Compare courses
Register
European Energy Centre

Solar Photovoltaic Qualification Course

Oct 3—4, 2019
2 days
London, United Kingdom
GBP 594 ≈USD 729
GBP 297 per day

How it works

Disclaimer

Coursalytics is an independent platform to find, compare, and book executive courses. Coursalytics is not endorsed by, sponsored by, or otherwise affiliated with European Energy Centre.

Full disclaimer.

Description

COURSE CONTENT

  • Composition of the light
  • Photovoltaic effect
  • Photovoltaic cells
  • Materials
  • Daily/ annual energy
  • Positioning of the modules
  • Photovoltaic Energy
  • Photovoltaic Illumination
  • Planning and designing a photovoltaic installation
  • The electric load
  • Costs and evaluation of the economical solutions
  • Maintenance and reliability
  • Practical solutions
  • Typologies and modality of installation
  • Integration of the photovoltaic modules in the building structure
  • Payback time
  • Economical perspectives

Who should attend

  • Technicians and individuals intending to learn how to install, maintain and repair Solar Photovoltaic equipment.
  • Design engineers.
  • Architects.
ICTD International Centre for Training and Development

Solar Power System Theory and Maintenance

Next dates

Oct 20—24, 2019
5 days
Dubai, United Arab Emirates
USD 3300
USD 660 per day
Dec 22—26, 2019
5 days
Istanbul, Turkey
USD 3300
USD 660 per day

Description

The aim of this course is to provide the participants with a complete and up-to-date overview of domains concerning Photovoltaic (PC) with emphases on design, installation, operation & maintenance.

As well as the necessary testing requirements Code requirements from design through start-up of new systems are identified, for instance the 17th Edition IET Wiring Regulations and the micro-generation standards as well as standards for inspection and Maintenance of solar power systems that have been in service.

This course provides an operational understanding of standards, unique purposes of different solar power systems and the basis for requirements comprising both design as well as selection aspects. It grants a foundation of knowledge necessary for those responsible for assuring the electrical and mechanical integrity of existing PV systems, as well as for those responsible to design and construct themes of new solar power systems.

Course Objectives

Upon successful completion of this course, the delegates will be able to:

  • Gain an understanding of the physical phenomena which affect the design of systems and methods by which these phenomena can be analyzed as well as the additional requirements which need to be considered in formal specifications to ensure adequate and proper installations
  • Furnishes a confidence to plan, design, install and maintain a solar PV system and takes into consideration the majority of systems investigating different system configurations, components and operating characteristics
  • Understand the aspects which are particular to solar PV systems giving operatives the buoyancy to select install and maintain systems

Course Outline

Day 1

  • Introduction
  • The solar resource
  • Overview of solar technologies
  • Photovoltaic basics; cells, modules and arrays
  • Module types and construction, energy payback
  • Electrical characteristics (practical measurements)
  • Effects of all parameters
  • Series/parallel connection

Day 2

  • Component ratings
  • Array combiners, AC and DC isolators
  • PV module warranties and guarantees
  • Grid-connected systems
  • Module fixing; on-roof-integrated, flat-roof and façade
  • Grid connected inverters characteristics
  • Electrical Standards

Day 3

  • Inverted design concepts; central, single and multi-string and module
  • Planning and sizing grid-connected systems; array, inverters and cables
  • System configurations
  • Solar system design
  • Solar modules
  • Solar module mounting structures & arrays
  • Electrical wiring of the solar system and associated components

Day 4

  • Grid-connected solar systems
  • Charge controllers
  • Stand-alone system typology
  • Modules for stand-alone systems
  • Battery systems and their characteristics
  • Stand-alone inverters
  • Hybrid systems and inverters; AC and DC coupled systems

Day 5

  • Planning and manually sizing stand-alone systems
  • Computerized sizing simulation
  • Planning and sizing exercise
  • Manufacturers sizing tools
  • Earthling and lightning protection
  • Metering
  • System testing & commissioning

Course Methodology

A variety of methodologies will be used during the course that includes:

  • (30%) Based on Case Studies
  • (30%) Techniques
  • (30%) Role Play
  • (10%) Concepts
  • Pre-test and Post-test
  • Variety of Learning Methods
  • Lectures
  • Case Studies and Self Questionaires
  • Group Work
  • Discussion
  • Presentation

Who should attend

This course is intended for those who are involved in the design, analysis, installation, maintenance or ownership of Solar PV Systems. Engineers, electrical power designers, maintenance technicians, electrical installation specialists, quality assurance and manufacturing personnel involved in Power Generation & Distribution Industries will find it a time-saving means to broaden and update their knowledge. Those who must comply with Code requirements will benefit from the approach presented in this course.

Files

Detailed Description
Detailed Description
Show more