Sunday, December 16, 2012

Lg Mini Split Heat Pumps - Reduction of Carbon Dioxide.


Lg Mini Split Heat Pumps. Challenges.



We face increasing pressure to address the current and future challenges of: Reducing CO2 emissions, implementing on site renewable technologies, achieving stringent planning and building regulations, reducing reliance on fossil fuels. 



Traditional heating practices must be reviewed, because business as usual is simply no longer acceptable. A fundamental change is required in how we heat buildings in order to deliver a low carbon future.


Best Mini Split Heat Pump. Response to Challenges.



Heat pumps are more than capable of meeting such challenges: Advanced heat pump technology delivers high season efficiencies, Recognised worldwide as a real renewable heating technology, Deliver real running cost and CO2 reductions, Provide both heating and hot water for buildings. Heating range can be combined with ventilation systems, air curtains and hot water provision to create a fully integrated solution for optimum energy efficiency.



How To Install Ductless Heat Pump? One Solution.



Minisplit Warehouse provides a full range of heating and renewable energy solutions, which are scalable and can be configured in different ways according to your particular requirements. Comprehensive range of high and low temperature air source heat pumps , packaged heat pumps and heating only systems are suitable for all kinds of new build projects whether commercial buildings, residential developments or major mixed use schemes. 



Multi Zone Heat Pump. Along with Technology.



Heat pump technology is based around the cycle, has 4 main steps:



The working fluid contained in the heat pump is naturally colder than the outside air. This working fluid is passed through a heat exchanger in the outdoor unit. As it does so, it absorbs energy from the air which causes it to evaporate. The vapour then enters the compressor, which increases the vapour pressure and, by doing so, also increases its temperature.


 


The hot vapour then enters a second heat exchanger, where it rejects its heat to either water (if an air source system) or air (if an air to air system). As it does so, it condenses into a liquid. The liquid then passes through an expansion valve. By allowing the liquid to expand, it naturally reduces in temperature ready to start the cycle again.

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