
.png)
Strip Solar Heating
Turn sunshine into swim time with zero running costs.
.png)
The Sunlover Solar Pool Heating System is an efficient, durable, and cost-effective way to extend your swimming season by harnessing free energy from the sun. Using proven thermal engineering, water is circulated from the pool through UV-resistant, chemical-toughened solar absorber tubes on the roof, where it’s heated and returned to the pool.
The system features a 10-tube multilayered design for maximum heat absorption and faster warm-up times. With smart Australian-made digital controllers, it's easy to operate and customise, including optional wireless remote access. Built with long-lasting materials and an indestructible manifold design, it offers reliable performance with minimal maintenance—making it an ideal solution for year-round pool enjoyment.



Key features:
Free Energy
Utilises the sun’s natural heat, reducing energy bills and environmental impact.
Long-Lasting Materials
UV-resistant, puncture-tough construction ensures durability and longevity.
Extended Swim Season
Significantly increases the number of swim-ready days each year.
Low Maintenance
Simple, proven technology with minimal moving parts and electronic control systems.
High Efficiency
The 10-tube multilayered design maximises heat absorption for faster warm-up.
Australian Engineered
Designed for local conditions, with reliable local support and manufacturing.
or call 1300 955 381
We can quote and measure either in person or remotely using nearmap.
At The Pool Heating Co, we’re a team of experienced, qualified, licensed, and insured plumbers who have been proudly serving the Central Coast and Newcastle regions since 2011.
​
As an authorised dealer for Sunlover Strip Solar Heating, we offer not only premium products but also trusted, professional installation backed by years of experience.
​
Wondering if solar heating is right for your home? Get in touch to explore your best options.

or call 1300 955 381
We can quote and measure either in person or remotely using nearmap.