Driving Change With 100kW Solar Systems

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Patented technology

The patented technology used in our panels ensures  maximised efficiency – even in low light – which means greater savings for our clients year round.

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Uncompromising Durability

Research shows consumers are 100 times more likely to return a standard panel over a SunPower Panel, a testament to their quality.

40 Years Warranty
Industry’s Best Warranty

The most comprehensive warranties available on the Australian market, with a full 40 Year Warranty and no hidden fine print.

Unleash Peak Energy Performance with Elite 100kW Solar Systems Adelaide

Designed to maximise energy production and reduce your carbon footprint, our solar systems offer exceptional performance and long-term savings.

Harnessing the abundant sunlight in South Australia, our state-of-the-art solar panels and inverters ensure reliable and efficient operation. With a 100kW capacity, these systems are perfect for commercial and large-scale applications, providing substantial electricity generation for businesses, schools, and community organisations.

Take control of your energy consumption and contribute to a greener future. Contact us today to learn more about our solutions and start harnessing the sun’s energy for your power needs.

Upgrade to sustainable energy with our comprehensive solar panel packages, tailored for efficiency and cost savings.

Solar Systems

What are the best types of 100kW solar systems?

There are several types that are considered among the best:

Monocrystalline Panels: These panels are known for their high efficiency and sleek appearance. They are made from a single crystal structure, allowing them to convert sunlight into electricity effectively.

Polycrystalline Panels: These panels are cost-effective and offer good efficiency. They are made from multiple silicon crystals, providing a slightly lower efficiency compared to monocrystalline panels but at a more affordable price point.

Thin-Film Panels: Thin-film panels are lightweight and flexible, making them suitable for certain installations. They have lower efficiency compared to crystalline panels but can perform better in low-light conditions.

Hybrid Solar Systems: These systems combine the benefits of panels with energy storage solutions, such as batteries. They allow you to store excess electricity generated during the day for use during the night or when demand is high.

Grid-Connected Systems: These systems are connected to the electrical grid, allowing you to feed excess electricity back into the grid and receive credits or compensation for the energy you generate.

How much does a 100kW solar system cost?

The cost of a 100kW solar system in Adelaide can vary depending on several factors. These factors include:

  • Type and quality of panels
  • Brand of inverters used
  • Complexity of the installation
  • Any additional components or services required

As an average, the cost in Adelaide typically ranges from $90,000 to $140,000.

However, it’s important to note that prices may fluctuate due to various market factors, including supply and demand dynamics, advancements in technology, and government incentives.

To get an accurate and up-to-date cost estimate, get in touch with a member of the Energy Buster team for a customised quote based on your specific needs and project requirements.

100kW solar system benefits

✔ Cost Savings: Generating your own electricity can significantly reduce your energy bills. With a 100kW system, you can produce a substantial amount of electricity, offsetting a significant portion of your energy consumption and potentially leading to significant cost savings over the system’s lifespan.

✔ Environmental Impact: Renewable energy is a clean and renewable source of power, reducing reliance on fossil fuels and minimising greenhouse gas emissions. By installing panels, you can contribute to a cleaner environment and help combat climate change.

✔ Return on Investment: Investing in renewable energy can provide attractive returns. The electricity generated by your 100kW system can result in long-term savings on energy bills, potentially leading to a return on investment over the system’s lifespan.

✔ Government Incentives: Incentive programs such as rebates, tax credits, and feed-in tariffs may be available, depending on your location. These incentives can further reduce the upfront cost, making it a more financially viable option.

✔ Energy Independence: Generating your own power provides a level of energy independence. With a 100kW system, you can significantly reduce dependence on the grid, especially during daylight hours when the production is at its peak.

✔ Durability and Longevity: They are designed to withstand various weather conditions and can last for several decades with proper maintenance. Investing in a quality system can provide reliable electricity generation for many years.

✔ Positive Brand Image: Embracing renewable energy demonstrates a commitment to sustainability and environmental responsibility. This can enhance the reputation of businesses, organisations, and institutions in Adelaide, attracting environmentally conscious customers and stakeholders.

What is the installation process for 100kW solar systems?

The installation process typically involves the following steps:

Step One: Consultation and Site Assessment

A reputable installer will conduct a consultation to understand your energy needs, assess your site’s suitability, and gather relevant information such as roof space, orientation, shading, and electrical infrastructure.

Step Two: System Design

Based on the site assessment, the installer will design a custom system that meets your energy requirements and maximises generation. This includes determining the optimal placement and configuration of panels, inverters, and any additional components.

Step Three: Permits and Approvals

The installer will handle the necessary permits and approvals required for the installation, such as grid connection and building permits. This ensures compliance with local regulations and standards.

Step Four: Procurement and Delivery

The installer will procure the panels, inverters, mounting systems, and other required equipment. They will coordinate the delivery of these components to your site.

Step Five: Installation

A team of qualified technicians will install the panels and other components according to the system design. This involves mounting the panels on the roof or ground-mounted structures, installing the inverters and wiring, and connecting the system to the electrical infrastructure.

Step Six: Electrical Connections and Commissioning

The installers will make the necessary electrical connections, including integrating the system with the electrical panel and grid connection point. They will perform tests and inspections to ensure the system is functioning optimally and safely.

Step Seven: Monitoring and Maintenance

Once the system is commissioned, you can monitor its performance using monitoring tools provided by the installer. Regular maintenance, such as cleaning the panels and checking for any issues, is recommended to ensure optimal performance and longevity.


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8 Things You Must Know Before Purchasing Solar Panels!

Frequently Asked Questions About 100kW Solar Systems in Adelaide

A 100kW system can power a wide range of applications depending on the energy consumption and usage patterns. Here are some examples:

Commercial Buildings: It can provide electricity for small to medium-sized commercial buildings, including offices, retail stores, restaurants, and warehouses. It can power lighting, air conditioning, heating, computers, and other electrical equipment.

Schools and Educational Institutions: It can supply electricity to schools, colleges, and universities, supporting classrooms, administrative areas, libraries, laboratories, and common areas.

Industrial Facilities: Certain industrial operations, such as small manufacturing plants, can benefit from a 100kW solar system to power machinery, equipment, and lighting.

Community Centres: It can provide electricity for community centres, recreation facilities, and gathering spaces, powering lighting, HVAC systems, audiovisual equipment, and other electrical devices.

Agricultural Operations: A 100kW solar system can be used to power irrigation systems, agricultural buildings, and equipment in farms and agricultural operations.

Multi-unit Residential Buildings: It can contribute to the electricity needs of apartment complexes, condominiums, or housing communities, supporting lighting, elevators, shared amenities, and common areas.

Public Facilities: It can power public facilities such as libraries, museums, hospitals, and government buildings, supporting various electrical loads required in these establishments.

It’s important to note that the specific energy requirements and the ability of a 100kW solar system to power these applications may vary based on factors such as location, climate, energy usage patterns, and the availability of energy storage systems or grid connections.

The number of panels required for a 100kW system can vary depending on factors such as the type and efficiency of the panels, the available space for installation, and the specific power output of each panel. Here’s a general estimate:

  1. Standard Efficiency Panels: If using standard efficiency panels with an average output of around 250 watts each, approximately 400 solar panels may be needed to achieve a 100kW system. This estimate assumes an average panel output of 250W (0.25kW) and a simple calculation of 100kW divided by 0.25kW per panel.
  2. High Efficiency Panels: If using higher efficiency panels with an average output of around 300 watts each, approximately 333 solar panels may be required to achieve a 100kW system. This estimate is based on the same calculation as above but with a higher panel output.

It’s important to note that the above estimates are rough approximations and the actual number of panels needed can vary based on the specific characteristics of the panels, such as their rated power output, efficiency, and the available installation area. Additionally, factors such as shading, panel orientation, and tilt angles can also impact the number of panels required.