Air to Water Full Inverter Heat Pump
-
Main Features:
• R32 or R410a
• Function: Heating/Cooling/Domestic Hot Water
• Full Inverter – Inverter Compressor + Inverter Fan motor
• 50% speed up heating time
• Super Silent ≤43 dB(A)
• Built-in water pump and expansion valve
• Smart defrosting
• Energy-saving up to 30%
• Special design for anti-freezing and anti-frosting in the bottom of air exchanger -
Applications:
Heating/cooling: House, Apartment, Vila, Hotel, Hospital, Spa, Holiday Center, residential and commercial hot water, and so on.
Core Strengths
18 years experience - FANTASTIC company has manufactured over 52,000 DC inverter heat pumps worldwide
Save Money & High Performance -
a. 4-core Full Inverter Design
FANTASTIC air to water DC inverter heat pump is real full-inverter technology, not only DC inverter compressor, but also with DC water pump and DC fan motor, what's more, the expansion tank & water flow switch are also built-inside of the heat pump.
b.High Cop and 30% energy-saving more than a transitional heat pump
FANTASTIC inverter heat pump with inverter compressor and DC fan motor, and PFC control method, the heat pump can regulate the operation capacity. With no frequent start-up and stop running, the heat pump work in stable condition with high efficiency. The emery consumption is 30% less than that of a traditional heat pump. And with Intelligent curve control and, any weather available, meet the needs of summer cooling, winter heating and hot water throughout the year
Long life with famous brand high-quality components - CAREL controller and CAREL expansion valve for option, Panasonic or MITSUBISHI compressor, SHIBAURA inverter fan motor, and also built-in expansion tank, and WILO water pump, SWEP plate heat exchanger, and with an element under button plate, and so on. All the heat pump with famous international brand components and built-in the expansion tank and water pump inside, convenient to install
Super Quiet - FANTASTIC inverter heat pumps are 10 times quieter than another normal heat pump by the dc fan motor and dc water pump.
Stable operation under -20 ℃ ambient - FANTASTIC inverter heat pump with smart inverter control could work under ambient temperature range: -20 degree~43 degrees.
A geothermal heat pump works with the concept of earth-thermal heat. This occurs because the earth continually heats and cools, even in seasons when the outside temperature does not change very much. During summer, the earth absorbs heat from the sun while it remains relatively cool to the touch. During winter, when the earth is extremely cold, it quickly heats up as it reaches its freezing point and stores heat in the soil for later use.
So, in order to take advantage of these earth changes, a geothermal heat pump uses a closed Loop system. The end result is that the pump does not have to work as hard or as long as other types of open-loops such as air-source heat pumps. This means that they can operate at a lower cost. Closed-loop systems are also more efficient because they do not need to run continuously to maintain their operation. There are two main types of geothermal heat pump systems: open-loop systems and closed-loop systems.
The most common geothermal heat pump used in homes is an open-loop system. A ground loop system is one in which the pump itself is located inside the house, usually in the crawl space under the foundation. In this system, the pump circulates air through ductwork, then into the home. If you choose this type of system, you will need to be especially careful of noise, which can be significant if the home's interior is a basement. Open-loop systems are cheaper to install and run, but they are also noisy and tend to overheat during the winter.
For those who do not want to go with an open loop system, there are options like hydronic and geothermal heat pumps. These types are installed below ground and can actually save money. Geothermal and hydronic pumps both are geothermal, or heat sucking, whereas open-loops suck air in through vents. With either installation costs or energy savings, both are relatively low. Depending on your location, you may even qualify for state and federal grants to offset some or all of the installation costs of your geothermal and hydronic systems.
As for the cooling component, your geothermal systems are much like your air conditioning and heating systems. They use Freon to absorb heat during the day and use it to keep the home cool. Depending on the size of your home and your climate, you may need a cooling system of some kind to offset the heat absorption.
Once installed, you can expect your geothermal heat pumps to last for many years. Because the systems work from ground up, they are not as likely to break down because of wear and tear. Your local geology will play a large role in the longevity of your installation. The thickness of the ground will greatly influence the life of your system. You should plan on having your geothermal heat pumps installed by professionals who use the latest technology and materials.
Product Detail
4-Core Full Inverter Design
FANTASTIC DC inverter heat pump is applying real full-inverter technology, not only DC inverter compressor, but also inverter water pump and inverter fan motor. What’s more, the expansion tank and water flow switch are also built inside the heat pump.
50% Speed up Heating/Cooling Time than Traditional Heat Pump
Once the heat pump is on, FANTASTIC Inverter unit can quickly pick and choose the best compressor and fan motor operating frequencies and the heat pump EEV opening automatically according to the heating or cooling demand by smart inverter control technology for the first time heating, inverter fast heating can save 50% heating time than traditional heat pump.
Super Silent Operation
FANTASTIC DC Inverter swimming pool heat pump adopts step-less inverter compressor, step-less inverter control system and brushless fan motor. By smart conversion of compressor speed, fan motor speed and system pressure, it can not only provide amazing energy saving effect, but also silence as low as a fridge, 12dB (A) lower than traditional On/Off heat pump.
Quick Enter to Stable Status
The heat pump utilizes smart defrosting by the control of frequency and EEV technology which allows the unit to enter the best defrosting status quickly, reduce the defrosting times and extend the effective heating time, fast recovery of water-supply temperature, and thus improve heat pump heating efficiency and keep comfortable temperature.
High COP and 30% more Energy-Saving than Traditional Heat Pump
With the inverter compressor and DC fan motor and the PFC control method, the heat pump can regulate the operation capacity automatically. With no frequent start-up and stop running, the heat pump can work in stable conditions with high efficiency. The energy consumption is 30% lower than that of the traditional heat pump.
Special Design for Anti-Freezing and Anti-Frosting on the Bottom of Heat Exchanger
With block up slopes on 2 sides of button + anti-freezing element on the bottom of heat pump and the use of special liquid distribution technology, when unit works in heating mode, the temperature of refrigerant in the heat exchanger’s bottom copper tubes will not decrease in order to ensure no frosting on it and smooth drainage.
Schematic System Diagram
| Inverter Air to Water heat pump(residential models) | ||||||
| Model | FIHC020 | FIHCD030 | FIHCD050 | FIHCD060 | FIHCD080 | |
| Heating condition: air DB 7℃/WB 6℃, water inlet: 40℃, water outlet: 45℃ | ||||||
| Heating capacity①A | KW | 5.4 | 10.5 | 14.0 | 16.5 | 24.0 |
| Input power(Heating)① | KW | 1.64 | 3.25 | 4.18 | 5.00 | 7.27 |
| Input current(Heating)① | A | 7.5 | 14.8 | 19.0 | 22.7 | 33.0 |
| COP① | W/W | 3.29 | 3.23 | 3.35 | 3.30 | 3.30 |
| Heating condition: air DB -12℃/WB -14℃, water outlet: 41℃ | ||||||
| Heating capacity② | KW | 3.8 | 6.5 | 9.5 | 11.5 | 18.0 |
| Input power(Heating)② | KW | 1.80 | 3.08 | 4.46 | 5.45 | 8.40 |
| Input current(Heating)② | A | 8.2 | 14.0 | 20.3 | 24.8 | 38.2 |
| COP② | W/W | 2.11 | 2.11 | 2.13 | 2.11 | 2.14 |
| Cooling condition: air DB 35℃/--, water inlet: 12℃, water outlet:7℃ | ||||||
| Cooling capacity | KW | 5.0 | 8.0 | 12.5 | 15.0 | 20.0 |
| Input power | KW | 1.99 | 3.00 | 4.98 | 5.98 | 7.90 |
| Input current | A | 9.1 | 13.6 | 22.6 | 27.2 | 35.9 |
| Power supply | V/PH/Hz | 220/1/50 | 220/1/50 | 220/1/50 | 220/1/50 | 220/1/50 |
| Max running current | A | 13.6 | 20.5 | 34.0 | 40.7 | 53.9 |
| Refrigerant | R32/R410a | |||||
| Inverter Air to Water heat pump (commercial models ) | |||||||
| Model | FIHCD0303 | FIHCD0503 | FIHCD0603 | FIHCD0803 | FIHCD1003 | FIHCD1203 | |
| Heating conditon: air DB 7℃/WB 6℃, water inlet: 40℃, water outlet: 45℃ | |||||||
| Heating capacity①A | KW | 10.5 | 14.0 | 16.5 | 24.0 | 27.0 | 32.4 |
| Input power(Heating)① | KW | 3.20 | 4.24 | 5.00 | 7.27 | 8.18 | 9.84 |
| Input current(Heating)① | A | 5.9 | 7.9 | 9.3 | 13.5 | 15.2 | 18.2 |
| COP① | W/W | 3.28 | 3.30 | 3.30 | 3.30 | 3.30 | 3.29 |
| Heating conditon: air DB -12℃/WB -14℃, water outlet: 41℃ | |||||||
| Heating capacity② | KW | 6.5 | 9.5 | 11.5 | 18.0 | 20.0 | 24.0 |
| Input power(Heating)② | KW | 3.08 | 4.46 | 5.45 | 8.40 | 9.40 | 11.40 |
| Input current(Heating)② | A | 5.7 | 8.3 | 10.1 | 15.6 | 17.4 | 21.1 |
| COP② | W/W | 2.11 | 2.13 | 2.11 | 2.14 | 2.13 | 2.11 |
| Cooling conditon: air DB 35℃/--, water inlet: 12℃, water outlet: 7℃ | |||||||
| Cooling capacity | KW | 8.0 | 12.5 | 15.0 | 20.0 | 25.0 | 30.0 |
| Input power | KW | 3.00 | 4.70 | 5.80 | 7.90 | 9.96 | 11.90 |
| Input current | A | 5.6 | 8.7 | 10.7 | 14.6 | 18.5 | 22.0 |
| Power supply | V/PH/Hz | 380/3/50 | 380/3/50 | 380/3/50 | 380/3/50 | 380/3/50 | 380/3/50 |
| Max running current | A | 7.2 | 11.3 | 14.0 | 19.0 | 24.0 | 28.7 |
| Noise | dB(A) | 53 | 54 | 54 | 55 | 56 | 56 |
| Water inlet/outlet | inch | 1" | 1" | 1" | 1-1/4" | 1-1/4" | 1-1/4" |
| Water flow volume | m³/h | 1.38 | 2.15 | 2.58 | 3.44 | 4.30 | 5.16 |
| Refrigerant | R32/R410A | ||||||
