Product Brief
The Fluke Heat Pump is a new type of technological equipment that converts power into heat energy. This high-speed heat exchange technology utilizes the principles of fluid mechanics applied by Nantong Fluke, generating a large number of tiny bubbles within the high-speed cavitation generator. These bubbles then undergo continuous expansion, compression, and collapse in a vacuum, resulting in intense micro-explosions. This explosive process lasts less than six one-thousandths of a second, simultaneously releasing a massive amount of energy to raise the liquid temperature to its boiling point. Additionally, due to the "cavitation effect," it breaks down the components and conditions that lead to scaling in water, preventing impurities from clustering together due to the friction of water molecule chains as they heat up. It also avoids turbulence under high-speed kinetic energy. The high-temperature water produced by the heat pump is transported to a storage tank, then sent to various heat dissipation units by a high-temperature pump. It then returns to the storage tank for the next cycle. The heat conversion efficiency of the heat pump can reach 95%.
Technical Specifications
Product Model | Motor Power (kw) | Heat Output (w) | Heating Floor Area (sq. m.) | Electrical Energy Conversion Efficiency % | Temperature Difference (℃/t/h) | Water Heater Tank |
FLK-RN1 | 15 | 14000 | 300 | 90.3 | 0.30 | 100 |
| FLK-RN2 | 22 | 20500 | 440 | 90.6 | 0.44 | 100 |
| FLK-RN3 | 30 | 28200 | 600 | 90.9 | 0.60 | 100 |
| FLK-RN5 | 45 | 42400 | 900 | 91.1 | 0.90 | 200 |
| FLK-RN6 | 55 | 52000 | 1100 | 91.2 | 1.10 | 200 |
| FLK-RN7 | 75 | 71000 | 1500 | 91.3 | 1.40 | 400 |
| FLK-RN9 | 90 | 85000 | 1800 | 91.4 | 1.80 | 400 |
| FLK-RN11 | 110 | 104000 | 2100 | 91.6 | 2.00 | 600 |
| FLK-RN13 | 132 | 125000 | 2500 | 91.7 | 2.20 | 600 |
| FLK-RN16 | 160 | 152000 | 3000 | 91.8 | 3.00 | 800 |
| FLK-RN20 | 200 | 190000 | 3600 | 92.1 | 3.60 | 800 |
Product Principle
How Heat Pumps Work
The working principle of the heat pump is a multi-stage heat transfer device consisting of a hydraulic vortex cavitation heat generator and a high-speed vortex ultrasonic heat generator. When the motor is driven at high speed, the liquid is subjected to high-speed shearing, mutual collisions, and frictional impacts in the heat cavitation generator, resulting in the continuous growth, expansion, compression, and collapse of microbubbles through cavitation micro-explosions. This instantaneous explosion process lasts no more than six thousandths of a second. Due to the formation of massive ultra-micro jets during the abrupt collapse of cavitation bubbles, these jets produce ultrasonic cavitation phenomena and radiate sound waves into the liquid, typically within the ultrasonic range of 16KHz to 100KHz. The high-intensity light radiation (such as laser) produced by this photo-cavitation ultrasonic segment continuously splits the continuously generated cavitation bubbles, causing the growing microbubbles to withstand negative pressure around the liquid, leading to instantaneous compression, collapse, and explosive air effects. This process releases tremendous energy, causing the tiny droplets to reach boiling point instantly and continuously cycle. The FLOheat heat pump not only boasts a high thermal conversion efficiency but also operates without pressure, scaling, is simple to operate, and is safe and reliable, making it popular among users. This heat technology can also be modularly combined, offering excellent applicability.
Note: The supplier provides parameters related to material characteristics, or brings materials to the production base for on-site testing. The manufacturer selects the internal structure of the grinding disc based on the medium characteristics.
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