Solar Heating - Central Heating / Heating

Genersys Swimming Pool Heating

Genersys thermal solar technology is the cost effective way to heat swimming pools, whether they are Olympic size or simply a small domestic pool. Instead of using expensive and inefficient fossil fuel to heat your pool use the natural light of the sun, a free source of energy, that Genersys converts into useful heat.

Our Philosophy
Heating your swimming pool by traditional fossil fuel is very expensive and very wasteful of the planet's resources. Burning gas or oil creates harmful emissions and increases our fuel dependency for sourcing our energy from parts of the world that may not always be stable, friendly or even capable of supplying our fuel needs.

Most swimming pools can be heated using only Genersys solar thermal technology, wherever they are situated. At Genersys we believe that it is important to design our products so that they look good, they are very long lasting and require the minimal amount of maintenance. Quality is the foundation of our philosophy.

We accordingly design pool systems using indirect heat exchange systems, high quality thermal panels that we build ourselves in Europe which we guarantee to perform for ten years. The panels are designed to have a life span of more than 35 years and are made from easily recyclable materials, such as aluminium, copper and glass.

Genersys Performance
Pools should be heated to around 28°C. If you heat your pool to any significantly higher temperature algae and bacteria can cause problems unless you increase the chlorine levels significantly. Temperatures lower than about 25°C are uncomfortable for most people. Genersys thermal solar systems provide pool temperatures within the recommended range in most locations without the need to have a boiler system or an electric heating system.

These levels of performance are not possible in Northern latitudes in winter, when the daylight hours are short.

When your pool system is designed your Genersys approved installer will provide you with an estimate, based on meteorological conditions, of the performance range your system will provide.

How Genersys Pool Heating Works
An array of Genersys thermal solar panels is installed on a south facing roof or south facing poolside area. The amount of panels required depends upon the size of the pools and the performance needed. The panels are connected through a sealed circuit to a specially designed chlorine resistant pool heat exchanged. The sealed circuit is filled with an edible glycol solution (in places where below freezing temperatures can be experienced).

When light from the panels strikes the absorber surfaces heat is created. If the pool requires the heat a modulating pump pushes the glycol solution (and the heat it carries) to the heat exchanger. The heat exchanger carries the heat (but not the glycol) to the pool water that is pumped through it. The heat exchange operation is carried out immediately before the pool water is returned into the pool, after it has been filtered.

Provided the temperature at the panels is higher than the temperature in the pool, Genersys will heat the pool.

What do the panels look like?
Old fashioned thermal solar panels look ugly; they usually cannot be integrated and if the pool water flows through them they have to be cleaned and descaled and often have a short pool life.

Genersys panels have been designed to be thin, aesthetically acceptable and yet light enough to be installed on pool side buildings.

What is the payback?
Of course, if you heat your pool by oil or gas, there is no payback. It's all an expense. Pay back varies according to where your pool is, in-door or out-door, is it covered at night, etc,..….Payback can be as low as 18 months.

What about Guarantees?
Your installer will provide you with their own guarantee. Additionally Genersys will guarantee:

• Panel corrosion 20 years
• Panel performance 10 years
• Pumps & controller 2 years

Genersys Swimming Pool Heating Datasheet (268 KB)

Genersys Home Energy Heating System

Genersys Home Energy Systems synchronise the benefits of condensing boilers & solar panels, developed in order to provide a sustainable, efficient and "green" solution to the problem of providing heat and hot water in domestic homes throughout the United Kingdom.

Genersys technology includes real time modulation of the heat exchange pump, automatic adjustment of the boiler load to the outside temperature, sophisticated digital controllers and specially insulated heat exchange pipework.

No technology can, in the United Kingdom, provide all a domestic household's energy from renewable sources but the Genersys Home Energy System will go a long way to provide around 70% of a household's energy using the emission-free, green, clean energy of the sun.

Energy inefficiency causes environmental damage but it can be difficult to target budgets in a way that promotes energy efficiency and gives value for money. There are some organisations, such as those responsible for social housing or smaller premises in different locations where it is important to provide not only value for money but also an energy system that enables the end user to afford his or her energy bill.

This affordability is critical. Building a house that is 100% environmentally efficient is useful as a learning exercise but not terribly helpful if you have homes built years ago, occupied by people who cannot afford to keep warm or by occupants on a strict budget. One solution is to look at all the components in a home energy system and make them work together in the most efficient way.

There are three major components of an integrated home energy system: solar technology, a good gas condensing boiler, and a hot water store, which when synchronised can provide optimum money-saving efficiency.

Modern solar water heating technology is robust and mature. It collects light (both direct sunlight and the diffuse light that is available on a very cloudy day) and turns the light into heat on the absorber plate of the tubes. Over 96% of the light can be converted into heat. An absorber plate contained within a near perfect vacuum or a highly insulated panel, allows it to accept light but prevents any of the heat from escaping. The heat is pumped into the water store or direct into the boiler.

Traditional gas boilers are very wasteful of energy. They use a tremendous amount of energy making latent heat, which ends up heating the atmosphere when it is discharged outside into the fresh air by a flue. Traditional boilers were designed when fossil fuel was cheap and when no one had made the connection between dirty air and poor health or the connection between heavy fossil fuel use and global warming.

These days things are different. The best gas condensing boilers discharge hardly any latent heat into the air. Instead, the latent heat that a traditional boiler would discharge into the air is condensed, using superheated steam, and recovered for use as energy to heat the home. As a result, the best system does not waste expensive gas in order to maintain high heat in the home. This significantly reduces heating costs.

But the best gas condensing boilers do more than this. Most of the very best quality range gas condensing boilers operate at a typical efficiency of 86% but by using the special and exclusive variable controlled output some can achieve up to an amazing 98% efficiency rating.

In order to achieve the optimum efficiency from a gas condensing boiler it is necessary to control the temperature of the water returning to the gas boiler. This is achieved by adjusting the boiler output or the pump speed or by a combination of both.

Let us take an example: when you use a gas or electric fires to heat up a building, as outside temperature gets warmer you turn the fire down. This not only allows the room to maintain the right temperature but also reduce energy costs. If you were using gas central heating you could not turn a traditional boiler output down by adjusting the gas valve.

However, some systems incorporate an integral compensating and modulating digital controller that automatically adjusts the output of the boiler according to the outside temperature and the boiler load requirements. This integrates with a modulating variable speed air pump so that the right amount of air is mixed with the gas for optimum burning efficiency, according to load requirements .

The air and gas mixture in a well-adjusted condensing boiler means that combustion should occur almost without visible flame and with the lowest level of pollution possible. There is no need for a wasteful pilot light.

The final piece of this technology is a variable speed water pump to circulate hot water through the radiators. A critical factor in any heat exchange operation is the speed at which the water is pumped. Pump too quickly or too slowly and there is inefficient heat exchange.

The best quality water store replaces the traditional immersion heater. It is larger than the traditional system in order to take advantage of solar energy. Wherever possible (this may to an extent be determined by individual water pressure and the design of a building).

And the result of all this technology? Well, it will not provide 100% free energy but it should provide savings of between 60% and 80% of the energy bill and around two tonnes of carbon dioxide per system per household or equivalent user of energy in business premises each year.

Clearly, large savings of emissions are desirable, but there are many households where fuel poverty is still an issue and use of this technology, giving rise to affordable fuel bills, is likely to be considered by those responsible for social housing and smaller commercial premises.

Genersys Home Energy Heating Datasheet (40 KB)