Solar Packages

Pacific Hydronics Solar Packages

Today, harnessing energy from the sun to produce hot water is easier than ever. Heliodyne offers systems that use solar energy to heat your water easily and efficiently. Government agencies also offer rebates, making solar hot water systems affordable for everyone.

Consider installing an environmentally-friendly solar hot water system in your home.

How it Works

A solar hot water system is really quite simple. You're using the sun's energy to heat a solar collector full of solar fluid (or water, depending on which type of system you install), which then transfers that heat (or hot water) into your home's hot water tank.

Solar Packages

Heating
Heating and Domestic
Heating and Pool/Spa

The Apricus solar collector is designed to be used with pressure up to 8 bar/116psi. This means it is compatible with all low pressure, and most mains pressure domestic hot water systems. In closed loop or sealed (dead water) thermal store systems an expansion vessel is often used to prevent pressure buildup as the water expands. A pressure release valve should also be used as a safety backup.

In areas where freezing is not of concern, open loop systems are often used. Open-loop systems are also appropriate for cold regions when used in combination with a Delta-T controller that incorporates a freeze protection feature. Closed loop systems usually incorporate the use of a heat exchanger, either inside or outside the hot water storage tank. Apricus solar collector are suitable for both open or closed systems, as long as pressure, heat and freezing are controlled.

The Apricus solar collector does not have a built-in tank, in fact the manifold of the 20 tube solar collector only contains about 510ml/1pint of water. A circulation pump is required to circulate the water through the manifold and back to the solar storage tank. Generally a Delta-T controller is used to control the pump. A flow rate of only 2L/min is required for most domestic installations, and therefore a low wattage pump is sufficient. Larger pumps are only necessary when several solar collectors are connected in series, or when the pump is required to overcome head pressure. The pressure drop at low flow rates is very minimal, only 700 Pa @ 3.3L/min for 20 tube manifold, and so is not a major consideration when sizing pumps.

Thick glass wool surrounds the Apricus solar collector's copper header, providing excellent insulation. The piping to and from the collector are however still susceptible to freezing, and therefore traditional freeze protection should be employed (low temp controller setting, or glycol/water closed loop). Solar tubes and heat pipes are able to withstand extremely cold conditions without being damaged. (click here for heat pipe details).

The advantage of solar tubes is that they insulate the inner tube from heat loss. This means that once heat is absorbed, it is transferred to the water in the manifold, and not lost to the outside environment. This is the key difference between solar tubes and flat plate solar collectors: the insulative properties. Combined with the heat transfer efficiency of the heat pipe, the Apricus solar collector can deliver excellent heat output all year round. The IAM (Incidence Angle Modifier) values of the Apricus are also very different to solar collectors with flat absorbers. The positive (>1) IAM values mean that the solar collector actually performs best mid morning and mid afternoon, resulting in a more stable heat output throughout the day. Click here to learn more about efficiency.

When installing a solar collector on your roof, how it looks is certainly important. The Apricus solar collector is designed to be low profile, sitting close to the surface of the roof. The tubes are black and so blend in nicely with most roof colours. The manifold is available in black, dark brown, or silver powder coated aluminium, and with either rear (R) or end (E) port models. The rear port manifold allows the plumbing to be hidden behind the solar collector manifold. In addition by using rear ports, two or more solar collectors may be connected side by side without a gap in between. End ports may be preferred for large scale applications for ease of connection in series, and reduction of pressure drop through the piping. Click here to see some installation photos.

Corrosion is always a consideration for any system that involves water and high temperatures. In warm environments, heavily chlorinated water can become a strong corrosive agent. In order to provide maximum corrosion resistance, the Apricus solar collector uses high purity (99.93%) copper piping and silver braze for the header. Copper provides excellent corrosion resistance and is commonly used in household plumbing. If corrosive liquids are to be used in the system, then a closed loop is highly recommended, thus allowing a non-corrosive liquids to be used in the solar collector loop.

If installed in open flow with a dead water thermal store style tank, corrosion and scale are almost eliminated as the system accepts almost no fresh water supply.

The high cost of solar tube style collectors, and in fact all solar collectors, has been a major obstacle to their popularity and wide scale use. The Apricus solar collector is a high quality system that provides excellent heat output and reliable operation. As a result of clever product design and low manufacturing costs, Apricus solar collectors are now very affordable, providing fast payback times.*

Please contact you local distributor for retail pricing in your area.

*Depends on factors such as total system cost, energy costs and solar insolation levels.

Scale formation is an issue in many regions, as it gradually blocks up plumbing particularly in hot water systems. With the high temperatures that the Apricus solar collector produces, scale formation in the manifold may occur. If water supply is very hard there are two main options:

1. Use an electric or magnetic water softener on plumbing

2. Use a closed loop system

3. Use an dead water thermal store configuration. Option 1 may still be required to protect the rest of the system.

A closed loop requires a more complicated system design and added cost. If there is no other reason to use a closed loop than to avoid scale, then it is advisable to use one of the widely available water softening devices.

Apricus solar collectors are ideal for large scale solar water heating applictions, able to be used in hotels, airports, apartment buildings or anywhere where hot water or heating is required. The economics of large scale applications are generally more favorable than domestic, as instead of having a pump and tank for every one or two solar collectors, a single tank and pump can be used for 50 solar collectors. Apricus solar collectors can accept mains pressure, are corrosion resistant and can be installed in series and/or

Country:United States
telephone:1-503641-6808

Solar tubes and heat pipes are able to withstand extremely cold conditions without being damaged.

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