The system is designed to be manufactured in high volume and deployed as distributed infrastructure. The hot water storage is in effect a "battery" for solar energy storage.
The aim of the technology is to be distributed infrastructure that offsets the power stations that are being removed from the electrical grid. When deployed it will reduce grid demand, reduce consumer exposure to energy cost increases and reduce the need to expand the distribution system (poles and wires).
The system works by using solar panels to directly heat stored hot water. The stored hot water is used to power an ejector driven refrigeration system. The system is close coupled with a small conventional a/c system.
Core Team
The core team consists of:
- Dr.
- Leon Pikovski: Leon is a highly experienced mechanical engineer with particular expertise in air conditioning and thermal management systems designing for high volume manufacture.
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Potential Impact
The system cost will vary depending upon site location. The Cool Solar product cost will be competitive on a subscription model basis. Once the system is in high volume production the hardware costs are expected to decrease.
The target is to achieve 75-80% reduction in heating/cooling energy and hot water energy from the electrical grid. For a medium sized house in
As an indirect comparison, 1.3M to 1.4M household installations would be of the order of magnitude of
The Cool Solar technology is one of the few demand side solutions being developed. Each Cool Solar installation reduces the demand on the grid. Unlike most renewable energy technologies, Cool Solar does not require any investment or upgrades to the electrical distribution system (poles and wires, etc.).
Current Status
The system has previously been proven in the lab at ANU using a superseded technology refrigerant. The system has been redesigned to utilise the latest technology refrigerant R1234yf, which has a Global Warming Potential (GWP) of less than one. It is now in the technology commercialisation phase.
A complete virtual prototype has been designed. The construction of the physical prototype that matches the virtual design is under way. The majority of the hardware has either been purchased or manufactured. Assembly has commenced.
The static control system model is complete. The dynamic control system model is under development.
Next Steps
The physical development rig will be completed shortly. This will allow full system testing to commence. Full system testing will enable development of the control system algorithms, detailed design specifications for the pilot system and initial sourcing discussions for the production version.
It is expected that the next announcement will be related to the commissioning of the development rig.
About
Listed on the
Issue Code: ESCLV
Issue
Issue Type: 01 - Ordinary
ISIN: AU0000ESCLV4
Industry: Industrials
Nominated Adviser:
Listed Date: Tuesday,
Contact:
Mr
T: +61 (0)419 384 059
E: dhacraig@endless-solar.com.au
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