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ECOAGE SOLUTIONS
How Does the Maxhot Air Source Domestic Heat Pump Systems?
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The heat pump absorbs energy from the air outside of your home.
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It compresses and amplifies this heat before transferring heat into the water.
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Instead of generating heat (like a electric heater or boiler), Maxhot Domestic heat pump moves heat from one place to another using a refrigeration cycle, similar to how a refrigerator or air conditioner works—but in reverse for heating.
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Heat then transferred to the water that stored in the water storage until it reaches the set temperature.
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Hot water then will be supplied to laundry, shower and kitchen for usage as desired
Why Maxhot Domestic Heat Pump?
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Ultra-Efficient – Save up to 60% on energy bills vs. traditional heating. Moves heat instead of generating it (300-400% efficiency).
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Eco-Friendly – Reduce your carbon footprint with renewable energy.
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Sustainable Heating – highly energy-efficient systems to heat water, reducing reliance on fossil fuels and minimizing environmental impact.
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Whisper-Quiet – Advanced noise reduction for peaceful living.
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Durability & Reliability – Built to last with high-quality materials & long lifespan with low maintenance
Choose Maxhot Domestic Heat Pump If:​
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• You want long-term energy savings (lower bills).
• You want an eco-friendly heating solution.
• Payback Period 5 - 10 years (faster with Solar Photovoltaic)
• Low Carbon Footprint (Environmental Friendly)
Maxhot Features
Functionality To Suit Your Needs
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Advanced Technology to provide Energy Efficiency and Cost- Effective
Smart Control with WIFI
Energy efficiency is at the forefront of modern technology, offering innovative solutions that not only reduce costs but also promote sustainability. By integrating advanced systems and smart technologies, can optimize energy usage and significantly lower their operational expenses. Embracing these innovations not benefits the bottom line but also contributes to a greener planet. Make the smart choice for your future with cutting-edge energy solutions.
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High Pressure Protection
Smart Control with WIFI allows you to manage your devices effortlessly from anywhere. With seamless connectivity, you can control your hot water systems at your fingertips. Enjoy the convenience of automation and enhance your lifestyle with integrated technology. Experience the future of smart living today!
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Fully AutomatedOperation
High and low pressure protection systems are essential for ensuring the safety and efficiency of your equipment. By monitoring pressure levels, these systems help prevent equipment failures and reduce the risk of accidents.
This approach enhances efficiency, reduces errors, and allows for real-time data processing.
High Level Energy Savings COP 4
Why water heating is so demanding?
Heating water is a thermodynamically intensive process. It takes a lot of energy to raise the temperature of water, much more than it does to power lights, TVs, or even most kitchen appliances. ( it requires 4.186 Joules of energy to raise 1 gram of water by 1 degree Celsius When you scale this up to the 180-300 liters a typical household uses daily, the energy demand is massive )
A Smart Way for Maximizing Energy Saving and Solar Investment?
Using Solar PV (photovoltaic) panels to save on water heating costs is an excellent strategy
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Electrify the Water Heater: To use a standard electric water heater or, much more efficiently, a Maxhot Domestic Air Source Heat Pump.
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Offset with Solar: Solar PV (photovoltaic) generate electricity to power that water heater, effectively making "free" hot water.
Maxhot ROI Calculation
How to calculate savings?
Option A: Standard Electric Resistance Water Heater
It’s nearly 100% efficient, so the electrical input equals the heat output.
Formula: Q = mcΔT
Example: Given 300 liters storage tank capacity heating from 27 °C to 60 °C
Calculation: Q = 300 kg * 4.186 * 33 = 41,441.4 Kilojoules,
Convert to kWh is 11.5115, multiply with 30 days thus we get ~345.345 kWh per month of energy consumption
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Option B: Maxhot Air Source Heat Pump
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It is 2-3 times more efficient (COP of 3.0-4.0). This means it uses 2-3 times less
electricity to produce the same amount of hot water.
Formula: Maxhot Domestic Heat Pump Electricity Need = (Current Heat Energy Need) / COP
Example (using a COP of 3.5): 345.345 kWh / 3.5 = ~98,67 kWh ( This is a massive difference. The Maxhot Air Source Heat Pump reduces the solar panel requirement by about 70%.)
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Size the Solar PV Addition for Water Heating
Now, calculate how many extra solar panels you need to cover this new load.
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Formula: Additional Solar System Size (kW) = (Maxhot ASHP Electricity Need (kWh)) / (Annual Sunlight Hours)
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Example (Maxhot Air Source Heat Pump): Maxhot ASHP Electricity Need (kWh) = 98.97 kWh * 12 months = ~1,184.04 kWh
Sunlight Hours = 1,460 (Malaysia average)
Additional System Size = 1,184.04 / 1,460 = ~0.81 kW
This means adding just two extra 600-watt solar panels could cover 100% of your water heating costs for the year when using a Maxhot Air Source Heat Pump
Maxhot Specifications
Model MH-06-AS (Heat Pump)
Make
Output Heating Capacity
Type
Casing Material
COP
Refrigerant
Electrical Characteristic
Built-In Water Pump
Dimensions L x W x H
Weight
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Maxhot
5.4 kW/hr
Air to Water
Stainless Steel 304
4
R410A
240V/1Ph/50Hz
Yes
950 x 450 x 600
60 kg
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Model DSH-150 (Storage Tank)
Make
Water Capacity
Power Supply
Inner Tank Material
Working Pressure
Dimension H x D
Operating Weight
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Maxhot
150 liters
240V/1Ph/50Hz
Stainless Steel 304
10 Barg
1400 x 700
210 kg
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