A Hot Air Blower (Hybrid AC/DC) integrates solar power with traditional grid electricity to provide efficient heating solutions. This type of blower is ideal for applications for residential:
1. Heating: As the temperature decreases, many families will buy hot air blowers as auxiliary heating equipment to make the indoor temperature more comfortable. Especially in families without central heating facilities, it can meet the needs of winter heating.
2. Drying: In the wet season or need to dry clothes quickly, the hot fan can dry clothes quickly to avoid moisture and mold.
Description
Advantages
Advantages
Hybrid AC/DC Operation:
– Utilizes both AC power from the grid and DC power from solar panels.
– Automatically switches between power sources to optimize energy use and reduce costs.
Solar Panel Integration:
– Equipped with solar panels to harness solar energy, significantly reducing reliance on grid electricity.
– Solar panels are typically installed on the roof or in an open area with maximum sun exposure.
Inverter Technology:
– Uses inverter technology to adjust the heating output according to demand.
– Provides precise temperature control and reduces energy consumption.
High Efficiency Heating Element:
– Incorporates a high-efficiency heating element for rapid and consistent heating.
– Designed to operate efficiently even in low-temperature conditions.
Easy installation:Â
– The design of hot air blowers often takes into account the convenience of installation, such as the appearance of small size, the installation process is similar to the installation of air conditioning, flexible and convenient.
Data Sheet
Data Sheet
| ITEMS | UNIT | 12000BTU | 18000BTU | 18000BTUÂ | |
| MODEL | / | DRWA1-ACDCR1-35 | DRWA1-ACDCR1-50 | DRWLA1-ACDC-18KR2 | |
| Power supply(ACDC) | Power AC | Ph-V-Hz | 208V-240V/50-60HZ | 208V-240V/50-60HZ | 208V-240V/50-60HZ |
| Voc | V | 80-380V | 80-380V | 80-380V | |
| Isc | A | </=14A | </=14A | </=14A | |
| Suggested Solar Panel (300-360W) | PCS | 3-4 | 5-6 | 5-6 | |
| Rated Cooling | Capacity(35℃) | BTU | 12000(4100-14300) | 15300(4200-17000) | 15300(4200-17000) |
| Power input(35℃) | W | 1000(220-1350) | 1350(210-1800) | 1295(210-1750) | |
|  EER   (35℃) |  BTU/W | 12.00 | 11.33 | 11.80 | |
| SEER(EN14825:2018) | W/W   ★ | 6.68  A++ | 6.54  A++ | 6.60 A++ | |
| Heating | Capacity(7℃) | BTU | 12300(4100-15700) | 17700(4100-18400) | 17700(4100-18400) |
| COP (7℃) |  BTU/W | 12.95 | 12.20 | 12.64 | |
| Capacity(-10℃) | BTU | 11200(4100-15000) | 15300(4100-18700) | 15300(4100-18700) | |
| COP (-10℃) |  BTU/W | 9.26 | 8.50 | 8.50 | |
| Capacity(-22℃) | BTU | 11200(4100-12600) | 14300(4100-15000) | 14300(4100-15000) | |
| COP (-22℃) |  BTU/W | 2.00/6.80 | 1.86/6.35 | 1.86/6.35 | |
| SCOP(Average) | W/W   ★ | 4.61  A++ | 4.11  A+ | 4.20  A+ | |
| SCOP(Colder) | W/W   ★ | 3.44 A | 3.41 A | 3.46 A | |
| Indoor unit | Dimension(W×H×D) | mm | 720×610×233 | 720×610×233 | 720×610×233 |
| Packing   (W×H×D) | mm | 810×720×300 | 810×720×300 | 810×720×300 | |
| Outdoor unit | Dimension(W×H×D) | mm | 790×560×290 | 900×700×337 | 900×700×337 |
| Packing  (W×H×D) | mm | 910×405×622 | 1006×755×418 | 1006×755×418 | |
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