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At least 30% energy saving

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An active de-humidifying effect reducing humidity

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No moving parts / No maintenance required

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ROI within 18 months*

Residential Consumers

Heating, ventilation and air conditioning (HVAC) systems demand massive amounts of energy to operate, meaning HVAC users are left shackled with equally large energy bills. As global temperatures continue to rise, residential customers are left choosing between unbearable heat or the huge financial burdens of operating inefficient HVAC technology.


How can the Delta-H Collector help?

The Delta-H Collector offers households a sustainable, long-term solution to the high energy demands and associated financial burdens incurred by operating their household HVAC systems. Designed and developed by an International team in the United States and Europe, the Delta-H collector is able to reduce the energy demands of almost any HVAC system by over 30%.

With such a substantial energy saving, you will immediately see equally impressive savings on your household utility bills. Effective immediately after instillation, residential consumers will be able to run their air conditioning for a longer time at a noticeably reduced cost.

By reducing the energy used in a HVAC system by at least 30%, the Delta-H is able to provide an ROI period of only 18 months. Therefore, you won’t have to wait long after investing in Delta-H before you and your household can really reap the rewards.

Additionally, the Delta-H’s innovative and adaptable design allows it to be installed as part of over 98% of existing HVAC systems and, owing to the Collector's use of durable materials, high-quality manufacturing processes and a lack of moving parts, all Delta-H Collectors incur almost zero additional maintenance costs after instillation is completed.


Our Services

Study of your heating and air conditioning needs

Thermal study
Evaluation of your potential savings
Provide a detailed assessment of your system

Installation

Installation
Delta-H Collector installation
Commissioning of the equipment

Maintenance - Maintenance Contracts – Troubleshooting

HVAC insurance contract
10-year guarantee contract
Support and troubleshooting agreement

Join the HVAC Revolution today!


1
Compressor -

The compressor is traditionally the heart of an HVAC system. It takes in the warm low-pressure refrigerant gas that carries the unwanted heat from the space being cooled. The compressor increases this refrigerant gas pressure to create a high pressure, superheated gas that discharges from the compressor. At this point the refrigerant gas is hotter than the outside air temperature, creating a temperature differential or ‘Heat Sink’.


The compressor requires a lot of energy to create this high pressure. Typically, about 95% of the total energy consumed in an HVAC system is used by the compressor. To improve efficiency, many HVAC systems units now use staged or variable speed compressors. Whilst this does help, the compressor is still having to provide 100% of the heat and pressure required to create the outside heat sink.

2
The Delta-H Collector -

The Delta H Collector replaces one of the functions of the compressor.

3
Condenser -

The condenser provides the heat exchange between the refrigerant gas and the outside space. The greater the differential in temperature between the refrigerant gas and the outside space, the quicker the heat transfer. Subsequently the heat transfer converts the high-pressure refrigerant gas back into a high-pressure cold liquid which is essential for the next stage of the cooling process.



4
Evaporator/Air Handler -

This device essentially works in the opposite manner to the condenser.


The now cold, high pressure refrigerant liquid enters a small valve, which reduces the pressure of the refrigerant instantly. This sudden reduction in pressure, causes the refrigerant liquid to change state back to a cold wet vapour, losing further heat in the process.


The now cold, low pressure, wet vapour enters the evaporator at a colder temperature than the space being cooled, again creating a heat sink. Heat is absorbed from the room air into the cold wet vapour refrigerant, which converts back again into a low-pressure cool gas. The air leaving the evaporator is chilled and dehumidified before re-entering the room space cooler and dryer.


The refrigerant is now a cool low-pressure gas, carrying all the unwanted heat from the space being cooled and returns to the compressor to start the process again.

delta h collector
delta h collector
1. Compressor

The compressor is traditionally the heart of an HVAC system. It takes in the warm low-pressure refrigerant gas that carries the unwanted heat from the space being cooled. The compressor increases this refrigerant gas pressure to create a high pressure, superheated gas that discharges from the compressor. At this point the refrigerant gas is hotter than the outside air temperature, creating a temperature differential or ‘Heat Sink’.


The compressor requires a lot of energy to create this high pressure. Typically, about 95% of the total energy consumed in an HVAC system is used by the compressor. To improve efficiency, many HVAC systems units now use staged or variable speed compressors. Whilst this does help, the compressor is still having to provide 100% of the heat and pressure required to create the outside heat sink.


2. The Delta-H Collector

The Delta H Collector replaces one of the functions of the compressor.


3. Condenser

The condenser provides the heat exchange between the refrigerant gas and the outside space. The greater the differential in temperature between the refrigerant gas and the outside space, the quicker the heat transfer. Subsequently the heat transfer converts the high-pressure refrigerant gas back into a high-pressure cold liquid which is essential for the next stage of the cooling process.


4. Evaporator/Air Handler

This device essentially works in the opposite manner to the condenser.


The now cold, high pressure refrigerant liquid enters a small valve, which reduces the pressure of the refrigerant instantly. This sudden reduction in pressure, causes the refrigerant liquid to change state back to a cold wet vapour, losing further heat in the process.


The now cold, low pressure, wet vapour enters the evaporator at a colder temperature than the space being cooled, again creating a heat sink. Heat is absorbed from the room air into the cold wet vapour refrigerant, which converts back again into a low-pressure cool gas. The air leaving the evaporator is chilled and dehumidified before re-entering the room space cooler and dryer.


The refrigerant is now a cool low-pressure gas, carrying all the unwanted heat from the space being cooled and returns to the compressor to start the process again.

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