Water Inlet & Outlet NPT |
N/A 1 1/2 in |
Thread Type |
N/A National Pipe Thread (NPT) |
Cooling Capacity |
N/A 73702 Btu/hr6.1 tons |
Total Installed Power |
N/A 10.5 kW |
Water Pump Power |
N/A 1.5 hp |
Tank Capacity |
N/A 42 gal |
Dimension A |
N/A 50 in |
Dimension B |
N/A 39 in |
Dimension C |
N/A 81 in |
Refrigerant Type |
N/A R410A |
Minimum Inlet Water Temperature |
N/A 32 ºF |
Maximum Inlet Water Temperature |
N/A 86 ºF |
Minimum Outlet Water Temperature |
N/A 32 ºF |
Maximum Outlet Water Temperature |
N/A 68 ºF |
Minimum Ambient Temperature |
N/A 23 ºF |
Maximum Ambient Temperature |
N/A 108 ºF |
Shipping Weight |
N/A 1078 lb |
Power Supply Voltage |
N/A 460 V |
Power Supply Phase |
N/A 3 |
Power Supply Frequency |
N/A 60 Hz |
Additional Information |
N/A
Leading edge technology and hundreds of years of experience…nano-purification solutions, your world-class manufacturer of state-of-the-art compressed air and gas solutions and process cooling equipment to industry. Our commitment at nano is to work alongside our customers and provide unique solutions with the highest quality products to solve your specific challenges. A wealth of experience and leading edge products are only part of the equation. nano recognize that world-class customer service is the most important component to any successful business. Experience. Customer. Service… nano Improved productivity & reduced costs Process chillers are used in a variety of industrial applications to improve processes, reduce operating costs and increase productivity. Utilization of process chillers is becoming increasingly prevalent due to more stringent environmental water quality standards. nano realize the importance of chilled water in industry and have developed the C1 line of precision controlled industrial process chillers to meet the increasing demand for high quality complete packaged solutions which meet various industrial applications. The C1 operates in a closed circuit (open circuit optional), offering precise water temperature control and rapid response to changes in ambient and thermal load. This design also eliminates the waste, corrosion and bacterial growth associated with open circuit systems. In addition, energy efficient and reliable compressors combined with a unique, oversized, patented, NO FROST in-tank evaporator provide the lowest operating costs available on the market today. |
Design |
N/A Our experienced team of design engineers are always looking for new and unique technologies and products to bring you the highest level of performance and lowest overall operating cost. |
Research and Development |
N/A Our R&D team endeavors to provide solutions that go beyond developing an existing product. They are continually researching new technologies which can provide unique advantages over competitive offerings. |
Manufacture |
N/A The reliable and energy saving nano C1 industrial process chillers are manufactured in a state of the art facility to the highest standards of build quality to ensure reliability and high levels of performance. |
Optimum Energy Efficiency |
N/A lower electricity consumption compared to other machines on the market |
Quality Components |
N/A CAREL microprocessor, Copeland Scroll™ compressors |
Easy to Install |
N/A adapts to any installation constraints, both inside and outside |
Space Saving Design |
N/A fully packaged into a simple compact design, NCS will fit into the smallest spaces |
Easy Start-up |
N/A fully integrated packaged solution with expansion tank and bypass |
Total Accessibility |
N/A All panels can be removed to facilitate maintenance |
Environmentally Friendly |
N/A closed water circuit, cycling chiller using environmentally friendly refrigerant boasts lowest electricity consumption on the market |
Manufacturing Quality |
N/A Meeting strict ISO 9001 certified specifications |
Air-cooled Condenser |
N/A Fitted with axial cooling fan with balanced aluminum blades and an air-cooled condenser in copper pipes and aluminum vanes. Reduces noise levels and improves ventilation air flow |
CAREL Microprocessor |
N/A The CAREL digital microprocessor continuously indicates water outlet temperature, operating instructions and various adjustable parameters and alarms |
Integrated Bypass |
N/A An integral centrifugal pump mounted within the chiller enclosure and a storage tank to avoid the risk of short cycles (models NCS 0031 to 1504 US). The standard adjustable bypass valve and integrated pressure gauge allows the water supply flowing out of the unit to be regulated |
NO FROST Evaporator |
N/A Patented tube in flexible shell heat exchanger is integral to the buffer vessel and protects against damage which can occur with improper setup or maintenance (1 external shell, 2 buffer tank, 3 flexible shell, 4 gas distributor, 5 feeding circuits, 6 ret |
Ventilation Grill |
N/A Includes a standard cleanable mesh panel filter to protect condenser |
Robust Construction |
N/A Aluminum sections and panels in plastic coated galvanized steel all mounted on an epoxy coated steel structural base (aluminum or stainless steel panels available as option) |
Energy Efficient & Reliable Compressor |
N/A C1 features Copeland Scroll™ compressors as standard on models NCS 0015 to 1504 US. Scrolls minimize power consumption, noise, vibration and moving parts while maximizing reliability and resistance to liquid refrigerant returns |
Integral Pump |
N/A Integrated centrifugal pump standard on models NCS 0031 to 1504 US |
Closed Circuit Installation (Standard) |
N/A Expansion tanks are required for all closed circuit installations. When multiple chillers are installed in parallel, the expansion tanks must be automatic. |
Open Circuit Installation (Optional) |
N/A Expansion tanks are not required for open circuit installations. Open circuits also typically use an external pump so, the internal pump may not be required. |
Standard Features |
N/A
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Optional Features |
N/A
|
More Capabilities |
N/A
|
Note for Inlet Water Temperature |
N/A Assumes 45ºF cooling water supply, 55ºF cooling water return and 95ºF ambient temperature. For all other conditions refer to the correction factors |
Note for Outlet Water Temperature |
N/A Assumes 45ºF cooling water supply, 55ºF cooling water return and 95ºF ambient temperature. For all other conditions refer to the correction factors |
Note for Ambient Temperature |
N/A Assumes 45ºF cooling water supply, 55ºF cooling water return and 95ºF ambient temperature. For all other conditions refer to the correction factors |
Note for Power Supply |
N/A All models are 60 Hz. Protection class IP55 standard except for NCS 0002 - 0006 US IP44 standard. |
Note for Cooling Capacity |
N/A Assumes 45ºF cooling water supply, 55ºF cooling water return and 95ºF ambient temperature. For all other conditions refer to the correction factors |
Note for Total Installed Power |
N/A Total nominal absorbed power by (all) compressor(s) at rated inlet conditions using 230/1/60 or 460/3/60 power supply as applicable |
Note for Evaporator Correction Factor |
N/A Assumes no change to condenser inlet water temperature |
Note for Condenser Correction Factor |
N/A Assumes no change to evaporator outlet water temperature |
Note for Correction Factors |
N/A To be used as a guide only. All applications should be confirmed by nano. |
Note |
N/A Additional specifications available, consult factory |
Correction Factor at 30 Degree Fahrenheit (ºF) Water Outlet Temperature |
N/A 0.68 |
Correction Factor at 35 Degree Fahrenheit (ºF) Water Outlet Temperature |
N/A 0.79 |
Correction Factor at 40 Degree Fahrenheit (ºF) Water Outlet Temperature |
N/A 0.91 |
Correction Factor at 45 Degree Fahrenheit (ºF) Water Outlet Temperature |
N/A 1 |
Correction Factor at 50 Degree Fahrenheit (ºF) Water Outlet Temperature |
N/A 1.10 |
Correction Factor at 55 Degree Fahrenheit (ºF) Water Outlet Temperature |
N/A 1.19 |
Correction Factor at 60+ Degree Fahrenheit (ºF) Water Outlet Temperature |
N/A 1.27 |
Correction Factor at 75 Degree Fahrenheit (ºF) Ambient Temperature |
N/A 1.18 |
Correction Factor at 80 Degree Fahrenheit (ºF) Ambient Temperature |
N/A 1.14 |
Correction Factor at 85 Degree Fahrenheit (ºF) Ambient Temperature |
N/A 1.11 |
Correction Factor at 90 Degree Fahrenheit (ºF) Ambient Temperature |
N/A 1.04 |
Correction Factor at 95 Degree Fahrenheit (ºF) Ambient Temperature |
N/A 1 |
Correction Factor at 100 Degree Fahrenheit (ºF) Ambient Temperature |
N/A 0.96 |
Correction Factor at 7 Degree Fahrenheit (ºF) Evaporator ΔT |
N/A 0.993 |
Correction Factor at 105 Degree Fahrenheit (ºF) Ambient Temperature |
N/A 0.92 |
Correction Factor at 9 Degree Fahrenheit (ºF) Evaporator ΔT |
N/A 1 |
Correction Factor at 10 Degree Fahrenheit (ºF) Evaporator ΔT |
N/A 1.003 |
Correction Factor at 12 Degree Fahrenheit (ºF) Evaporator ΔT |
N/A 1.009 |
Correction Factor at 14 Degree Fahrenheit (ºF) Evaporator ΔT |
N/A 1.015 |
Correction Factor at 16 Degree Fahrenheit (ºF) Evaporator ΔT |
N/A 1.021 |
Correction Factor at 18 Degree Fahrenheit (ºF) Evaporator ΔT |
N/A 1.025 |
Correction Factor at 10 Degree Fahrenheit (ºF) Condenser ΔT |
N/A 1 |
Correction Factor at 12.5 Degree Fahrenheit (ºF) Condenser ΔT |
N/A 0.99 |
Correction Factor at 15 Degree Fahrenheit (ºF) Condenser ΔT |
N/A 0.98 |
Correction Factor at 17.5 Degree Fahrenheit (ºF) Condenser ΔT |
N/A 0.97 |
Correction Factor at 20 Degree Fahrenheit (ºF) Condenser ΔT |
N/A 0.96 |
Correction Factor at 22.5 Degree Fahrenheit (ºF) Condenser ΔT |
N/A 0.95 |
Correction Factor at 25 Degree Fahrenheit (ºF) Condenser ΔT |
N/A 0.93 |
Correction Factor at 0 Percent (%) Propylene Glycol |
N/A 1 |
Correction Factor at 10 Percent (%) Propylene Glycol |
N/A 0.99 |
Correction Factor at 20 Percent (%) Propylene Glycol |
N/A 0.98 |
Correction Factor at 30 Percent (%) Propylene Glycol |
N/A 0.97 |
Correction Factor at 40 Percent (%) Propylene Glycol |
N/A 0.96 |
Correction Factor at 45 Percent (%) Propylene Glycol |
N/A 0.95 |
Correction Factor at 50 Percent (%) Propylene Glycol |
N/A 0.93 |