SAQA

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SOUTH AFRICAN QUALIFICATIONS AUTHORITY

REGISTERED QUALIFICATION:

Bachelor of Engineering Technology in Civil Engineering

SAQA QUAL ID	QUALIFICATION TITLE
99053	Bachelor of Engineering Technology in Civil Engineering
ORIGINATOR
University of Johannesburg
PRIMARY OR DELEGATED QUALITY ASSURANCE FUNCTIONARY			NQF SUB-FRAMEWORK
CHE - Council on Higher Education			HEQSF - Higher Education Qualifications Sub-framework
QUALIFICATION TYPE	FIELD		SUBFIELD
National First Degree	Field 12 - Physical Planning and Construction		Physical Planning, Design and Management
ABET BAND	MINIMUM CREDITS	PRE-2009 NQF LEVEL	NQF LEVEL	QUAL CLASS
Undefined	441	Not Applicable	NQF Level 07	Regular-Provider-ELOAC
REGISTRATION STATUS		SAQA DECISION NUMBER	REGISTRATION START DATE	REGISTRATION END DATE
Registered-data under construction		EXCO 0324/24	2024-07-01	2027-06-30
LAST DATE FOR ENROLMENT		LAST DATE FOR ACHIEVEMENT
2028-06-30		2033-06-30

Registered-data under construction

The qualification content is currently being updated for the qualifications with the status “Registered-data under construction” or showing “DETAILS UNDER CONSTRUCTION” to ensure compliance with SAQA’S Policy and Criteria for the registration of qualifications and part-qualifications on the National Qualifications Framework (NQF) (As amended, 2022). These qualifications are re-registered until 30 June 2027 and can legitimately be offered by the institutions to which they are registered.

In all of the tables in this document, both the pre-2009 NQF Level and the NQF Level is shown. In the text (purpose statements, qualification rules, etc), any references to NQF Levels are to the pre-2009 levels unless specifically stated otherwise.

PURPOSE AND RATIONALE OF THE QUALIFICATION

Purpose:
The purpose of this qualification is to provide learners with knowledge and understanding of civil engineering and equip them with skills that will enable them to practise as Professional Engineering Technologists. A qualified learner will be able to:

Systematically diagnose and solve broadly defined Civil Engineering problems by applying engineering principles.

Apply knowledge of mathematics, natural science and engineering sciences to defined and applied engineering procedures, processes, systems and methodologies to solve broadly-defined Civil engineering problems.

Perform procedural and non-procedural design of broadly defined components, systems, works, products or processes to meet desired needs normally within applicable standards, codes of practice and legislation in Civil engineering.

Conduct investigations of broadly-defined problems; locate, search and select relevant data from codes, databases and literature; design and conduct experiments; and analyse and interpret results to provide valid conclusions.

Communicate effectively, both orally and in writing, with engineering audiences and affected parties.

Comprehend and apply ethical principles and commit to professional ethics, responsibilities and norms of Civil engineering technology practice.

Rationale:
The Bachelor of Engineering Technology in Civil Engineering is designed to provide learners with integrated knowledge and understanding of Civil Engineering and equip them with necessary skills to practise as Engineering Technologists. This qualification provides learners with skills that enable them to identify, analyse and critically reflect on and address problems relating to Civil Engineering. It also contributes to the development of scarce and high level technical skills in Civil Engineering. This qualification prepares learners for careers in engineering that will enable them to contribute to the economy and development of the nation, and forms an educational base to register as a Professional Engineering Technologist with the Engineering Council of South Africa (ECSA).

LEARNING ASSUMED TO BE IN PLACE AND RECOGNITION OF PRIOR LEARNING

Recognition of Prior Learning (RPL):
The Faculty accepts RPL as an integral part of education and academic practice. It is acknowledged that all learning has value, and the Faculty accepts the challenge to assess prior learning and award credits, as aligned to Faculty programmes to promote life-long learning.

Recognition of prior learning is based on the following process:

The applicant indicates the reason for applying for recognition of previous learning (could be entrance to a programme or exemption from certain modules in the programme).

The RPL committee determines the criteria for the recognition of prior learning based on the request (could be admission requirements of the programme, assessment of Exit Level Outcomes of modules for which exemption is requested or approved guidelines required by the professional body/industry).

The applicant must submit a portfolio of evidence of learning in place (what the applicant knows).

The RPL committee will assess the evidence of previous learning supplied by the applicant against the criteria and will make a recommendation to the Faculty's quality committee in a full report describing the process followed.

The Quality committee will make a recommendation to Faculty Board to ratify the decision.

The purpose of the institution's RPL Policy that directs the Faculty's RPL procedure, to recognise prior learning, in order to provide access into qualification, grant advanced placement in qualifications, and credits for modules on the principles and processes that serve as a basis for faculty-specific RPL practices.

Entry Requirements:
Learners are required to have the following in place in order to be considered for admission:

A Senior Certificate with endorsement.
Or

National Senior Certificate granting admission to Bachelor's Degree studies or equivalent.

RECOGNISE PREVIOUS LEARNING?

QUALIFICATION RULES

This qualification comprises compulsory and elective modules at NQF Levels 5, 6, and 7 totalling 441 Credits.
Compulsory Modules:
NQF Level 5, 140 Credits.

Mathematics, 28 Credits.

Applied Mechanics, 14 Credits.

Communication Skills, 7 Credits.

Computer Skills, 7 Credits.

Drawing, 7 Credits.

Citizenship, 7 Credits.

Surveying, 7 Credits.

Statistics, 7 Credits.

Fluid Mechanics, 7 Credits.

Geology, 7 Credits.

Computer Aided Drawing, 7 Credits.

Management, 7 Credits.

Theory of Structures, 14 Credits.

Engineering Survey, 7 Credits.

Construction Methods and Safety, 7 Credits.

NQF Level 6, 154 Credits:

Mathematics, 14 Credits.

Geotechnical Engineering A, 14 Credits.

Geotechnical Engineering B, 14 Credits.

Human Capital Management, 7 Credits.

Concrete Technology, 14 Credits.

Transportation Engineering, 14 Credits.

Hydraulics, 14 Credits.

Hydrology, 14 Credits.

Documentation, 7 Credits.

Structural Analysis, 14 Credits.

Transportation Engineering, 14 Credits.

Computational Mathematics, 14 Credits.

NQF Level 7, 147 Credits:

Project Management, 14 Credits.

Principles of Sustainability, 14 Credits.

Ethics and Community Studies, 7 Credits.

Elective Modules, at NQF Level 7 (select any eight modules) :

Capstone Design Project 2, 14 Credits.

Water Reticulation Design, 14 Credits.

Contract Management, 14 Credits.

Reinforced Concrete and Steel Design, 14 Credits.

Transportation, 14 Credits.

Water and Waste Water Engineering, 14 Credits.

Computer Aided Design (Civil), 14 Credits.

Capstone Civil Design Project, 28 Credits.

Structural Analysis, 14 Credits.

Reinforced Concrete Design, 14 Credits.

Structural Steel Design, 14 Credits.

Timber and Masonry Design, 14 Credits.

Pre-stressed Concrete Design, 14 Credits.

Structural Analysis, 14 Credits.

Computer Aided Structural Design, 14 Credits.

EXIT LEVEL OUTCOMES

1. Systematically diagnose and solve broadly defined Civil Engineering problems by applying engineering principles.
2. Apply knowledge of Mathematics, Natural Science and Engineering Sciences to defined and applied engineering procedures, processes, systems and methodologies to solve broadly-defined Civil Engineering problems.
3. Perform procedural and non-procedural design of broadly defined components, systems, works, products or processes to meet desired needs normally within applicable standards, codes of practice and legislation in Civil Engineering.
4. Conduct investigations of broadly-defined problems, locate, search and select relevant data from codes, databases and literature, design and conduct experiments and analyse and interpret results to provide valid conclusions.
5. Communicate effectively, both orally and in writing, with engineering audiences and affected parties.
6. Comprehend and apply ethical principles and commit to professional ethics, responsibilities and norms of Civil Engineering technology practice.

ASSOCIATED ASSESSMENT CRITERIA

Associated Assessment Criteria for Exit Level Outcome 1:

The problem is analysed and defined and criteria are identified for an acceptable solution.

Relevant information and engineering knowledge and skills are identified for solving the problem.

Possible approaches are generated and formulated that would lead to a workable solution for the problem.

Possible solutions are modelled and analysed.

Possible solutions are evaluated and the best solution is selected.

The solution is formulated and presented in an appropriate form.

Associated Assessment Criteria for Exit Level Outcome 2:

An appropriate mix of knowledge of mathematics, numerical analysis, statistics, natural science and engineering science at a fundamental level and in a specialist area is brought to bear on the solution of broadly-defined engineering problems.

Theories, principles and laws are used.

Formal analysis and modelling is performed on engineering materials, components, systems or processes.

Concepts, ideas and theories are communicated.

Reasoning about and the conceptualising of the engineering materials, components, systems or processes is performed.

Uncertainty and risk are handled.

Work is performed within the boundaries of the practice area.

Associated Assessment Criteria for Exit Level Outcome 3:

The design problem is formulated to satisfy user needs, applicable standards, codes of practice and legislation.

The design process is planned and managed to focus on important issues to recognise and deals with constraints.

Knowledge, information and resources are acquired and evaluated in order to apply appropriate principles and design tools to provide a workable solution.

Design tasks are performed including analysis, quantitative modelling and optimisation of the product, system or process subject to the relevant premises, assumptions, constraints and restrictions.

Alternatives are evaluated for implementation and a preferred solution is selected based on techno-economic analysis and judgement.

The selected design is assessed in terms of the social, economic, legal, health, safety, and environmental impact and benefits.

The design logic and relevant information is communicated in a technical report.

Associated Assessment Criteria for Exit Level Outcome 4:

Investigations and experiments are planned and conducted within an appropriate discipline.

Available literature is searched and material is critically evaluated for suitability to the investigation.

Analysis is performed as necessary to the investigation.

Equipment or software is selected and used as appropriate in the investigations.

Information is analysed, interpreted and derived from available data.

Conclusions are drawn from an analysis of all available evidence.

The purpose, process and outcomes of the investigation are recorded in a technical report.

Associated Assessment Criteria for Exit Level Outcome 5:

The structure, style and language of written and oral communication are appropriate for the purpose of the communication and the target audience.

Graphics used are appropriate and effective in enhancing the meaning of text.

Visual materials used enhance oral communications.

Accepted methods are used for providing information to others involved in the engineering activity.

Oral communication is delivered fluently with the intended meaning being apparent.

Associated Assessment Criteria for Exit Level Outcome 6:

The nature and complexity of ethical dilemmas is described.

The ethical implications of decisions made are described.

Ethical reasoning is applied to evaluate engineering solutions.

Continued competence is maintained through keeping abreast of up-to-date tools and techniques available in the workplace.

The system of continuing professional development is understood and embraced as an on-going process.

Responsibility is accepted for consequences stemming from own actions.

Judgements are made in decision making during problem solving and design.

Decision making is limited to the area of current competence.

Integrated Assessment:
Learner progress and performance will be assessed at various formative points in the qualification. Rules will be in place regarding eligibility for supplementary assessments should a learner not pass one of the summative assessments. For summative assessments, especially where more than one assessor is involved, internal moderation checks will be undertaken to ensure the reliability of the assessment procedures.

Formative assessment refers to assessment that takes place during the process of learning and teaching. The following will characterise the formative assessment process:

Supports the teaching and learning process.

Provides feedback to the learner on his/her progress.

Diagnosis of the learner's strengths and weaknesses.

Assists in the planning of future learning.

Is developmental in nature and will contribute to the learners capacity for self-evaluation.

Helps to make decisions on the readiness of the learner to do a summative assessment.

Summative assessments will be conducted for the purpose of making a judgment about the level of competence of a learner in relation to the outcomes of a unit/module and/or qualification. The results of such formal assessment (e.g. tests, assignments, projects, presentations, creative production or traditional examinations) will be expressed as a mark reflecting a pass or a fail. The minimum number of summative opportunities required, will be contained in the Academic Regulations.

INTERNATIONAL COMPARABILITY

International Engineering Alliance:
The International Engineering Alliance is established to advance benchmarking and mobility in the engineering profession. It is structured in three (3) Accords, the Washington, the Sydney and the Dublin. These are three multi-lateral agreements between groups of jurisdictional agencies responsible for accreditation or recognition of tertiary Engineering qualifications within their jurisdictions who have chosen to work collectively to assist the mobility of engineering practitioners (i.e. professional engineers, engineering technologists and engineering technicians) holding suitable qualifications. The signatories are committed to the development and recognition of good practice in engineering education and are intended to assist growing globalisation of mutual recognition of engineering qualifications. The standard of this qualification is ensured through the Sydney Accord.

Conclusion:
This qualification is in line with international standards set in the International Engineering Alliance agreements. It is ensured that a learner is assessed and enabled to compete as a Professional Engineering Technologist and the learner will be able to obtain registration with a respective professional body.

ARTICULATION OPTIONS

This qualification only offers specific horizontal articulation opportunities with the following qualifications offered by the University of Johannesburg:

Horizontally:

Bachelor of Engineering Technology in Mechanical Engineering, SAQA ID: 96441.

The qualification also offers systemic articulation with the following qualifications' offered by other institutions, provided the learner meets the minimum entry requirements:

Horizontal Articulation:

Bachelor of Engineering Science, NQF Level 7.

Vertical Articulation:

Bachelor of Science: Engineering, NQF Level 8.

Bachelor of Engineering Honours, NQF Level 8.

Postgraduate Diploma in Engineering, NQF Level 8.

Postgraduate Diploma in Engineering Management, NQF Level 8.

MODERATION OPTIONS

N/A

CRITERIA FOR THE REGISTRATION OF ASSESSORS

N/A

NOTES

N/A

LEARNING PROGRAMMES RECORDED AGAINST THIS QUALIFICATION:

NONE

PROVIDERS CURRENTLY ACCREDITED TO OFFER THIS QUALIFICATION:

This information shows the current accreditations (i.e. those not past their accreditation end dates), and is the most complete record available to SAQA as of today. Some Primary or Delegated Quality Assurance Functionaries have a lag in their recording systems for provider accreditation, in turn leading to a lag in notifying SAQA of all the providers that they have accredited to offer qualifications and unit standards, as well as any extensions to accreditation end dates. The relevant Primary or Delegated Quality Assurance Functionary should be notified if a record appears to be missing from here.

1.	University of Johannesburg