Viable Alternative Energy Reduction Methods

There is no doubt that one of the biggest challenges facing the World today is the task of reducing our dependence on fossil fuels, and reducing harmful emissions into the Earth’s atmosphere.   Most Governments look towards heavily subsidising Photovoltaic (PV) Solar Panels as a way of achieving this goal however there are other ways that possibly could be considered as a priority over PV Solar in order to achieve higher energy reductions for less cost.  The use of energy efficient Heat Pump heating and cooling products, particularly for larger commercial or industrial installations can produce substantial energy savings at a much lower cost but with a similar saving in energy that is achieved with Solar PV Panels.   The current disadvantage with Solar PV is the overall efficiency of the panels (generally between 17% and 18%) to collect available Solar energy when the sunlight is available.   On a good clear day this still only represents approximately 33% of each 24 hour period and that is an additional drawback associated with Solar PV Panels.
 
In small installations, for a similar capital investment, energy efficient Heat Pump heating and cooling products can more than double the actual energy reduction achieved when compared to Solar PV Panels.   For larger installations such as Hotels, Hospitals, Processing Factories, and other similar places the reduction in energy can be even higher if energy efficient Heat Pump heating and cooling products are used.  The purpose of giving strong consideration to the Heat Pump method is that they will create a much larger reduction in energy load requirements from the main generating facility which can be achieved quickly, easily and at a much lower cost.   Because Heat Pump heating and cooling products substantially reduce the energy load from the generating facility they therefore achieve the first stage of being energy independent by reducing the need to augment existing, or build new generating facilities to service the needs of the ever expanding population.
 
If Governments were to consider providing the same level of subsidy that is available for Solar PV Panels and use that to subsidise large Heat Pump heating and cooling products then they could quite easily achieve a much higher Return on Investment (ROI) for any funds invested.   Solar PV Panels can still be used as an energy reduction alternative, but in the early stages of working towards this goal it may be more beneficial to give a higher priority to energy efficient products such as Heat Pumps that can provide an immediate and high impact to energy reduction for the same level of investment, but with a significantly improved ROI.
By
Mel Peatey.

Typical Air to Water Heat Pump Cycle

The heat pump operates on the basis of a working fluid (refrigerant/coolant) which changes state (liquid/gas) in a continuous cycle and absorbs and releases heat.

The heat pump cycle is essentially based on the Carnot cycle. (Theoretical thermodynamic cycle proposed by French Physicist & Engineer Nicolas Léonard Sadi Carnot in 1824)

Heat pump heating/cooling circuit is shown below:

 

The diagram illustrates the operation of the heat pump cycle:

The Importance of Heat Pump Design

To achieve the best economical benefits from the installation of Heat Pump water heaters, the design is critical.   For domestic installations there is a little more flexibility because daily hot water volume requirements are considerably lower than those required in commercial or industrial applications, and therefore a more general approach can be made to selecting the most suitable domestic system.  However for the larger and more continuous daily volume requirements for commercial or industrial applications, a suitably designed Heat Pump water heater is critical in order to achieve the most economically suitable outcome.  The most important issue with the larger volume installations is firstly that the designed system must be able to – do the job that is expected of it and that is, to provide hot water at the fixture point at any time of the day and on any day of the year.  

Heat Pump Performance Comparison

The “Metran” Heat Pump operates with the use of electricity.   The electricity is used only, to drive the compressor, and fan in the “Heat Pump” section of the system.   The metran Heat Pump systems electrical draw is approximately 3 to 4 times less than the heating output capability therefore providing a saving in energy costs of between 75% and 80% when compared to a traditional electric water heater. 

Heat Pumps - How they work

A Heat Pump transforms heat from a low temperature level into heat at a high temperature level at which it can be used for heating purposes. Even in wintertime with temperatures far below 0°C a Heat Pump can take energy from the environment.This is performed by an endless “cooling” cycle. The cooling liquid evaporates at a very low temperature and takes a substantial amount of energy from the ambient air, when changing from a liquid to a gas phase.

Welcome to the METRAN GROUP

Air to Water Heat Pump Specialists

Metran International Pty. Ltd. offers a complete design service for Heat Pump installations in all types of new and existing Commercial/Industrial applications, as well as being able to offer the most cost effective Heat Pump Units to suit each application. 


Each design presentation includes the calculated daily hot water requirement, any peak load requirement, as well as a calculation for Return on Investment (ROI) on each installation.


A full range of domestic as well as Commercial/Industrial Metran Heat Pump Units are available for the International Markets of Asia, Pacific Islands, India, and Middle East.