Stand-alone power systems: Design only
Electrical
A course by
WITT
This course equips electrical professionals with the knowledge to design, assess, and commission stand-alone power systems for off-grid and remote applications. Delivered through flexible online study and a practical on-campus component.
Blended study
This is a mix of online learning & face-to-face sessions
WITT Campus, New Plymouth
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Assess site suitability and calculate energy yields
Participants will be able to assess whether a site is suitable for a stand-alone power system and calculate monthly estimated energy yields for clients.
Evaluate and profile client energy consumption
Graduates will be able to assess a client's energy use, create load versus renewable energy profiles, and estimate the proportion of renewable and generator-supplied energy.
Select optimal battery technology and energy mix
Learners will determine the best battery technology and energy resource mix for specific scenarios based on multiple technical and economic factors.
What You're Signing Up For
Stand-alone Power Systems: Design only is intended for electrical engineers and technically trained professionals looking to gain advanced knowledge of designing, assessing, and optimising off-grid renewable energy systems. The course covers site and load assessment, battery technology, renewable resource integration, system design and safety, relevant standards, and commissioning processes. It builds upon knowledge from grid-connected PV and battery system design and is endorsed by SEANZ. The program is delivered with a blend of self-paced online study and a three-day in-person component.
Course Content
- Commonly used off-grid battery chemistries and their characteristics
- Battery charging, PWM regulators, and MPPT charge controllers
- Battery inverters, inverter/chargers; differences between hybrid inverters and off-grid capable inverters
- AC and DC coupled battery inverter architectures
- Cable sizing, fault level calculations, and protective device selection
- Balance of system components
- Site suitability and load assessment
- System design and yield calculations
- Backup generator integration
- Integration of multiple energy sources (including wind and micro-hydro - introductory)
- Applicable regulations and standards (AS/NZS5033, AS/NZS4509.1, AS/NZS4509.2, AS/NZS5139, battery standards)
- Installation, testing, commissioning, and fault-finding of stand-alone systems
- Battery and electrical hazards
- Energy consumption assessment and optimisation
- Scenarios: remote monitoring, baches, tiny houses, off-grid homes and industry, remote village electrification
What you need to know first
Completion of Grid-Connected PV Systems: Design Only (required)
Completion of Grid-Connected Battery Systems: Design Only (highly recommended)
Electrical engineering or electrical theory background required
What sort of industry will this job lead to
Renewable Energy
Electrical Engineering
Energy Systems
Future employment opportunities might be
Design of stand-alone and off-grid renewable energy systems
Technical roles in renewable energy companies
Consultancy in electrical or energy fields
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