Product Description
- Tube in tube type evaporator.
- CFC free , Eco friendly refrigerant used in system.
- The precise & accurate Hot gas By Pass Valve , which prevents the formation of ice inside the evaporator.
- The high efficiency condensate separator is located within the heat exchanger module. No maintenance is required and gives a high degree of moisture separation.
- Compact design , requires less floor space.
- Range from 15 CFM , capable to work up to inlet air temperature of 60C.
Specification
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Capacity
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10 Cfm - 4000cfm
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Pressure
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14kg -30kg
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Type
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Digital Controller
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Advanced Dew Point Control for Optimal Gas PurityAchieve superior drying efficiency with a dew point as low as -60C, enabling consistent delivery of high-purity gaseous output essential for oxygen and nitrogen plants. Automatic PLC-based cycling ensures continuous and reliable operation, while skid-mounted construction offers ease of installation and mobility. Designed for industrial robustness, this air dryer meets the demanding needs of gas separation and generation systems.
Flexible Operation for Diverse Industrial ApplicationsThis air dryer offers flexibility in both construction and process control, with options for heatless or heated regeneration and compatibility with various filter types. Suitable for integration as a distributor, manufacturer, or service provider, its robust mild or stainless steel build adapts to different plant requirements. Its energy-efficient design and versatile mounting further facilitate seamless operation across a spectrum of gas processing environments.
FAQs of Oxygen Plant Air Dryer:
Q: How does the Oxygen Plant Air Dryer achieve a dew point of up to -60C?
A: The dryer employs advanced adsorption technology with effective pre- and after-filtration. Its PLC/automatic control panel optimizes the regeneration process (either heatless or heated as needed), ensuring that incoming air is thoroughly dried to reach dew points as low as -60C, which is vital for oxygen and nitrogen plant operations.
Q: What process is involved in ensuring the air supply remains oil-free?
A: The unit uses integrated pre- and after-filters, along with adsorption drying technology, to remove oil content to levels of 0.01 mg/m. This guarantees that the outgoing air is virtually oil-free, protecting sensitive gas applications and ensuring compliance with industry standards.
Q: When should the air dryers filters be maintained or replaced?
A: It is advisable to inspect and, if necessary, replace the pre- and after-filters at regular intervals suggested by the manufacturer, typically depending on operating conditions and contaminant load. Routine checks help sustain optimal dryer performance and air purity.
Q: Where is this air dryer typically installed or mounted?
A: The system features a skid-mounted design, making it suitable for installation next to oxygen and nitrogen generators, PSA plants, or within industrial gas processing facilities. Its compact footprint ensures efficient use of space and ease of integration into existing setups.
Q: What are the uses and benefits of automatic PLC-based operation in this air dryer?
A: Automatic PLC-controlled switching streamlines the entire drying and regeneration cycle, minimizing operator intervention and reducing potential errors. This ensures energy-efficient operation, consistent air quality, and reliable automatic adaptation to fluctuating process demands.
Q: How does the heatless or heated regeneration process work, and when is it chosen?
A: Heatless regeneration utilizes a portion of dried air to purge moisture from the desiccant, whereas heated regeneration uses external heat to improve efficiency and reduce purge air consumption. The choice depends on specific application requirements, energy considerations, and desired cycle times.
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