transport Engineering Design
You can also study further for a BSc(Hons) Top Up degree in Civil Engineering.
The following is an indication of relevant professional bodies that recognise BTEC Higher Nationals in Construction and the Built Environment (Civil Engineering) and their recommended unit structure, as qualifications that contribute towards their requirements:
- Institution of Civil Engineers
- Institution of Structural Engineers
- Royal Institute of Chartered Surveyors
- Chartered Institute of Building
- Chartered Institute of Architectural Technologists
- Chartered Institute of Building Services Engineers
- Chartered Institute of Plumbing and Heating and Engineers
With their agreement we have secured exemptions from certain memberships for students achieving BTEC Higher National qualifications in Construction and The Built Environment (Civil Engineering). This adds value to the qualification by offering students access to Continuing Professional Development.
What you will cover
|UNIT CODE||UNIT NAME||UNIT LEVEL||UNIT CREDIT|
|HNCB 1||Individual Project||4||15|
|HNCB 18||Civil Engineering Technology||4||15|
|HNCB 2||Construction Technology||4||15|
|HNCB 20||Principles of Structural Design ||4||15|
|HNCB 3||Science and Materials||4||15|
|HNCB 4||Construction Practice and Management||4||15|
|HNCB 6||Construction Information (Drawing, Detailing, Specification)||4||15|
|HNCB 8||Mathematics for Construction||4||15|
|UNIT CODE||UNIT NAME||UNIT LEVEL||UNIT CREDIT|
|HNCB 22||Group Project (Double Module)||5||30|
|HNCB 28||Further Mathematics for Construction||5||15|
|HNCB 29||Geotechnics and Soil Mechanics ||5||15|
|HNCB 30||Advanced Structural Design||5||15|
|HNCB 35||Alternative Methods for Construction||5||15|
|HNCB 38||Personal and Professional Development||5||15|
Online Application & Eligibility Assessment
Note: Please scan your supporting documents,
such as a photo, passport, visa, qualifications, references etc before starting
the application form. You will also need access to your e-mail.
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Fees and Finance
Tuition Fees for Academic Programmes
Tuition fees for Full-Time Programmes - 2018/2019
|Higher National Certificate
|Higher National Diploma
|Foundation Degree FdA
|BA/BSc (Hons) Top-Up
Tuition fees for Part-Time Programmes - 2018/2019
|Higher National Certificate
Higher National Diploma
|Foundation Degree FdA
|BA/BSc (Hons) Top-Up
Undergraduate funding (2018/19)
Student Finance England
The majority of undergraduate funding comes from the Student Loans Company and is assessed by your funding authority. Please visit Student Finance England (SFE) website pages for detailed information.
Eligible Undergraduate students can apply for a tuition fee loan of up to £6,165 to cover the full cost of their annual tuition fees. A maintenance loan (for living costs) of up to £11,354 is also available. This can be used to pay for general living costs, accommodation, travel and other course related costs.
The simple online calculator (https://www.gov.uk/student-finance-calculator) will give you an accurate idea of what level of student funding you may be eligible for.
If you are a part-time student on a degree course you can apply for a tuition fee loan and a maintenance loan. The maximum tuition fee loan you can get if you are a part-time student is £4,625 per year. The amount you get depends on the cost of your tuition fees. Your maintenance loan will be paid at pro-rata of full time study. The amount you get depends on your household income.
The tuition fee loan is paid directly to your university or college.
For more information and downloadable guides, visit the Direct Gov website
You will not start repaying your student loans for fees and living costs until you have finished studying and you are earning over £25,000 a year. For more information visit the Direct Gov website https:// www.gov.uk/repaying-your-student-loan
Other Sources of Funding
You do not have to apply for a tuition fee loan from the Student Loans Company to fund your studies. Some students use private funding or employer sponsorship to pay for their course.
The London College - Tuition Fees Terms and Conditions >>
The London College - Tuition Fees and Funding >>
Individual Project [HNCB 1]
The ability to define, plan and undertake a project is a critical set of skills needed in various roles within the construction industry. Identifying appropriate information and analysing this, to formulate clear results or recommendations, is required to
underpin many of the processes that inform construction projects.
The aim of this unit is to support students in using and applying the knowledge and skills they have developed through other areas of their studies to complete and present an individual project. In addition, this unit will provide students with key
study skills that will support them in further study.
Students will be able to identify, define, plan, develop and execute a successful project by working through a clear process. They will develop a project brief; outlining a problem that requires a solution, as well as a project specification, the specific requirements of which the final outcome must meet. They will research the problem, undertaking a feasibility study, and consider a range of potential solutions using critical analysis and evaluation techniques to test, select and contextualise their preferred solution. Students will provide a work and time management plan, keeping a diary of all activities, reflecting on their process and their learning throughout the project.
Civil Engineering Technology [HNCB 18]
This unit explores the role of professional civil engineers, their essential involvement in the construction and maintenance of infrastructure, and the key technologies they apply. The technologies and processes of civil engineering, in the development of highways, bridges, drainage systems, substructure and superstructure, are crucial to support contemporary societies.
Topics included in this unit are: earthwork activities, temporary and permanent dewatering procedures, methods and techniques used to create substructures, highways and superstructures and the common hazards, technical problems and solutions associated with modern civil engineering activities.
On successful completion of this unit students will be able to describe, analyse and evaluate modern civil engineering procedures, apply this skill and knowledge to the design of infrastructure and produce solutions to address hazards and problems encountered in civil engineering projects.
Construction Technology [HNCB 2]
The basic principles of construction technology have not changed for hundreds of years. However, the materials and techniques used to achieve these basic principles are constantly evolving; to enable the construction industry to deliver better quality buildings. Scarcity of resources and the continuing demand of more sophisticated clients, end users and other stakeholder interests, are driving the construction industry to provide buildings which facilitate enhanced environmental and energy performance, and greater flexibility, in response to ever increasing financial, environmental, legal and economic constraints.
This unit will introduce the different technological concepts used to enable the construction of building elements; from substructure to completion, by understanding the different functional characteristics and design considerations to be borne in mind when selecting the most suitable technological solution.
Topics included in this unit are: substructure, superstructure, finishes, building services and infrastructure components. On successful completion of this unit a student will be able to analyse scenarios and select the most appropriate construction technology solution.
Principles of Structural Design [HNCB 20]
Buildings, bridges, roads, and many other types of man-made structures are critical to the economic and social well-being of our societies. We rely upon these structures to provide us with suitable spaces and infrastructure to support our daily lives. This unit explores the fundamental principles of structural design, codes of practice and standards required to construct safe, effective static civil engineering structures commonly used in today’s infrastructure projects.
Topics included in this unit are: methods and techniques used to determine bending moments and shear forces in simply supported steel and reinforced concrete beams; deflection in simply supported steel beams; and axial load carrying capacity of steel and reinforced concrete columns.
On successful completion of this unit students will be able to determine and analyse forces within fixed structures and understand the fundamental concepts of structural design.
Science and Materials [HNCB 3]
Science and material performance are intrinsically linked through the need to create structures and spaces that perform in both mechanical operation and in providing human comfort.
This unit aims to support students to make material choices to achieve the desired outcomes of a brief. This is approached from the perspective of materials being fit for purpose; as defined by testing standards and properties, but also by consideration of the environmental impact and sustainability. Awareness of health & safety is considered alongside the need to meet legislative requirements.
The topics covered in this unit include: health & safety; storage and use of materials; handling, and problems associated with misuse and unprotected use; environmental and sustainable consideration in material choices; and human comfort performance parameters. Material choice is developed through the understanding of testing procedures to establish conformity to standards and define performance properties. The performance of materials to satisfy regulations and provide appropriate comfort levels is addressed through design and calculations.
Upon successful completion of this unit students will be able to make informed decisions regarding material choices; based on understanding the structural behaviour of materials established through recognised testing methods, sustainability, context of build, and health & safety. Students will also be able to perform the calculations necessary to establish anticipated performance of the materials in-use and therefore determine their compliance with regulations and suitability.
Construction Practice and Management [HNCB 4]
The aim of this unit is to develop and provide students with a holistic understanding of construction practice and management processes. Students will investigate and research the modern construction industry, both from the practical skills embedded within the industry through to its linkage with development on-site and the connection with construction management; including roles within the industry.
The unit compares and investigates small, medium and large construction companies within the market place and how construction processes, for development, have evolved.
Students will also explore how health & safety has evolved within the industry, including how the major stakeholders, from companies to site operatives, have embedded health & safety into their preferred areas of development and careers. In addition, students will explore Building Information Modelling and how it fits into construction processes/sequences ranging from domestic to large-scale and design and build projects.
The knowledge from this unit will provide students with the understanding of modern construction and management; the skills, management of people and projects, and how health & safety have changed the perception of the construction industry.
Construction Information (Drawing, Detailing, Specification) [HNCB 6]
To achieve successful projects in the built environment requires a range of different types of information: to describe the project, quantify the materials, provide clear instructions for assembly and erection, and to allow for accurate costing and management. Throughout the process of design, construction and post-occupancy management, information is critical.
Through this unit students will develop their awareness of different types of construction information and their uses in the process. Students will engage in the production, reading and editing of construction information, in order to understand how this information informs different stages of the process. Using industry standard tools and systems, students will consider the ways that information may be shared and, through this, the value of collaboration in the information process.
Topics included in this unit are: construction drawing, detailing, Computer Aided Design (CAD), Building Information Modelling (BIM), schedules (door, window, hardware, etc.), specifications, schedules of work, bills of quantities and information distribution and collaboration.
Mathematics for Construction [HNCB 8]
The aim of this unit is to develop students’ skills in the mathematical principles and theories that underpin the civil engineering and building services curriculum. Students will be introduced to mathematical methods and statistical techniques in order to analyse and solve problems within a construction engineering context.
Topics included in this unit are: dimensional analysis, arithmetic and geometric progressions wave and vector functions, differential and integral calculus, binomial and normal distribution, sinusoidal waves, and trigonometric and hyperbolic identities, among other topics.
On successful completion of this unit students will be able to employ mathematical methods within a variety of contextualised examples, interpret data using statistical techniques, and use analytical and computational methods to evaluate and solve engineering construction problems. Therefore, they will also gain crucial employability skills such as critical thinking, problem solving, analysis, reasoning, and data interpretation.
Group Project (Double Module) [HNCB 22]
While working in a team is an important skill in construction projects, collaboration goes beyond just teamwork. The success of a project relies not only on the ability of each person in a team to do their work, but on each individual’s awareness of how their work relates to the work of others, how to ensure that information is shared effectively and that roles and responsibilities are clear.
Through this collaborative project-based unit, students will explore how to define roles within a collaborative team, recognising the skills (and ‘skills gaps’) of each member of the group. Together students will work to develop a construction project; based on their research and analysis, in response to the Pearson-set ‘theme’.
Content in this unit will typically include role identification and allocation, collaborative structures, human resources management, project management, procurement, tender documentation, information/data sharing, meetings, health & safety, project costing and Building Information Modelling.
Further Mathematics for Construction [HNCB 28]
The understanding of more advanced mathematics is important within the civil engineering and building services engineering industries. Students must be introduced to additional topics that will be relevant to them as they progress to the next level of their studies; advancing their knowledge of mathematical theory gained in the Level 4 Unit 8: Mathematics for Construction.
The aim of this unit is to teach students to analyse and model civil engineering or building services engineering situations using mathematical techniques. Among the topics included in this unit are: number theory, complex numbers, matrix theory, linear equations, numerical integration, numerical differentiation, and graphical representations of curves for estimation within an engineering context. Finally, students will expand their knowledge of calculus to discover how to model and solve problems using first and second order differential equations.
On successful completion of this unit students will be able to use applications of number theory in practical construction situations, solve systems of linear equations relevant to construction applications using matrix methods, approximate solutions of contextualised examples with graphical and numerical methods, and review models of construction systems using ordinary differential equations. As a result they will develop skills such as communication literacy, critical thinking, analysis, reasoning and interpretation, which are crucial for gaining employment and developing academic competence.
Geotechnics and Soil Mechanics [HNCB 29]
This unit explores the essential relationship between civil engineering and the Earth’s crust, in the support of built structures and highways. The ability to understand, evaluate and develop solutions; related to soil and rock, is a key aspect of civil and structural engineering.
Topics included in this unit are: rock types, soil description and classification, methods and techniques used when undertaking site investigations and laboratory testing, determination of soil properties and the importance of these geotechnical procedures and resultant findings to civil engineers.
On successful completion of this unit students will be able to analyse and evaluate modern geotechnical methods and apply these skills and knowledge to the initial design of infrastructure.
Advanced Structural Design [HNCB 30]
With the development of new materials and processes, along with technologies that allow us to design and model more complex structures, the demands on structural design become more complex. The ability to conceive of and accurately model complex buildings, bridges, roads and other types of structure, pushes both the aesthetic and technical envelope.
In managing the design and construction of modern structures, the civil or structural engineer must be able to carry out more complex calculations; dealing with dynamic conditions, while maintaining an awareness of the overall design intention.
Extending areas of study, from Unit 20: Principles of Structural Design, this unit will support students to extend their ability to design, test and quantify more complex structural conditions.
Alternative Methods for Construction [HNCB 35]
The construction industry seeks to be dynamic and forward thinking, but in reality most buildings are still constructed using many of the same materials and processes that have been utilised for centuries. While there is accumulated knowledge in the use of ‘tried-and-tested’ methods, these are not always the most efficient or cost effective. Combined with this is the fact that the construction industry is one of the largest contributors to CO2 emissions and is under increasing pressure, and legislation, to improve its processes and practices.
However, the industry also faces other challenges. As one of the most important sectors of the global economy, it is imperative that construction is able to meet the demands for housing, office, institutional and commercial development. Continuing to build, using traditional methods will not be sufficient. One of the ways in which the sector is exploring how to address sustainability and increase productivity is through the development and implementation of alternative forms of construction.
On successful completion of this unit students will have examined how the construction industry impacts on the environment; explored alternative construction methods which are fit for purpose; government policy implications and health & safety constraints associated with alternative construction methods; and designed a fit-for-purpose structure using an alternative construction method.
Personal and Professional Development [HNCB 38]
As a professional, learning is a continuous and lifelong process. Within the construction industry there are constant changes in technology, materials, processes, legislation and practice. In order to remain up-to-date, it is necessary to recognise the potential of both structured, classroom-based learning and the learning that is gained through professional activities ‘on the job’.
This unit provides a framework in which students have the opportunity to reflect upon and contextualise the learning that they gain from working within the industry.
In co-ordination with tutors and their employer, students will define the scope, duration and content of their expected work-based learning experience. Throughout the period of their work-based learning experience, students will be expected to record and reflect upon their own learning.
Hydraulics [HNCB 43]
The action, management and distribution of fluids, in relation to built structures, is critical. In civil engineering, it is necessary to ensure that we are able to manage the pressures that water may put on structures, either through its flow or the forces exerted and how to resist these. In building services, the balance between necessary pressures to ensure flow and distribution of fluids (through heating/cooling systems or domestic water supplies), and the sizing of pipes to support this flow, will determine efficiency and effectiveness of a system.
However, fluids are dynamic; their behaviour changes based on a range of factors. Thus, the ability to estimate and manage their forces, rates of flow and suitable systems for control requires specialised calculations, equipment and maintenance.
Through this unit students will explore principles of hydrostatic and hydrodynamic fluids, calculate a range of factors and use these calculations to arrive at practical hydraulic solutions.