Category Archives: B.Eng(Hons)

Certificate in Oil and Gas Well Technology (Level 3)

Oil and Gas Well Technology (City and Guilds – Level 3 Certificate)

This series will help learners achieve a broad understanding of the operational techniques of oilwell drilling, drilling calculations, completion and wireline well-servicing. It includes the function and construction of a representative selection of tools and equipment used in the drilling of oil and gas wells; the completion and wireline well-servicing of oil and gas wells; while providing guidance and practice on the calculations required during drilling operations.

The course/series consists of 3 modules:

• Oilwell Drilling Technology
• Drilling Calculations
• Oilwell Production Technology – (Well Completions)

These stand-alone modules will enable an individual to select those learning materials that suit his or her own particular requirements. Modules can be studied at the candidates own pace and can be studied in any order but the order is as numbered. The study time needed will vary from one module to another, and from one individual to another. It is likely to be in the range 40 – 60 hours for each module.

Each module will consist of four Workbooks, and a “Guide to Open Learning”.

No commitment to enrolling for the complete Oil and Gas Well Technology Series is required at any time although each candidate must register for each module. Modules are non-transferrable and can only be assigned to one candidate.

Each module (detailed above) may be assessed by examination and an individual certificate endorsed by City and Guilds of London Institute awarded to successful candidates.

Each exam which is passed successfully will contribute to one Certificate of Unit Credit towards The Certificate in Oil and Gas Well Technology. The Certificate will be awarded after all 3 Certificates of Unit Credit have been accumulated.

HNC Engineering Systems

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Power Plant

The HNC, Higher National Certificate in Engineering Systems by flexible open / distance learning provides you with a programme of study over a range of disciplines to help you develop skills to progress your career through employment in many engineering industries. This programme is a multidiscipline (M & E – Mechanical and Electrical) programme.

Mandatory (6 credits required):

  • Communication: Practical Skills {Course Code D77G 34 – 1 credit}
  • Mathematics for Engineering 1: (Mechanical and Manufacture) {Course Code DT5X 33 – 1 credit}
  • Principles of Engineering Systems {Course Code DV9R 34 – 2 credits}
  • Engineering Communication {Course Code DV9N 34 – 1 credit}
  • Engineering Measurement and System Monitoring {Course Code DV9P 34 – 1 credit}

Optional Units (5.0 credits required):

  • Electrical Networks and Resonance {Course Code – DG3G 34 – 1 credit}
  • Mathematics for Engineering 2 {Course code DG4L 34 – 1 credit}
  • Quality Management: An Introduction {Course Code DT8Y 34 – 1 credit}
  • Engineering Principles {Course Code DR3L 34 – 1 credit}
  • Materials Selection {Course Code DT46 34 – 1 credit}
  • Statics and Strength of Materials {Course Code DR1T 34 – 1 credit}
  • Dynamics {Course Code DT9T 34 – 1 credit}
  • Three Phase Systems {Course Code DN47 34 – 1 credit}
  • Electricity Power Systems (Course Code DN3W 34 – 1 credit}
  • Electrical Machine Principles Course Code DN4J 34 – 2 credits}
  • Electrical Safety {Course Code DN4L 34 – 1 credit}
  • Single Phase A.C. Circuits {Course Code DG54 34 – 1 credit}
  • Application of Electrical & Electronic Instruments {Course Code DN48 33 – 1 credit}

*  Other subjects to follow

Graded Unit (1.0 credit)

  • Engineering Systems Graded Unit 1 Examination {Course code DW11 34 – 1 credit}

More specific details of module content of the HNC Engineering Systems by distance learning.

Enrolment is usually at any time throughout the year.  Minimum entrance qualifications is a ONC, OND, C&G qualifications, apprenticeship in a related field.

Application

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HNC Building Services Engineering


Churchill

The HNC, Higher National Certificate in Building Services Engineering by flexible open / distance learning provides you with a programme of study over a range of disciplines to help you develop skills to progress your career through employment in traditional building services industries.

Mandatory Units (6 credits required):

  • Design Principles and Application{Course Code DP12 34 – 1 credit}
  • Analytical Methods {Course code DPOX 34 – 1 credit}
  • Health and Safety in the Building Services Industry {Course code DP17 34 – 1 credit}
  • Building Services Engineering Science {DP11 34 – 1 credit}
  • Building Services Engineering Graded Unit {DP0M 34 – 1 credit}
  • Building Services Engineering Project Management {DP10 34 – 1 credit}

Optional Units (6 credits required):

  • Engineering Mathematics {Course code DP13 35 – 1 credit}
  • Heating A {Course code DP15 34 – 1 credit}
  • Heating B{Course code DP16 34 – 1 credit:
  • Piped Distribution Systems {Course code DPON 34 – 1 credit:
  • Thermofluids and Acoustic Criteria {Course code DPOT 34 – 1 credit}
  • Air Conditioning A {Course code DPOV 34 – 1 credit}
  • Air Conditioning B {Course code DPOW 34 – 1 credit}
  • Building Management Systems {Course code DPOY 34 – 1 credit}
  • Electricity and Lighting {Course code DPOR 34 – 1 credit}

* Other subjects to follow

More specific details of module content of the HNC Building Services Engineering by distance learning.

Enrolment is usually at any time throughout the year.  Minimum entrance qualifications is a ONC, OND, C&G qualifications, apprenticeship in a related field.

Application

Submit your details below to apply for this course, and we will get back to you with further details.

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Certificate in Petroleum Technology (Level 3)

Petroleum Processing Technology (City and Guilds – Level 3 Certificate)

The course will help anyone with an interest in the oil industry achieve a broad understanding of the operational techniques of petroleum processing and the function and construction of the plant and equipment used in the processing of petroleum reservoir fluids.

The course consists of 10 modules:

• Oil and Gas Separation
• Gas Dehydration
• Petroleum Gas Compression
• Natural Gas Liquids Recovery
• Oil Pumping and Metering
• Injection Water Treatment
• Produced Water Treatment
• Gas Flow Measurement
• Process Flow & P&ID’s
• Oil Treatment (Dehydration)

These stand-alone modules will enable an individual to select those learning materials that suit his or her own particular requirements. Modules can be studied at the candidates own pace and can be studied in any order, but the order is as numbered. The study time needed will vary from one module to another, and from one individual to another. It is likely to be in the range 20 – 40 hours for each module.

Each module will consist of one or more Workbooks, and a “Guide to Open Learning”.

No commitment to enrolling for the complete Petroleum Processing Technology Series is required at any time although each candidate must register for each module. Modules are non-transferrable and can only be assigned to one candidate.

Each module (detailed above) may be assessed by examination and an individual certificate endorsed by City and Guilds awarded to successful candidates.

Each exam which is passed successfully will contribute to one Certificate of Unit Credit towards The Certificate in Petroleum Processing Technology. The Certificate will be awarded after all 10 Certificates of Unit Credit have been accumulated

 The course consists of the following 10 modules:

  1. 1.                                          Oil and Gas Separation

2 Workbooks comprising 6 sections

Study time: 25 hours

Sections:

  • Headers and Manifolds
  • Theory of Separation
  • Construction of Separators
  • Control of Separators
  • Separator Safety Systems
  • Operation of Separators

2.                                          Gas Dehydration

1 Workbook comprising 4 sections

Study time: 20 hours

Sections:

  • Water in Natural Gas
  • Auto Refrigeration Processes
  • Solid Desiccant Dehydration
  • Liquid Desiccant Dehydration

3.                                          Petroleum Gas Compression

4 Units each in a separate workbook

Study time: 40 hours

Sections: Unit 1 – AN OVERVIEW

  • Compressor Applications,
  • Basic Principles of Compression,
  • Types of Compressor

Unit 2 – RECIPROCATING COMPRESSORS

  • Design and Construction,
  • Auxiliary Systems,
  • Operation of Reciprocating Compressors

Unit 3 – CENTRIFUGAL COMPRESSORS

  • Design and Construction,
  • Auxiliary Systems,
  • Operation of Centrifugal Compressors

Unit 4 – OTHER TYPES OF COMPRESSOR

  • Positive Displacement Compressors,
  • Continuous Flow Compressors

4.                                          Natural Gas Liquids Recovery

1 Workbook comprising 4 sections

Study time: 20 hours

Sections:

  • The Theory of NGL Recovery
  • NGL Recovery using Compression and Cooling
  • NGL Recovery by Refrigeration
  • NGL Recovery using an Absorption Process

 5.                                          Oil Pumping and Metering

1 Workbook comprising 5 sections

Study time: 25 hours

Sections:

  • Centrifugal Pumps : terms and concepts
  • Pig Launching Facilities
  • Construction and Operation of Centrifugal Pumps
  • Oil Metering and Sampling
  • Operation of a Typical Oil Pumping and Metering

6.                                          Injection Water Treatment

1 Workbook comprising 4 sections

Study time: 20 hours

Sections:

  • Reasons for Water Injection
  • Reasons for Treating Injection Water
  • Sea Water Treatment Equipment
  • Operation of a Typical Water Injection System

7.                                          Produced Water Treatment

1 Workbook comprising 4 sections

Study time: 20 hours

Sections:

  • Problems Associated with Produced Water
  • Basics of Produced Water Treatment
  • Produced Water Cleaning Equipment
  • A Typical Produced Water System

8.                                          Gas Flow Measurement

1 Workbook comprising 4 sections

Study time: 30 hours

Sections:

  • Gas Flow Measurement Applications and Gas Physics
  •  Fluid Flow Principles
  • Measurement Devices and Methods
  • Orifice Plate Metering

9.                                          Process Flow & Piping and & Instrument Diagram’s

2 Workbooks comprising 7 sections

Study time: 40 hours

Sections:

  • Plot Plans and Elevation Drawings
  • Process Flow Diagrams
  • Piping and Instrument Diagrams
  • Figures, Illustrations and Symbols

10.                                      Oil Treatment (Dehydration)

1 Workbook comprising 4 sections

Study time: 20 hours

 

Sections:

  • Emulsions – Their Nature and Occurrence
  • Principles of Emulsion Treating
  • Dehydration Systems and Equipment
  • A Typical Dehydration System

Cost for the C& G Petroleum Processing Technology (City and Guilds – Level 3 Certificate – 10 10HN units)

(i)                 Cost – Registration, enrolment, tutoring, invigilation of examination – £200 per unit.

Total for C & G Petroleum Processing Technology Level 3 Engineering programme is £2,000.00

The examinations can take place at the Logis-Tech Glasgow Office or at Logis-Tech, Co. Donegal, Eire.  Other venues are Aberdeen.

Students wishing to sit the examinations at other venues should contact Hugo Gallagher at the address below

For more information or advice on the above program.  Please do not hesitate to contact:

Hugo Gallagher

A-1 Technical Training

Logis-Tech Associates

140 Boyd St

Crosshill

Glasgow

G42 8TP

Scotland, UK

 

Tel No:00 44 (0) 141 423 6911

Email: hugo@logis-tech.co.uk

 

www.logis-tech.co.uk

www.logis-tech.co-assoc.uk

www.openlearningengineering.co.uk

Certificate in Subsea Technology (Level 3)

Level 3 City and Guilds Certificate in Subsea Technology

The series consists of 4 modules, as detailed below;

  •  Subsea Equipment & Tools
  •  Material Technologies, Subsea Systems & Flow Assurance
  •  ROV Systems
  •  Subsea Controls

These stand-alone modules will enable an individual to select those learning materials that suit his or her own particular requirements.  Modules can be studied at the candidates own pace and can be studied in any order, but the recommended order is as numbered. The study time needed will vary from one module to another, and from one individual to another.  It is likely to be in the range 40 – 60 hours for each module.

Each module will consist of one Workbook, and a “Guide to Open Learning”.

No commitment to enrolling for the complete Subsea Technology Series is required at any time although each candidate must register for each module.  Modules are non-transferrable and can only be assigned to one candidate.

Each module (detailed above) may be assessed by examination and an individual certificate endorsed by City and Guilds awarded to successful candidates

Each exam which is passed successfully will contribute to one Certificate of Unit Credit towards The Certificate in Subsea Technology. The Certificate will be awarded after all 4 Certificates of Unit Credit have been accumulated.

The series will be of value to:

• The materials are suitable for new starts to the industry or long-term employees who wish to gain formal vocational related qualifications. • Subsea technicians in the early years of their career or technicians from other industries wishing to transfer to working in the subsea Industry. • Managers and supervisors of oil, service and manufacturing companies who need to build on their background knowledge of the subject. • New technical or engineering graduates, as part of their induction programme. • Administrative staff that require an introduction to the technical background, and a key to the technical language. • The industry, as underpinning knowledge towards achieving standards of competence.

Modules consist of one, spirally bound workbook contained in a presentation folder. As well as the subject matter workbooks contain:

• Training targets for candidates to achieve by the end of each unit. • Test yourself questions to see how much candidates understand. • Check yourself answers to check that candidates are progressing along the right lines. • Activities for candidates to apply their new knowledge. • Summaries for candidates to recap on the major steps in their progress.

Subsea Equipment & Tools 1 Workbook comprising 10 sections Study time: 40-60 hours Topside Facilities for Different Water Depths Oil Industry Engineering Standards Wellhead and Hanger System Workover Systems Conventional Xmas Tree Spool or Horizontal Xmas Tree Well Intervention System Protective Structures Subsea Field Layout Case Study Material Technologies, Subsea Systems & Flow Assurance 1 Workbook comprising 19 sections Study time: 40-60 hours.

  • Basics of Engineering Materials & Properties
  • Introduction to Materials for Subsea Equipment
  • Applications of Materials
  • Failure Mechanisms
  • Cathodic Protection & Hydrogen Sulphide
  • Coatings & Surface Protection
  • Basics of Metal Fatigue
  • The Erosion Process
  • The Main Subsea Assemblies
  • Manifold Design & Insulation
  • Manifold Facilities & Flow Management
  • Control System
  • Pipeline End Manifold
  • High Integrity Pipeline Protection System
  • Pipeline End Termination
  • Corrosion, Erosion & Radio Activity
  • Subsea Separation
  • Main Sensor Systems
  • Well Intervention Vessels

ROV Systems

1 Workbook comprising 11 sections

Study time: 40-60 hours

ROV Systems 1 Workbook comprising 11 sections Study time: 40-60 hours General Principles of an ROV ROV Basic Principles Safety Considerations Identification of Main System Components Deployment Methods & Handling Systems Basics of ROV Physics Electrical Basics Communication Basics Basic ROV Hydraulic System Main Sensor Systems ROV Tooling Suites Subsea Controls 1 Workbook comprising 5 sections Study time: 40-60 hours Subsea Productions Control System Basics Subsea Control Hydraulics Subsea Communication Systems Subsea Electrical Systems Computing Systems, Electronics & Sensors –

Exams can be held anytime, at an appointed venue i.e. there is no set time limit between starting a module and sitting the exam.

When the candidate is ready to take the exam an invigilator must be appointed on their behalf. The ‘Invigilator’ may be a Training Manager, OIM or Senior Manager. The invigilator must be responsible for the receipt of the exam papers, security of the papers, invigilation of the exams and return of papers. The invigilator must contact:

Once appointed, the exam papers will be sent to the invigilator.  Included with the papers will be an invigilation form for signature of the invigilator and rules and procedures for the exam. If, however, you do not wish to sit the exam at your workplace, you may sit the exam, free of charge at our offices at Minerva House. If this is not possible, then we suggest you contact your local college or learning centre to arrange to sit the exam on their premises. These arrangements must be made by the candidate. Some colleges may charge an invigilation and room hire fee which the candidate will be responsible for.

The examination is a two hour closed book written exam. Section A comprises of 20 short answer questions similar to the Test Yourself section in the workbooks. Section B comprises of three questions of which two must be answered – these require good, neat, correctly labelled drawings and a good descriptor. All questions in the paper relate to the information given in the workbooks.

Pass Marks: 60% -74% = Pass, 75% -84% = Credit, 85%- 100% = Distinction

Test yourself questions are available in the workbooks to help you prepare for your exams.

If you do not achieve the required pass mark (60%) in your module exam you will be able to re-sit your exam at no extra cost. However you will only receive a pass grade in your re-sit irrespective of your result.

Should you require to re-sit the same module exam more than once there will be an examination fee of £30.00

Each individual module in the Subsea Techology Series is priced at £150.00 For all 4 modules the total is £600.00 – See more at:

 

 

 

EAL Level 3 SVQ in Engineering Maintenance (All Engineering disciplines)

Summary

These SVQs are work based qualifications that are suitable for people working in an engineering environment.

What subjects will I study?

Subject studied will include:

• Complying with statutory regulations and organisational safety requirements.
• Reading and using engineering drawings and specifications.
• Working efficiently and effectively in engineering.
Other units will be set into a qualification pathway to suit the needs of the student and the employer, as detailed below.

How will I be assessed?

The SVQ is assessed on practical work in the work place and a portfolio of work. It also includes questioning to show an underpinning knowledge of engineering work, and is assessed by a trained assessor coming into your working environment and assessing you on real installations that you are working on.

For apprentices or semi skilled workers this programme/training gives the complete coverage of hands on practical assessments making a competent and highly skilled worker

How long is the course?

The SVQ is work-based and is designed to reflect the skills and knowledge of people who work in the engineering industry. The qualification is taken over 12-24 months depending on each individual.

EAL Level 3 SVQ Engineering Maintenance programmes

SVQ Level 3 Engineering Maintenance (Mechanical) SCQF Level 6: GC8Y 23

Engineering Maintenance (Mechanical)

Mandatory: ALL Assessment Routes must be completed:
SENM3/001 Complying with statutory regulations and organisational safety requirements
SENM3/002 Using engineering drawings and documents in maintenance activities
SENM3/003 Working efficiently and effectively in engineering
SENM3/004 Handing over and confirming completion of maintenance activities

Optional: BOTH of the following must be completed:
SENM3/005 Carrying out fault diagnosis on mechanical equipment
SENM3/006 Maintaining mechanical equipment

Plus two more from the following:
SENM3/007Restoring mechanical components to usable condition by repair
SENM3/008 Producing replacement components for maintenance activities
SENM3/009 Carrying out preventative planned maintenance on mechanical equipment
SENM3/010 Carrying out condition monitoring of plant and equipment
SENM3/080 Assisting in the installation of mechanical equipment

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SVQ Level 3 Engineering Maintenance (Electrical) SCQF Level 6: GC90 23

Engineering Maintenance (Electrical)
Mandatory: ALL Assessment Routes must be completed:

SENM3/001 Complying with statutory regulations and organisational safety requirements
SENM3/002 Using engineering drawings and documents in maintenance activities
SENM3/003 Working efficiently and effectively in engineering
SENM3/004 Handing over and confirming completion of maintenance activities

Optional: All of the following must be completed:
SENM3/011 Carrying out fault diagnosis on electrical equipment and circuits
SENM3/012 Maintaining electrical equipment
SENM3/013 Modifying or rewiring electrical circuits

Plus two more from the following:
SENM3/014 Testing electrical equipment and circuits
SENM3/015 Carrying out preventative planned maintenance on electrical equipment
SENM3/010 Carrying out condition monitoring of plant and equipment
SENM3/081 Assisting in the installation of electrical/electronic equipment

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SVQ Level 3 Engineering Maintenance (Electronic) SCQF Level 6: GC91 23

Engineering Maintenance (Electronic)
Mandatory: ALL Assessment Routes must be completed:

SENM3/001 Complying with statutory regulations and organisational safety requirements
SENM3/002 Using engineering drawings and documents in maintenance activities
SENM3/003 Working efficiently and effectively in engineering
SENM3/004 Handing over and confirming completion of maintenance activities

Optional: All of the following must be completed:
SENM3/016 Carrying out fault diagnosis on electronic equipment and circuits
SENM3/017 Testing electronic equipment and circuits
SENM3/018 Repairing electronic equipment

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SVQ Level 3 Engineering Maintenance (Fluid power) SCQF Level 6: GC92 23

Engineering Maintenance (Fluid Power)
Mandatory: ALL Assessment Routes must be completed:

SENM3/001 Complying with statutory regulations and organisational safety requirements
SENM3/002 Using engineering drawings and documents in maintenance activities
SENM3/003 Working efficiently and effectively in engineering
SENM3/004 Handing over and confirming completion of maintenance activities

Optional: Select both of the following:
SENM3/019 Carrying out fault diagnosis on fluid power equipment and circuits
SENM3/020 Maintaining fluid power equipment

Plus two more from the following:
SENM3/021 Carrying out preventative planned maintenance on fluid power equipment
SENM3/010 Carrying out condition monitoring of plant and equipment
SENM3/022 Testing fluid power equipment and systems

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SVQ Level 3 Engineering Maintenance (Engineered Systems) SCQF Level 6: GC93 23

Engineering Maintenance (Engineered Systems)
Mandatory: ALL Assessment Routes must be completed:

SENM3/001 Complying with statutory regulations and organisational safety requirements
SENM3/002 Using engineering drawings and documents in maintenance activities
SENM3/003 Working efficiently and effectively in engineering
SENM3/004 Handing over and confirming completion of maintenance activities

Optional: Must complete the following:
SENM3/023 Carrying out fault diagnosis on engineered systems

Plus two more from the following:
SENM3/024 Maintaining mechanical equipment within an engineered system
SENM3/025 Maintaining electrical equipment within an engineered system
SENM3/026 Maintaining fluid power equipment within an engineered system
SENM3/027 Maintaining process controller equipment within an engineered system

Plus one more from the following:
SENM3/028 Carrying out preventative planned maintenance on engineered systems
SENM3/010 Carrying out condition monitoring of plant and equipment

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SVQ Level 3 Engineering Maintenance (Services Maintenance) SCQF Level 6: GC94 23

Engineering Maintenance (Engineered Systems)
Mandatory: ALL Assessment Routes must be completed:

SENM3/001 Complying with statutory regulations and organisational safety requirements
SENM3/002 Using engineering drawings and documents in maintenance activities
SENM3/003 Working efficiently and effectively in engineering
SENM3/004 Handing over and confirming completion of maintenance activities

Optional: Must complete the following:
SENM3/023 Carrying out fault diagnosis on engineered systems

Plus two more from the following:
SENM3/024 Maintaining mechanical equipment within an engineered system
SENM3/025 Maintaining electrical equipment within an engineered system
SENM3/026 Maintaining fluid power equipment within an engineered system
SENM3/027 Maintaining process controller equipment within an engineered system

Plus one more from the following:
SENM3/028 Carrying out preventative planned maintenance on engineered systems
SENM3/010 Carrying out condition monitoring of plant and equipment

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Engineering Maintenance (Services Maintenance)
Mandatory: ALL Assessment Routes must be completed:

SENM3/001 Complying with statutory regulations and organisational safety requirements
SENM3/002 Using engineering drawings and documents in maintenance activities
SENM3/003 Working efficiently and effectively in engineering
SENM3/004 Handing over and confirming completion of maintenance activities

Optional: Must complete both of the following:
SENM3/029 Reading and extracting information from service drawings and specifications
SENM3/030 Carrying out fault diagnosis on services and systems

Plus two more from the following:
SENM3/031 Maintaining fresh water distribution systems and equipment
SENM3/032 Maintaining waste/foul water distribution systems and equipment

SENM3/033 Maintaining workplace environmental control systems
SENM3/034 Maintaining emergency power generation equipment
SENM3/035 Maintaining heating and ventilation systems
SENM3/036 Maintaining air conditioning and ventilation systems
SENM3/037 Maintaining gas distribution systems and equipment
SENM3/038 Maintaining compressed air systems and equipment
SENM3/039 Maintaining process control systems
SENM3/040 Maintaining instrumentation and control systems
SENM3/041 Maintaining industrial refrigeration equipment
SENM3/042 Maintaining environmental control equipment
SENM3/073 Maintaining medical gas pipeline systems and equipment

Plus one more from the following:
SENM3/043 Carrying out preventative planned maintenance on services systems and equipment
SENM3/010 Carrying out condition monitoring of plant and equipment

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SVQ Level 3 Engineering Maintenance (Lift Servicing) SCQF Level 6: GC95 23
ENG: Engineering Maintenance (Lift Servicing)
Mandatory: ALL Assessment Routes must be completed:

SENM3/001 Complying with statutory regulations and organisational safety requirements

SENM3/002 Using engineering drawings and documents in maintenance activities
SENM3/003 Working efficiently and effectively in engineering
SENM3/004 Handing over and confirming completion of maintenance activities

Optional: Must complete all of the following:
SENM3/044 Carrying out fault diagnosis on lifts
SENM3/045 Inspecting and servicing lift equipment
SENM3/046 Checking lift function
SENM3/047 Rectifying faults in lifts

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SVQ Level 3 Engineering Maintenance (Lift Repair) SCQF Level 6: GC96 23

Engineering Maintenance (Lift Repair)
Mandatory: ALL Assessment Routes must be completed:

SENM3/001 Complying with statutory regulations and organisational safety requirements
SENM3/002 Using engineering drawings and documents in maintenance activities

SENM3/003 Working efficiently and effectively in engineering
SENM3/004 Handing over and confirming completion of maintenance activities

Optional: Must complete all of the following:
SENM3/044 Carrying out fault diagnosis on lifts
SENM3/046 Checking lift function
SENM3/047 Rectifying faults in lifts
SENM3/048 Repairing/replacing lift doors, chains, ropes and equipment

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SVQ Level 3 Engineering Maintenance (Communication Electronics) SCQF Level 6: GC97 23

Engineering Maintenance (Communication Electronics)
Mandatory: ALL Assessment Routes must be completed:

SENM3/001 Complying with statutory regulations and organisational safety requirements
SENM3/002 Using engineering drawings and documents in maintenance activities
SENM3/003 Working efficiently and effectively in engineering
SENM3/004 Handing over and confirming completion of maintenance activities

Optional: Select one from the following:
SENM3/016 Carrying out fault diagnosis on electronic equipment and circuits
SENM3/053 Carrying out fault diagnosis on communication electronic systems

Plus two more from the following:
SENM3/017 Testing electronic equipment and circuits

OR (But not BOTH)
SENM3/054 Testing communication-electronic systems
SENM3/018 Repairing electronic equipment

OR (But not BOTH)
SENM3/055 Repairing communication-electronic systems
SENM3/057 Modifying communication-electronic systems
SENM3/058 Configuring communication-electronic systems
SENM3/059 Installing communication-electronic systems

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SVQ Level 3 Engineering Maintenance (Servicing Medical Equipment) SCQF Level 6: GC98 23
Engineering Maintenance (Servicing Medical Equipment)

Mandatory: ALL Assessment Routes must be completed:
SENM3/001 Complying with statutory regulations and organisational safety requirements
SENM3/002 Using engineering drawings and documents in maintenance activities
SENM3/003 Working efficiently and effectively in engineering
SENM3/004 Handing over and confirming completion of maintenance activities

Optional: Must select all of the following:
SENM3/060 Carrying out fault diagnosis on medical equipment
SENM3/061 Testing medical equipment
SENM3/062 Carrying out scheduled servicing on medical equipment
SENM3/063 Servicing cardiovascular equipment
SENM3/064 Servicing physiological monitoring and infusion equipment
SENM3/065 Servicing anaesthetic and ventilation equipment

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SVQ Level 3 Engineering Maintenance (Instrumentation and Control) SCQF Level 6:

Engineering Maintenance (Instrumentation and Control)
Mandatory: ALL Assessment Routes must be completed:

SENM3/001
Complying with statutory regulations and organisational safety requirements
SENM3/002 Using engineering drawings and documents in maintenance activities
SENM3/003 Working efficiently and effectively in engineering
SENM3/004 Handing over and confirming completion of maintenance activities

Optional: Select both of the following:
SENM3/074 Carrying out fault diagnosis on instrumentation and control equipment and circuits
SENM3/075 Maintaining instrumentation and control equipment and circuits

Plus two from the following:
SENM3/076 Carrying out preventative planned maintenance on instrumentation and control equipment
SENM3/077 Repairing/overhauling instrumentation and control equipment
SENM3/078 Testing and calibrating instrumentation and control equipment and circuits

For more details on the EAL Level 3 SVQ in Engineering Maintenance (All Engineering disciplines) , please email hugo@logis-tech.co.uk or complete the form below.

Application

Submit your details below to apply for this course, and we will get back to you with further details.

* indicates required field

Acceptable file types: doc,docx,pdf,txt,gif,jpg,jpeg,png.
Maximum file size: 1mb.

EAL Level 2 SVQ in Performing Engineering Operations

Summary

These SVQs are work based qualifications that are suitable for people working in an engineering environment.

What subjects will I study?

Subject studied will include:

• Complying with statutory regulations and organisational safety requirements.
• Reading and using engineering drawings and specifications.
• Working efficiently and effectively in engineering.
Other units will be set into a qualification pathway to suit the needs of the student and the employer, as detailed below.

How will I be assessed?

The SVQ is assessed on practical work in the work place and a portfolio of work. It also includes questioning to show an underpinning knowledge of engineering work, and is assessed by a trained assessor coming into your working environment and assessing you on real installations that you are working on.

For apprentices or semi skilled workers this programme/training gives the complete coverage of hands on practical assessments making a competent and highly skilled worker

How long is the course?

The SVQ is work-based and is designed to reflect the skills and knowledge of people who work in the engineering industry. The qualification is taken over 12-24 months depending on each individual.

EAL Level 2 SVQ in Performing Engineering Operations at SCQF Level 5

Qualification specific information

Candidates must complete the three Mandatory units, plus five optional units from either Group A and/or Group B

Units selected from Group A
Only one unit from 4, 32 and 61, 62 and 63 may be included in the learner’s choice of units.
If unit 65 is selected units 5,6, 11, 12, 15, 16, 17 cannot be included in the learner’s choice of units.
If unit 66 is selected units 10, 22, 23, 25, 26, 27, 28, 29, 30, 34 cannot be included in the learner’s choice of units.
If unit 67 is selected units 33, 35, 36, 40 cannot be included in the learner’s choice of units.
If unit 68 is selected units 19, 21, 37, 38, 39, 40 cannot be included in the learner’s choice of units.

Units selected from Group B must be delivered and assessed in the candidates place of work

Mandatory Assessment Routes: All three assessment routes must be completed

Mandatory Units:

SPEO2/001N Complying with statutory regulations and organisational safety requirements

SPEO2/002N Working Efficiently and Effectively in Engineering

SPEO2/003N Using and Communicating Technical Information

Group A Optional Units

SPEO2/004N Producing Mechanical Engineering Drawings using a CAD System
SPEO2/005N Producing Components using Hand Fitting Techniques
SPEO2/006N Producing Mechanical Assemblies
SPEO2/007N Forming and Assembling Pipework Systems
SPEO2/008N Carrying Out Aircraft Detail Fitting Activities
SPEO2/009N Installing Aircraft Mechanical Fasteners
SPEO2/010N Producing Aircraft Detail Assemblies
SPEO2/011N Preparing and Using Lathes for Turning Operations
SPEO2/012N Preparing and Using Milling Machines
SPEO2/013N Preparing and Using Grinding Machines
SPEO2/014N Preparing and Proving CNC Machine Tool Programs
SPEO2/015N Preparing and Using CNC Turning Machines
SPEO2/016N Preparing and Using CNC Milling Machines
SPEO2/017N Preparing and Using CNC Machining Centres
SPEO2/019N Maintaining Mechanical Devices and Equipment
SPEO2/020N Assembling and Testing Fluid Power Systems
SPEO2/021N Maintaining Fluid Power Equipment
SPEO2/022N Producing Sheet Metal Components and Assemblies
SPEO2/023N Producing Platework Components and Assemblies
SPEO2/024N Cutting and Shaping Materials using Thermal Cutting Equipment
SPEO2/025N Preparing and Proving CNC Fabrication Machine Tool Programs
SPEO2/026N Preparing and Using CNC Fabrication Machinery
SPEO2/027N Preparing and Using Manual Metal Arc Welding Equipment
SPEO2/028N Preparing and Using Manual TIG or Plasma-arc Welding Equipment
SPEO2/029N Preparing and Using Semi-automatic MIG, MAG and Flux Cored Arc Welding Equipment
SPEO2/030N Preparing and Using Manual Oxy/fuel Gas Welding Equipment
SPEO2/031N Preparing and Using Manual Flame Brazing and Braze Welding Equipment
SPEO2/032N Producing Electrical or Electronic Engineering Drawings using a CAD System
SPEO2/033N Wiring and Testing Electrical Equipment and Circuits
SPEO2/034N Forming and Assembling Electrical Cable Enclosure and Support Systems
SPEO2/035N Assembling, Wiring and Testing Electrical Panels/Components Mounted in enclosures
SPEO2/036N Assembling and Testing Electronic Circuits
SPEO2/037N Maintaining Electrical Equipment/Systems
SPEO2/038N Maintaining Electronic Equipment/Systems
SPEO2/039N Maintaining and Testing Process Instrumentation and Control Devices
SPEO2/040N Wiring and Testing Programmable Controller Based Systems
SPEO2/041N Using Wood for Pattern, Modelmaking and Other Engineering Applications
SPEO2/042N Assembling Pattern, Model and Engineering Woodwork Components
SPEO2/043N Producing Composite Mouldings using Wet Lay-up Techniques
SPEO2/044N Producing Composite Mouldings using Pre-Preg Laminating Techniques
SPEO2/045N Producing Composite Mouldings using Resin Flow Infusion Techniques 5
SPEO2/046N Producing Composite Assemblies
SPEO2/052N Finishing Surfaces by Applying Coatings or Coverings
SPEO2/054N Carrying Out Heat Treatment of Engineering Materials
SPEO2/055N Carrying Out Hand Forging of Engineering Materials
SPEO2/061N Producing CAD Models (Drawings) using a CAD System
SPEO2/062N Producing Engineering Project Plans
SPEO2/063N Using Computer Software Packages to Assist with Engineering Activities
SPEO2/064N Conducting Business Improvement Activities
SPEO2/065N General Machining, Fitting and Assembly Applications
SPEO2/066N General Fabrication and Welding Applications
SPEO2/067N General Electrical and Electronic Engineering Applications
SPEO2/068N General Maintenance Engineering Applications
SPEO2/069N Joining Public Service Vehicle Components by Mechanical Processes
SPEO2/070N Assembling Structural Sub-Assemblies to Produce a Public Service Vehicle
SPEO2/071N Fitting Sub-Assemblies and Components to Public Service Vehicles
SPEO2/072N Preparing and Manoeuvring Armoured Fighting Vehicles AFVs for Maintenance and Transportation
SPEO2/073N Producing Composite Mouldings using Resin Film Infusion Techniques

Group B Optional Units

SPEO2/074N Operating Centre Lathes
SPEO2/075N Operating Milling Machines
SPEO2/076N Operating CNC Turning Machines
SPEO2/077N Operating CNC Milling Machines
SPEO2/078N Operating CNC Electro-Discharge Machines
SPEO2/079N Operating CNC Machining Centres
SPEO2/080N Producing Mechanical Sub-Assemblies/ Assemblies
SPEO2/081N Assembling Fluid Power Components to Mechanical Equipment
SPEO2/082N Assembling Electrical or Electronic Components to Mechanical Equipment
SPEO2/083N Assembling Pipework Components to Mechanical Equipment
SPEO2/084N Handing Over and Confirming Completion of Maintenance or Installation Activities
SPEO2/085N Carrying Out Fault Location on Mechanical Equipment
SPEO2/086N Carrying Out Maintenance Activities on Mechanical Equipment
SPEO2/087N Restoring Mechanical Components to Usable Condition by Repair
SPEO2/088N Carrying Out Scheduled Maintenance Activities on Mechanical Equipment
SPEO2/089N Carrying Out Fault Location on Electrical Equipment and Circuits
SPEO2/090N Carrying Out Maintenance Activities on Electrical Equipment
SPEO2/091N Carrying Out Modifications or Rewiring Electrical Circuits
SPEO2/092N Carrying Out Scheduled Maintenance Tasks on Electrical Equipment
SPEO2/093N Carrying Out Fault Location on Fluid Power Equipment and Circuits
SPEO2/094N Carrying Out Maintenance Activities on Fluid Power Equipment
SPEO2/095N Carrying Out Scheduled Maintenance Tasks on Fluid Power Equipment
SPEO2/096N Carrying Out Fault Location on Service Systems and Equipment
SPEO2/097N Carrying Out Scheduled Maintenance Tasks on Service Systems and Equipment
SPEO2/098N Carrying Out Maintenance on Emergency Power Generation Equipment
SPEO2/099N Carrying Out Maintenance on Compressed Air Equipment
SPEO2/100N Assisting in the Installation of Mechanical Equipment
SPEO2/101N Assisting in the Installation of Electrical/Electronic Equipment
SPEO2/102N Assisting in the Installation of Fluid Power Equipment
SPEO2/103N Assisting in the Installation of Emergency Electrical Equipment
SPEO2/104N Assisting in the Installation of Compressed Air Equipment
SPEO2/105N Carrying Out Fault Location Activities on Assistive Technology Systems and Equipment
SPEO2/106N Carrying Out Scheduled Servicing Activities on Assistive Technology Systems and Equipment
SPEO2/107N Carrying Out Maintenance and Repair Activities on Assistive Technology Systems and Equipment
SPEO2/108N Joining Materials by Manual MIG/MAG and other Continuous Wire Welding Processes
SPEO2/109N Producing Fillet Welded Joints Using a Manual Welding Process
SPEO2/110N Welding Materials with Mechanised Arc Welding Equipment
SPEO2/111N Marking Out Components for Fabrication
SPEO2/112N Cutting Sheet Metal to Shape Using Hand and Machine Tools
SPEO2/113N Forming Sheet Metal Using Hand and Machine Tools
SPEO2/114N Producing Sheet Metal Assemblies
SPEO2/115N Cutting and Shaping Materials using NC/CNC Laser Profiling Machines
SPEO2/116N Cutting and Shaping Using NC/CNC Plasma or Gas Cutting Machines
SPEO2/117N Assembling Components Using Mechanical Fasteners
SPEO2/118N Slinging, Lifting and Moving Materials and Components
SPEO2/119N Cutting Plate and Sections Using Shearing Machines
SPEO2/120N Cutting Materials Using Saws and Abrasive Discs
SPEO2/121N Bending and Forming Plate Using Power Operated Machines
SPEO2/122N Producing Platework Assemblies
SPEO2/123N Producing Holes Using Drilling Machines
SPEO2/124N Producing Structural Steel Ancillary Components
SPEO2/125N Assembling Structural Steelwork

For more details on the EAL Level 2 SVQ in Performing Engineering Operations, please email hugo@logis-tech.co.uk or complete the form below.

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HNC & HND Application + Costs




HNC, HND & PDA Application

SQA v Edexcel

Both HNC and HND programs by SQA and Edexcel are delivered by distance learning.  There is however slight differences in mode of delivery.

  • The SQA HN units have Supportive Assignments and an end of unit test.
  • The Pearson Edexcel HN units have Tutor Marked Assignments and are continuous assessment.

For the Edexcel HNC in Engineering programs a student must complete a minimum of 2 HN units per year.  If this criteria is not met unless there is good reason.  The student will be requested to be withdrawn. The SQA HNC in Engineering program, this is not stipulated.

Higher National Certificate in Engineering Programmes by distance learning (SQA):

HNC Electrical Engineering (SQA)
HNC Mechanical Engineering (SQA)
HNC Manufacturing Engineering (SQA)
HNC Electronics Engineering (SQA)
HNC Engineering Systems (SQA)
HNC Building Services Engineering (SQA)

To enrol on the HNC in Engineering (SQA) programmes the student must carry out the following:

(i)   Please send details of present qualifications to date.
(ii)  Please send details of work experience to date. A CV would be ideal.
(iii) Please complete A-1 Contact Form
(iv) Please complete A-1 Technical Training Enrolment Form 13-14
(v) Please complete ISA Form

Send to hugo@logis-tech.co.uk

Higher National Certificate in Engineering Programmes by distance learning (Edexcel):

HNC Electrical & Electronics Engineering (Edexcel)
HNC Mechanical Engineering (Edexcel)
HNC Instrumentation & Control Engineering (Edexcel)
HNC Chemical Engineering (Edexcel)
HNC Process Engineering Systems (Edexcel)
HNC Petroleum Engineering (Edexcel) Coming Soon !!!
HNC Metals & Materials Engineering (Edexcel) Coming Soon !!!

To enrol on the HNC in Engineering (SQA) programmes the student must carry out the following:

(i)   Please send details of present qualifications to date.
(ii)  Please send details of work experience to date. A CV would be ideal.
(iii) Please complete A-1 Contact Form
(iv) Please complete A-1 Technical Training Enrolment Form 13-14

Professional Development Award Programmes by Open learning / Distance Learning:

PDA in Renewable Energy Systems (SQA)
PDA in Project Management (SQA)

To enrol on the PDA (SQA) programmes the student must carry out the following:

(i) Please send details of present qualifications to date.
(ii) Please send details of work experience to date. A CV would be ideal.
(iii) Please complete A-1 Contact Form
(iv) Please complete A-1 Technical Training Enrolment Form 13-14
(v) Please complete ISA Form

Higher National Diplomas in Engineering (SQA & Edexcel) Programmes by Open learning / Distance Learning:

HND in Engineering Systems (SQA)
HND Electrical & Electronics Engineering (Edexcel)
HND Mechanical Engineering (Edexcel)
HND Instrumentation & Control Engineering (Edexcel)
HND Chemical Engineering (Edexcel)
HND Process Engineering Systems (Edexcel)

To enrol on the HND in Engineering (SQA & Edexcel) programmes the student must carry out the following:

(i) Please send details of present qualifications to date.
(ii) Please send details of work experience to date. A CV would be ideal.
(iii) Please complete A-1 Contact Form
(iv) Please complete A-1 Technical Training Enrolment Form 13-14
(v) Please complete ISA Form

All SQA and Edexcel HNC in Engineering programs by distance learning cost £4,055.00 in total.  They are normally paid by HN unit.  However full payment is also accepted.

For the SQA HNC in Engineering programme (12 HN units)

(i) Initial cost – Enrolment, registration and 1st HN unit is £645

(ii) 11 HN units x £310 is £3,410

Total is £4.055.00

For the Edexcel HNC in Engineering programme (8 HN units)

(i) Initial cost – Enrolment, and 1st HN unit is £642.75

(ii) 7 HN units x £487.50 is £3,412.25

Total is £4,055

For the Edexcel HND in Engineering programme (16 HN units)

(i) Initial cost – Enrolment, and 1st HN unit is £64o

(ii) 7 HN units x £487.50 is £3,412.25

Total is £7,987.15




PDA Renewable Energy Systems Modules

A typical PDA in Renewable Energy Systems program by Open / Distance learning – Course Contents

PDA – Renewable Energy Systems – G85G 15

Mandatory Units (6 credits required ):

Renewable Energy Systems: Overview of Energy Use
(Unit Code F1YL 34 – 2 Credits)

This Unit has been designed to provide candidates with knowledge and understanding of current issues and trends in the production and use of energy. The Unit will also allow candidates to gain an understanding of the need for sustainability and the adoption of renewable energy sources in order to limit global environmental damage. In all cases, arguments are primarily developed on the basis of quantitative data, though qualitative social factors are also considered. The Unit is largely theoretical in nature and does not consider the technology of renewable energy systems, and as such, the Unit may be considered applicable to disciplines out with Engineering.

On completion of the Unit the candidate should be able to:

  • Describe global energy uses and trends
  • Explain environmental effects associated with energy production and use
  • Analyse the costs of different sources of energy
  • Compare the advantages and disadvantages of alternative energy sources
  • Explain the concepts of efficiency and energy saving in buildings, transportation and power generation.

Renewable Energy Systems: Technology
(Unit Code F1YN 34 – 2 credits)

This Unit has been designed to provide candidates with a knowledge and understanding of natural systems and processes that can be exploited as sources of renewable energy. Candidates will gain familiarity with the physics and engineering of the equipment used for extracting the available energy, and understand how energy transfer processes impact on efficiency and cost. A wide range of renewable energy sources are considered either individually or by reference to common or shared properties, and candidates will emerge with a level of technical knowledge that will permit them to undertake accurate quantitative comparisons between technologies, and the ability to calculate the potential or effectiveness of a particular system or solution. The way energy is used, particularly in buildings, is also considered and technological solutions that reduce energy waste are examined. The focus in the Unit is strongly on general principles and the candidate is not expected to design or construct complete systems, or assess in detail the operation of any specialist system. Specialist Renewable Energy Systems Units have been developed to allow candidates to study individual renewable energy technologies in greater depth than are possible in this Unit.

On completion of the Unit the candidate will be able to:

  • Explain the operation and characteristics of electrical generator systems
  • Explain the characteristics and optimal design of prime movers used in renewable energy applications
  • Analyse the effectiveness of wind, wave, tidal and hydroelectric systems
  • Evaluate energy transportation issues including hydrogen-based solutions
  • Investigate the characteristics of photovoltaic (PV) system
  • Analyse the heating requirements of buildings to reduce energy end-use.

Renewable Energy Systems: Microgeneration Systems
(Unit Code F1YK 34 – 1 credit)

This Unit has been designed to develop candidates’ knowledge and understanding of small power renewable energy generation systems suitable for domestic or small community development The Unit deals with all aspects of generating energy for the home or small business from planning, installation and running such systems.  Candidates will have opportunities to develop a report on the energy conservation issues associated with using microgeneration on small scale ventures which can be their own home, business or community.  Various technologies that can be used for this type of energy generation will be investigated mainly through using existing products available on the market but self designed systems can also be used.  The financial and environmental impact of using microgeneration systems against using energy from the national grid will also be investigated.

On completion of the Unit the candidate should be able to:

  • Analyse the results from an energy audit
  • Select a microgeneration system for a particular project
  • Evaluate the effects and benefits of microgeneration from a financial and environmental point of view.

Renewable Energy Systems: Wind Power
(Unit Code F1YR 35 – 1 credit)

Windturbines

Video on Wind Turbines Worth Watching !!!

This Unit has been designed to provide candidates with a good technical knowledge and understanding of the principles of operation of wind turbines. The Unit also highlights the importance of environmental and economic factors when planning the installation of a turbine or turbine group.  The candidate will be encouraged to develop an objective approach to the planning of a wind power system by quantifying such factors as mean power output and variability using meteorological information appropriate to the site. The candidate will be expected to make scientifically competent recommendations based on this data.  Installation effort, reliability and maintenance issues are also to be considered.

The content of the Unit is largely theoretical, but basic engineering principles will be reinforced through a practical investigation of operational turbines and/or the behaviour of models in the laboratory. The focus of the Unit is solely on large wind turbines.

On completion of the Unit the candidate will be able to:

  • Analyse the response of different turbine and rotor designs to a variety of wind conditions
  • Evaluate the economic performance and environmental impact of a turbine in a variety of locations
  • Apply an operational understanding of wind turbines to a theoretical or practical problem context

PDA Project Management Modules

A typical PDA in Project Management program by open / distance learning – Course Contents

PDA – Project Management – G85G 15

Mandatory Units (4 credits required ):

Project Management: Project Justification and Planning

(Unit Code DV5H 35 – 2 credits)

This Unit is designed to provide the candidate with the knowledge and skills required to prepare a project proposal including an outline project plan. The resultant skills will enable the candidate to develop a business case for a project which demonstrates its fit with the organisation’s business objectives and its viability based on the appraisal of a number of possible options.

This Unit is intended for project managers working in the public, private or voluntary sectors. They will be experts in their field of operation but without any formal project management qualifications. This Unit is designed to provide the project managers with the knowledge and skills to seek and gain approval for a project proposal based on a well developed business case and outline project plan.

On completion of this Unit, the candidate should be able to:

  • Produce the rationale for a project.
  • Assess the viability of a project proposal.

Project Management: Managing the Implementation of a Project

(Unit Code DV5J 35 – 2 credits)

This Unit is designed to provide the candidate with the knowledge and skills required to run a project, which has been given approval to proceed to implementation. The resultant skills will enable the candidate to manage and control project resources including project relationships and the budget within the context of efficient management of risk and change.

This Unit is intended for project managers working in the public, private or voluntary sectors. They will be experts in their field of operation but without any formal project management qualifications. This Unit will enable project managers to manage the implementation of a planned and approved project and apply a process of controlled closure on its completion or early termination.

On completion of this Unit, the candidate should be able to:

  • Manage project relationships
  • Control a project budget
  • Monitor and control a project
  • Manage risks and issues
  • Evaluate and close a project
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