Parker's Domnick Hunter filtration division is the global leader in gas generation and filtration having the he most complete product line of Air Treatment and Nitrogen Generators, Desiccant Dryers, Refrigerated Dryers, Biogas Filtration and Chillers.
Keep Compressed Air Dry & Reliable, Even in Winter
Available at Wainbee, the Parker CDAS HL Desiccant Dryer delivers clean, dry compressed air to help prevent freezing, corrosion, and product contamination.
Energy-Efficient, Heatless Operation
The CDAS HL uses energy-efficient, heatless drying to remove moisture effectively, reducing operating costs while maintaining ultra-low dew points.
High Flow Rates & Ultra-Low Dew Points
Supporting flow rates up to 300 m³/h, the dryer achieves dew points of -70, -40, or -20 °C, meeting ISO 8573-1 standards. Ideal for cold climates and both indoor and outdoor piping installations.
Ideal for Demanding Industries
Perfect for industries where reliable, dry compressed air is critical: food processing, pharmaceuticals, electronics, machining, and forestry.
Prevent Downtime & Extend Equipment Life
Moisture in compressed air systems can cause freezing, corrosion, and contamination. The CDAS HL reduces these risks, keeping your operations running smoothly throughout winter.
Why Buy Through Wainbee
With Wainbee, you get expert technical support, rapid delivery, and solutions built for Canadian winter conditions — ensuring your systems stay productive and reliable all season long.
Hyperchill Smart-E – Eco-Friendly, Powerful & Efficient
The Hyperchill Smart-E is a next-generation, eco-friendly process chiller designed for both performance and sustainability. This innovative range meets European F-Gas regulation (EU 2024/573) and ECO Design TIER 2 standards, providing environmentally responsible cooling solutions.
What Makes Hyperchill Smart-E Different
- Expanded Range: Cooling capacities from 160 kW to 580 kW (@nominal condition)
- Eco-Friendly Refrigerant: Uses R1234ze with an ultra-low GWP of 1.37, classified A2L—safe for transport and storage
- High Energy Efficiency: Low total power consumption for cost-effective operation
- Flexible Hydraulic Design: Standard water storage tank and pump up to ICES240E; optional buffer tank and pump for larger models
- Industry 4.0 Ready: Integrated MODBUS RTU and MODBUS TCP/IP for all sizes
- Robust Performance: Operating range -10 °C to +48 °C ambient; water outlet -10 °C to +25 °C
- Advanced Heat Exchange: Microchannel condensers, Shell & Tube evaporator for ICES240E+, and Plate Heat Exchanger on smaller models
- Precision Control: Electronic expansion valve for efficient and reliable operation
Parker Hyperchill Plus-E - Precision Cooling. Reliable Performance.
Parker’s Hyperchill Plus-E industrial water chillers deliver accurate fluid temperature control for low-viscosity media such as water, water-glycol, and oils, with cooling capacities ranging from approximately 2.9 to 120 kW. Designed for demanding environments, these units operate reliably in ambient temperatures up to 48 °C, ensuring stable performance and protecting uptime.
Built with a fully non-ferrous hydraulic circuit and using low-GWP, non-flammable R513A refrigerant (Safety Class A1, ISO 817), Hyperchill Plus-E ensures long-term corrosion resistance, indoor/outdoor flexibility, and clean coolant operation.
WHAT’S NEW WITH HYPERCHILL PLUS-E:
- Low-GWP R513A refrigerant: Non-flammable and safe for indoor/outdoor use
- Expanded cETLus certification: Now available from 8 kW to 120 kW
- Non-ferrous hydraulic circuit: Standard across all models for corrosion resistance
- Industry 4.0 ready: Integrated MODBUS RTU with optional TCP/IP connectivity
- Advanced remote control: Includes master/slave functionality
- Extended temperature range: Operates in ambient temps up to +46 °C; as low as -10 °C from ICEP022E and up
PRODUCT LINE EVOLUTION
The Hyperchill Plus-E 60Hz range replaces the legacy ICEP 60Hz and PCW models, offering improved performance, safety, and efficiency across a broader cooling capacity range.
Cool, Clean & Reliable! Domnick Hunter Solutions to Beat the Heat & Maximize Uptime
Explore our heat-wave-ready essentials! Maximize uptime with reliable solutions like PNEUDRI Dryers and MIST‑XL Eliminators, designed to keep your operations running smoothly in hot and humid conditions.
PNEUDRI Desiccant Air Dryers – Continuous Drying Made Simple
PNEUDRI Desiccant Air Dryers excel in maintaining uptime by efficiently removing moisture from compressed air. Their modular twin-tower design allows one tower to run while the other regenerates, ensuring uninterrupted performance. Lightweight and easy to install, they’re an energy-efficient choice for demanding operations.
Refrigerated Air Dryers – Reliable Moisture Control
Refrigerated air dryers cool compressed air to condense and remove moisture before re-heating it, protecting downstream equipment. Perfect for general-purpose systems, they help maintain humidity control and ensure optimal operation in challenging environments.
OIL‑X Coalescing Filters – Clean Air, Every Time
OIL‑X filters remove oil, water, and particulates from compressed air with exceptional efficiency. Designed for continuous operation, they reduce pressure drop while maintaining high air purity, keeping your systems clean and stress-free.
SCE‑HB High-Efficiency Filters – Sterile & Efficient
With ultra-fine filtration and hydrophobic PTFE media, SCE‑HB filters handle condensate and steam effectively. Built for industries like food and beverage, they ensure cleanliness and operational reliability where it’s needed most.
MIST‑XL Mist Eliminators – Heavy-Duty Performance
MIST‑XL Mist Eliminators are optimized to separate heavy oil aerosols with minimal pressure drop. Their rugged design and long service life make them an ideal solution for tackling compressor challenges in the most demanding conditions.
Unleash Peak Efficiency with the NITROSource Plus PSA Nitrogen Gas Generator Range!
Experience unparalleled performance and operational excellence with the cutting-edge NITROSource Plus PSA nitrogen gas generators. Engineered for maximum efficiency, this innovative range delivers reliable, high-quality nitrogen to power your operations like never before.
Advanced Oxygen Analysis: All models feature an integral Zirconia oxygen analyzer for precise and rapid monitoring with extended service life. For pharmaceutical compliance, an optional electrochemical oxygen analyzer aligns with European Pharmacopoeia standards.
Safety Assurance with Off-Gas Bypass: If oxygen levels exceed specifications, the generator automatically vents out-of-spec gas and purges to restore purity, preventing contamination.
Stable Flow Control: A mass flow controller ensures consistent nitrogen flow and pressure, safeguarding the CMS bed from overloading and maintaining gas purity, even during downstream fluctuations.
Energy Saving Technology (EST): Optimizes cycle timing based on oxygen monitoring, reducing compressed air usage under part-load conditions for greater efficiency.
Pressure Regulation: Outlet pressure regulation ensures stable nitrogen supply, protecting processes from pressure fluctuations and overloading.
Parker’s PCO2 System: Safeguarding In-Plant Carbon Dioxide Quality for Industry Compliance
This Parker protection system is a comprehensive solution that preserves and guarantees the quality of the gaseous CO2 used in bottling of sparking beverages, preventing accidental contamination during the process. Utilizing advanced multi-layer adsorbent technology, the PCO2 range effectively accommodates flow rates from 181 to 4,354 kg/h at 24 bar g (400 to 9,600 lb/h at 350 psi g), ensuring optimal plant-scale protection. Functioning as a critical safeguard against quality incidents, this system efficiently eliminates a broad spectrum of potential carbon dioxide impurities. By maintaining gas quality in accordance with industry and company standards, it helps avert negative impacts on the final beverage, protecting both the producer's reputation and their bottom line. Endorsed and recommended by leading global brands, the Parker PCO2 is the preferred choice in the beverage industry, with installations across over 150 countries worldwide. Features: Failure to treat contaminants in compressed-air systems can lead to corrosion, blockage, damaged equipment, premature desiccant changes, or product contamination. This results in inefficient processes, spoiled products, low efficiency, and higher manufacturing expenses. Contaminants like particulate, oil, micro-organisms, and exhaust can cause an unhealthy, unsafe work environment too. Compressed-air purification requires uncompromising performance and reliability, plus the right balance of air quality with low operational cost.
• Comprehensive six-stage filtration technology
• Maximum cartridge life of 12 months*
• Low maintenance requirements
• Integrated safety features for enhanced reliability
• Simple installation with a compact design
• Materials of construction independently verified to comply with FDA Title 21 Code of Federal Regulations
• Adherence to global compliance and legislation standards
*12-month operational life is dependent on certified beverage/ISBT grade CO2 usage and the presence of a mass flow meter.
Benefits:
• Guaranteed carbon dioxide quality—effectively removes a wide range of potential impurities and contaminants
• Reduced total cost of ownership
• Protection against impurities that can cause flavor defects, minimizing product spoilage and safeguarding • bottlers’ reputations
• Ensures carbon dioxide meets both industry and company specifications—restores 'out of specification' gas to within beverage quality guidelines
• International sales and service support backed by over 20 years of experience
Clearing Compressed Air for Industrial Excellence
The Parker domnick hunter’s OIL-X coalescing filters use four, to guarantee high-performance liquid removal. In one method, a high-efficiency drainage layer offers more fluid drainage, better chemical compatibility, and higher operational temperatures than ordinary material does. In another, the OIL-X design wraps the drainage layer under the lower end cap to remove coalesced fluid from the air-flow path, which boosts liquid-removal efficiency and offers more usable filtration surface area. Other methods involve surface tension breakers and drainage ribs cast into the filter bowl.