7KW CO2 R744 Air Source Heat Pump Water Heater Carbon Neutral Carbon Emissions
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7KW CO2 R744 Air Source Heat Pump Water Heater Carbon Neutral Carbon Emissions
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Features
Basic Infomation
Place of Origin: China
Brand Name: LN
Certification: CE ISO CCC ROHS
Model Number: SJKRS-8 II/C
High Light:

CO2 R744 Air Source Heat Pump

,

7KW Air Source Heat Pump

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CCC Carbon Neutral Co2 Heat Pump

Payment & Shipping Terms
Packaging Details: standard export package, or as per customer request
Delivery Time: 1-30 working days
Payment Terms: L/C, D/A, D/P, T/T, Western Union, MoneyGram
Supply Ability: 80000pcs/year
Specifications
Referigeration: CO2 R744
Application:: Outdoor, Hotel, Commercial, Household
Compressor: Dorin
Controller: PLC Inverter Siemens
Max Hot Water Te: 70-90 C
Working Ambient Tem: -25C To 43C
Product Description

Strength of 7KW CO2 R744 air source heat pump water heater carbon neutral and carbon emissions

Advantages and disadvantages of carbon dioxide refrigerant

advantage:

Carbon dioxide is a natural substance, ODP=0, GWP=1. The use of carbon dioxide as a refrigerant has no damaging effect on the atmospheric ozone layer, can reduce the global greenhouse effect, and has a wide range of sources and low prices, which can greatly reduce the cost of refrigerant replacement, save energy, and solve the problem of environmental pollution by compounds. sex.

Carbon dioxide is safe, non-toxic, non-flammable, non-explosive, and has good thermal stability. It will not decompose harmful gases even at high temperatures, and the leakage will not damage the human body, food and ecology.
Carbon dioxide has thermophysical properties suitable for refrigeration cycles and equipment. The molecular weight is small, the cooling capacity is large, and the unit cooling capacity at 0°C is 5 to 8 times higher than that of conventional refrigerants. Therefore, for the refrigeration system with the same cooling load, the size and weight of the compressor can be significantly reduced, and the entire system is very compact; lubrication The conditions are easy to meet, and there is no corrosion to common materials in the refrigeration system, which can improve the sealing performance of the open compressor and reduce leakage.

The viscosity of carbon dioxide is small, the kinematic viscosity of carbon dioxide saturated liquid at 0 ℃ is only 5.2% of NH3 and 23.8% of R12, the flow resistance of the fluid is small, and the heat transfer performance is better than that of CFC refrigerants, which can improve the heat dissipation of hermetic refrigeration compressors .

shortcoming:

Can not sustain life, if the concentration is too high, it will cause damage to human respiratory organs, or even suffocate death;

It has high critical pressure and low critical temperature; the critical temperature of CO2 is Tc=31.1℃, the critical pressure is Pc=7.3MPa, the critical temperature of water is 374℃, and the critical pressure is 22MPa.

Regardless of subcritical cycle or transcritical cycle, the operating pressure of the CO2 refrigeration system will be higher than that of the traditional refrigeration and air conditioning system, which brings many difficulties to the design of the system and components, and the manufacturing cost is relatively high.

2. Application of carbon dioxide

The research and application of carbon dioxide mainly focus on three aspects:

On the one hand, in the field of automobile air conditioning, due to the large amount of refrigerant emissions, the harm to the environment is also great;

In the field of heat pump hot water, there is a considerable temperature glide in the heat release of carbon dioxide under supercritical conditions, which is beneficial to heating hot water to a higher temperature (above 90°C) at extremely low ambient temperature.

In the field of cascade refrigeration cycle, carbon dioxide has good low temperature flow performance and heat transfer characteristics, and it is used as a low temperature refrigerant for CO2/NH3 cascade refrigeration cycle.

As mentioned earlier, excessive carbon dioxide concentration can cause damage to people's respiratory organs, or even suffocation. Therefore, leakage monitoring is required. The relevant requirements are as follows:

If the carbon dioxide concentration exceeds the limit value, only trained personnel are allowed to enter;

The alarm must sound and light at the same time, and cover both indoor and outdoor;

The ventilation system and the alarm must not use the same power source;

The alarm must be able to activate the ventilation, preferably the shut-off valve;

Vents and detectors must be installed as low as possible;

The detector must monitor CO2 concentration, not hypoxia.

3. Application of carbon dioxide in cascade refrigeration system

The CO2/NH3 cascade refrigeration cycle is composed of the NH3 high temperature stage refrigeration cycle and the CO2 low temperature stage refrigeration cycle. The two independent refrigeration systems are coupled through the evaporator-condenser (intermediate heat exchanger). Appropriate evaporating temperature when evaporating at lower evaporating temperature, and moderate condensing pressure when condensing at ambient temperature.

Parameters of 7KW CO2 R744 air source heat pump water heater carbon neutral and carbon emissions

 

Unit type SJKRS-28 II/C SJKRS-36II/C SJKRS-55 II/C SJKRS-73 I/C SJKRS-106 IC SJKRS-I60II /C
Specifications 7.5HP 10HP 15HP 20HP 30HP 40HP
Power supply Three-phase five-wire380V/50Hz
Heating mode Direct heat/cycle type
Standard working condition Heating capacity( kw ) 27.5 36.7 55.1 72.8 10.6.5 155.1
Input Power(kW) 6.1 8.2 13.7 16.1 23.6 34.5
COP 4.5 4.5 4.5 4.5 4.5 4.5
Hot Water flow(m³/h) 0.59 0.79 1.18 1.56 2.29 3.33
High temperature condition Heating capacity kw ) 23.9 28.5 51.5 59.5 89 13.1.5
Input Power(kW) 7.5 8.9 16.1 18.6 27.8 41.1
COP 3.2 3.2 3.2 3.2 3.2 3.2
Hot Water flow(m³/h) 0.27 0.33 0.59 0.68 1.02 1.51
Low temperature condition Heating capacity( kw ) 17.3 21.4 34.8 41.5 62.2 94.5
Input Power(kW) 6.2 7.6 12.4 14.8 22.2 33.8
COP 2.8 2.8 2.8 2.8 2.8 2.8
Hot Water flow(m³/h) 0.32 0.4 0.65 0.78 1.16 1.77
Component Information Size of water pipe joint DN20 DN25 DN32 DN40
Water heat exchanger Plate or sleeve heat exchanger
Air Heat Exchanger Aluminum Fin for copper tube
compressor type Semi-closed reciprocating
Operation Panel Color touch screen
Maximum outlet temperature(℃) 90℃
Refrigerants R744 (CO2 )
Design pressure(MPa) High side 15, low side 8
Dimensions (length, width and height mm) 1450x950x1450 1600x950x1500 1850x1150x1900 2050x1150x1950 2670x1410x2150 2290x2270x1980
Noise (dB) 56 59 62 67 70 70
Weight(kg) 550 660 780 860 1180 221360
SCOPE of use Feed water temperature(℃) 5~ 40
Feed water pressure 0.05~ 0.4
Effluent temperature(℃) 55~ 90
Maximum flow 1.2 1.5 2.4 3.2 4.9 6.5
Ambient temperature(℃) ’-20~43

 

7KW CO2 R744 Air Source Heat Pump Water Heater Carbon Neutral Carbon Emissions 0

7KW CO2 R744 Air Source Heat Pump Water Heater Carbon Neutral Carbon Emissions 1

 

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