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Product Details:
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| Product Name: | Ice Tube Machine | Capacity: | 30000kg/24h |
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| Ice Tube Color: | Transparent | Ice Tube Shape: | Cylinder |
| Ice Tube Length: | 30~55mm | Ice Tube Diameter: | 22mm,28mm,35mm |
| PLC: | Germany Siemens | Refrigerant: | R507/R404a |
| High Light: | 30 Tons Tube Ice Making Machine,Cylinder Tube Ice Making Machine |
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30 Tons Tube Ice Making Machine With Power Saving Design Save Cost Ice Maker Maker Machine
Ice machines have become a staple in various industries, including food and beverage, logistics, medical, and pharmaceutical. As technology advances, ice machines have become more efficient and cost-effective. One of the most significant advancements in ice machine technology is the control ice machine, which ensures the quality and consistency of the ice produced.
Energy-Saving Design
The 30-ton control ice machine has an energy-saving design that allows it to operate efficiently without compromising the quality of the ice produced. The machine uses a less power-intensive air-cooled condenser, which translates to lower energy consumption and more cost savings.
The ice machine has a hot gas defrost cycle that reduces the energy needed to defrost the machine. Instead of relying on electrical heat strips, the machine uses hot gas to melt the ice that accumulates on the evaporator coil during the freezing process. This feature saves up to 30% of energy usage.
The ice machine has an intelligent control system that monitors the machine’s energy consumption in real-time. The system alerts operators if the machine is consuming more energy than is required and recommends ways to optimize energy usage. By adopting these recommendations, users can achieve up to 25% energy savings compared to traditional ice machines.
Cost Saving Benefits
The energy-saving design of the 30-ton control ice machine translates to significant cost savings for its users. The machine has a lower running cost, which means that users will pay less in energy bills. The hot gas defrost cycle that the machine uses also contributes to savings, as it reduces the downtime associated with defrost cycles, which can increase productivity and profitability.
The machine’s intelligent control system allows users to monitor the machine’s operating cost and optimize energy usage to reduce costs further. By doing so, users can achieve up to 25% savings in operating costs, contributing to a more profitable business.
Installation Requirements
To ensure optimal operation of the 30-ton control ice machine, there are installation requirements that must be met. The machine should be installed in a well-ventilated and temperature-controlled room. The room should be kept at a temperature of 21-24°C and have humidity levels between 30-75%. The room should also have adequate ventilation to ensure that the condenser has the airflow required for optimal cooling.
Market Demand for Ice Machines
The demand for ice machines has been increasing over the years, driven by the growth of various industries, including the hospitality and medical industries. In the hospitality industry, ice machines are a critical component of bar and restaurant operations, while in the medical industry, ice machines are used to preserve medication and vaccines.
The increasing demand for ice machines has been driving innovation, with manufacturers developing machines that are more efficient, cost-effective, and reliable. The 30-ton control ice machine is an example of such innovation, with its energy-saving design and intelligent control system, ensuring consistent ice production and significant cost savings for users.
Product Parameters
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Model
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Daily output
(T/ 24 h)
|
Compressor Power(kw)
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Fan Power for Cooling Tower(kw)
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Cooling Pump Power(kw)
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Unit Size (L*W*H mm)
(Integrated Type) |
Unit N.W. (kg)
|
|
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TV10
|
1
|
4.1
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0.25
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1.1
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1100*900*1780
|
900
|
|
|
TV20
|
2
|
7.44
|
0.25
|
1.5
|
1250*1000*1950
|
1200
|
|
|
TV30
|
3
|
10
|
0.55
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1.5
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1300*1100*2200
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1500
|
|
|
TV50
|
5
|
19.9
|
0.55
|
2.5
|
1600*1400*2250
|
1800
|
|
|
Model
|
Daily output
(T/24 h) |
Compressor Power(kw)
|
Fan Power for Cooling Tower(kw)
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Cooling Pump Power(kw)
|
Unit Size (L*W*H mm)
(Integrated Type) |
Unit N.W. (kg)
|
|
|
Main Host
|
Brine Tank
|
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TV 100
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10
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27.9
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1.5
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4
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1900*1600*1850
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1200*1200*3390
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3500
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|
TV 100+
|
10
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39.8
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1.5
|
4
|
2400*1700*2000
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1200*1200*3390
|
3700
|
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TV 150
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15
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46.4
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1.5
|
5
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2700*2000*2200
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1500*1200*4250
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4250
|
|
TV 200
|
20
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55.7
|
2.2
|
7.5
|
2800*2200*2500
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1500*1200*4700
|
6500
|
|
TV 300
|
30
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83.6
|
2.2
|
7.5
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3100*2200*2500
|
1800*1500*5700
|
7200
|
|
TV 400
|
40
|
111.4
|
2.2
|
11
|
3900*2250*2500
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2000*1500*6800
|
8300
|
|
TV 500
|
50
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139.3
|
3.75
|
15
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4500*2250*2500
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2200*1800*7200
|
9500
|
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1. Compressor brand: Bitzer /Franscold ; Refrigerant: R 22/ R 404 A; Cooling Method: water cooling / air cooling.
2.Power supply:voltage 380V/3P/50Hz(for non-standard voltage, unit configuration needs to be calculated separately ).
3.Operating conditions: T (water supply):20℃ , T (ambient): 32℃, T(condensing):40℃, T (evaporating):-12℃. 4.(Note: The actual ice production varies due to the influence of water supply temperature and ambient temperature.) 5.(The final interpretation of the above mentioned parameters is in Icesource, there will be no further notice, if there any technical change. ) |
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Contact Person: Henry Lin
Tel: 86-180 2621 9032
Fax: 86-20-39199299
