A flow regulator does just that, it regulates the flow of water independant of water pressure to provide you with a constant predictable flow of water. Various models of flow regulators are avaliable that provide a wide range flow rates and can be used in many applications.

The following graph illustrates how a 6 litre per minute flow regulator regulates the flow rate of water through it regardless of the pressure whereas the flow rate increases as the pressure increases in the unregulated scenario.

Regulated flow and Unregulated flow vs. Pressure

Benefits

• Flow regulators offer many benefits, including:
• Save Water by preventing excess water from being wasted
• Save Energy by preventing hot water from being wasted
• Accurately predict how much water is used per device – especially usefull in large buildings
• Achieve controlled distribution in your building – see section on controlled distribution below

How they save

Flow regulators ensure that enough water is delivered in various applications to do the job and no more. This prevents the additional water that would be delivered in an unregulated environment from being wasted.

Substantial amounts of energy is also saved as the amount of hot water that is wasted during various activities – such as showering and washing hands – is reduced substantially.

As can be seen in the graph above, the area between the Controlled Flow and Normal Flow graphs is tha mount of water that is saved.

Expected Savings

It all depends on the application, but the two most significant areas of saving are typically showers and wash basins. Approximately 10 litres per minute is saved per 5 minute shower which amounts to 18,250 litres per shower per year.

This amounts to roughly R1,200 per person per shower per year which will be saved in electricity alone! We have assumed that electricity is R0.70 per kWh, the average length of a shower is 5 minutes and that a person takes one shower per day.

How they work

Easy Energy’s range of flow regulators are built according to a very simple, yet ingenius design. As illusrated in the figure below, the each flow regulator is comprised of 3 parts:

• The Core
• The Dynamic Elastomer
• The Housing
• Components of a Flow Regulator

As illustrated in the figure below, the dynamic elastomer (black) is compressed as the water pressure increases which in turn reduces the size of the gap (blue) through which water can flow. This mechanism ensures that the water’s flow rate is reduced regardless of the water pressure.

How the flow regulator works

Controlled Distribution?

Controlled distribution is the process of ensuring that all devices connected to a specific water supply receive a constant amount of water regarless of any activity upstream. Many buildings suffer from the negative effects of unequal distribution.

Controlled distribution can easily be achieved though the use of flow regulators as illustrated in the figures below.

Examples of where controlled distribution is beneficial

Example of Use

Flow regulators can be used in various applications, some include:

• Showers
• Basins
• Large pipelines

Virtually and application that requires a fixed flow rate

Flow regulators can be used in any building, including:

• Homes
• Schools
• Boarding Schools
• Hotels
• Prisons
• Factories
• And many more…

Payback Period

The payback period all depends on the application. The payback for a flow regulator used in a shower is typically 2 months.

Comparison

Many water saving devices exist on the market, but very few provide the results that flow regulators do. The reason being that majority of water saving devices are flow restrictors and not flow regulators which means that the flow rate cannot be pegged at a particular flow rate independant of pressure.

Purchasing Options

Easy Energy supplies the product and can also install the flow regulators. Please contact us for further information regarding flow regulators.

Filed under: Water Efficiency | 5 Comments »

Heat recovery is the process of extracting heat from a medium such as air or water that would typically have been wasted and reuse the heat somewhere else.

An example would be to recover the heat from a shower’s drain water and heat the geyser’s incoming water supply with the recovered heat.

Benefits

• Reduce cost of heating by using your existing energy more efficiently
• Reduce the size of heating equipment by recycling heat
• Reduce your total carbon footprint

Typical uses

Heat recovery can be used by virtually anybody who has heat that is being wasted, examples include:

• Domestic showers
• Building’s grey water
• Factory waste water
• Building’s hot air

Energy sources can be recovered from

Easy Energy currently has products which can recovery heat from the following mediums:

• Water or any liquids
• Air or any gases

Filed under: Heat Recovery | No Comments »

Easy Energy’s robust and reliable Power-Pipe is a heat exchanger that allows you to extract the heat that would typically be washed down your drain along with your drain water and recylce it by heating your shower’s cold water supply. Less hot water from the geyser is required if warmer cold water is being used, resulting in substantial savings.

Top section of Power-Pipe

Benefits

• Save you up to 40% of your water heating costs.
• Reduce your carbon emissions by up to 1 tonne per annum
• Easy to install
• No moving parts
• Clogging resistant
• Cross-contamination cannot occur between drain and fresh water
• Maintenance FREE
• Expected lifespan of 50 years
• Retrofit to any water system

How it works

The Power-Pipe consists of copper tubes wrapped around a copper drain pipe. The waste water from your shower flows down the copper drain pipe, clinging to the inner surface as a very thin film. At the same time, cold fresh water travels up through the wrapped copper tubes. The heat in the waste water travels safely and efficiently through the copper and into the cold fresh water. How could energy conservation be any simpler?

Power-Pipe Installation Illustration

Installation

Installing a Power-Pipe is straightforward. The Power-Pipe replaces a vertical section of your existing drain stack (whether it is plastic, cast iron, or copper) and is connected to your fresh water system. For the best possible results, the heated fresh water leaving the Power-Pipe should be routed to your shower’s cold water tap. Now when you have a shower, your hot water can contain safely recycled energy and your geyser has to heat less water.

Models

• Power-Pipe – H50-300
• Power-Pipe – H50-450
• Power-Pipe – H50-750
• Power-Pipe – H50-1200
• Power-Pipe – H50-1800
• Power-Pipe – H50-2550
• Power-Pipe – H50-3000
• Power-Pipe – H100-300
• Power-Pipe – H100-450
• Power-Pipe – H100-750
• Power-Pipe – H100-1200
• Power-Pipe – H100-1800
• Power-Pipe – H100-2550
• Power-Pipe – H100-3000

Purchasing Options

You can purchase a Power-Pipe directly from Easy Energy.

Contact us to request an obligation free quotation for a Power-Pipe.

Filed under: Power-Pipe | 3 Comments »

The shower water and energy saver has been designed to easily be retrofitted to majority of shower heads. The shower water saver is typically installed just behind your existing shower head – coverting your exisitng shower head into an water saving and energy saving device.

Benefits

• Save Water – up to 18,000 litres per person per year
• Save Electricity – up to R1,200 per person per year
• Obtain controlled distribution in your building

Camparison

The following graph compares the flow rate of a shower head without a flow regulator vs the flow rate after a flow regulator had been fitted.

Expected Payback

The expected payback on these devices is anywhere between 1 and 3 months.

Sizing

Various flow rates are available in 1/2″, 3/4″ and 1″ fittings:

• 10 litres per minute – recommended
• 12 litres per minute
• 15 litres per minute

Purchasing Options

Shower water and energy savers can be purchased directly from Easy Energy. Please contact us for further information and pricing on this product.

Filed under: Showers | 2 Comments »

The basin water and energy saver is the ideal solution to control the flow rate of water in basins. The flow regulator will prevent water from being wasted and deliver enough water to do the job and as a result save water and save electricity.

Water and energy saver for basins

Benefits

• Save water
• Save electricity
• Obtain controlled distribution in your building

Saving

The water savings that can be obtained by using the flow regulator is illustrated in the graph below.

Flow Rate vs Normal Tap Flow Rate

Sizing

The recommended flow rate for use in basins without loss in comfort is 6 litres per minute.

Purchasing Options

Filed under: Basins | 2 Comments »