INTEGRATED SOLAR PHOTOVOLTAIC (PV) SYSTEM DESIGNER

COURSE DESCRIPTION

DEWA's Sustainability & Innovation Centre in collaboration with TÜV Rheinland Academy organizes the 4^th cycle of training and international standard certification: Integrated Solar Photovoltaic (PV) System Designer. Participants who pass will gain system design and configuration competence in solar energy systems. Upon successful completion of training course and examination, participants will receive a professional certificate. Knowledge that can be applied to many remote areas and answer primary energy needs. The standard used is IEC 60364-7-712 and IEC 62446.

Duration
20 January 2025 - 24 January 2025

Cost
AED 7,680

Location : DEWA's Sustainability & Innovation Centre

Minimum admission requirements

• Higher degree of education in engineering or knowledge as a technician (e.g. mechanic, electrician, and instrumentation), engineer, and/or practical experience in the installation, maintenance and sale of PV equipment are recommended.
• Admission to the examination is granted upon a minimum attendance of 90% of the training program.

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LEARNING OBJECTIVES

At the end of the program, participants are expected to gain knowledge in :

• The principles of Photovoltaic (PV) System, Standard IEC 60364-7-712 and IEC 62446

• The principles of PV Plant Design

• The economic evaluation of PV design

• The basic ability to design and to configure PV components for Low Voltage on-grid and off-grid system

• Calculate PV system sizing for on-grid and off-grid

CONTENT

Introduction to the basic concept of photovoltaic system

• Introduction to market situation

• Introduction to the concept of plants connected to the power grid

• Development from Solar cell to the module and the PV Plant electrical basics - current, voltage, electric power

• Module technologies and characteristic values

  • Plant design 1: The roof, system static and building static documentation and strategy module orientation and inclination

  • Plan design 2: Shading analysis, Module selection, inverter selection, and design mounting system, processing plant calculation and cost

• Economic evaluation cost and benefit analysis

• Challenges in remote / off grid plant

• Battery technology for the Hybrid plant

• Power plant design: Design simulation using PVsyst

• Financial analysis: Economic feasibility study using PVsyst

• Microgrid reliability: Microgrid design simulation

• Electrical protection: Electrical network protection coordination

• Examination (3.5 hours) - Written Examination

For any inquiry related to the training program, please reach us on the below:
Email: cleantech@innovationcentre.ae