Date: |
19 Mar 2025, 5.30PM – 6.30PM |
duration: |
1 hr |
Location: |
Online |
Cost: |
Free event |
This presentation will unlock the key market aspects of solar power in New Zealand, where we’ll discuss the latest trends in solar uptake, particularly within the Commercial and Industrial (C&I) sectors. We'll dive into the cutting-edge design architectures that are shaping solar installations, focusing on ensuring optimal power quality at the point of connection with the grid. Additionally, we'll explore Green Star-compliant design practices that support sustainability goals while improving energy efficiency. Don't miss out on this opportunity to stay informed on the future of solar power in New Zealand!
Following the presentation Yariv will be available to answer your questions. In addition to our Electrical Engineering Group members, we extend the invitation to members of the Institution of Engineering & Technology (IET), the Institute of Electrical & Electronic Engineers (IEEE), the International Council on Large Electric Systems (CIGRE), the Chartered Institute of Building Services Engineers (CIBSE) and the Illumination Engineering Society (IES). Plus, all others who have an interest in this subject are more than welcome to join us too.
Key Learning Outcomes: By the end of the presentation, attendees will understand:
- Update on AS/NZS 5033 & 4777 series
- Solar Design Architectures
- Grid Services & Power Quality
Presenter Bio:
Yariv Edery – Director YEH Renewable Energy Consultants
Yariv has over 27 years of global experience in solar power, solar thermal, geothermal, wind, and water technologies, including 20 years specifically within the New Zealand market. He has a proven track record of designing and installing renewable power systems with storage throughout New Zealand and the Pacific. Yariv has personally overseen the design and construction of over 70.0 MWp of renewables, producing an estimated 90.0 GWh of clean energy and avoiding approximately 11,600 tCO2-e emissions annually.
Join the Electrical Engineering Group for a presentation by Yariv Edery, Director of YEH Renewable Energy Consultants, on the Fundamentals of Commercial & Industrial Solar Design. If you’re involved in the design of photovoltaic power systems, then this presentation will be of interest to you.
This presentation will unlock the key market aspects of solar power in New Zealand, where we’ll discuss the latest trends in solar uptake, particularly within the Commercial and Industrial (C&I) sectors. We'll dive into the cutting-edge design architectures that are shaping solar installations, focusing on ensuring optimal power quality at the point of connection with the grid. Additionally, we'll explore Green Star-compliant design practices that support sustainability goals while improving energy efficiency. Don't miss out on this opportunity to stay informed on the future of solar power in New Zealand!
Following the presentation Yariv will be available to answer your questions. In addition to our Electrical Engineering Group members, we extend the invitation to members of the Institution of Engineering & Technology (IET), the Institute of Electrical & Electronic Engineers (IEEE), the International Council on Large Electric Systems (CIGRE), the Chartered Institute of Building Services Engineers (CIBSE) and the Illumination Engineering Society (IES). Plus, all others who have an interest in this subject are more than welcome to join us too.
Key Learning Outcomes: By the end of the presentation, attendees will understand:
- Update on AS/NZS 5033 & 4777 series
- Solar Design Architectures
- Grid Services & Power Quality
Presenter Bio:
Yariv Edery – Director YEH Renewable Energy Consultants
Yariv has over 27 years of global experience in solar power, solar thermal, geothermal, wind, and water technologies, including 20 years specifically within the New Zealand market. He has a proven track record of designing and installing renewable power systems with storage throughout New Zealand and the Pacific. Yariv has personally overseen the design and construction of over 70.0 MWp of renewables, producing an estimated 90.0 GWh of clean energy and avoiding approximately 11,600 tCO2-e emissions annually.
