Description
Sustainable Energy Optimization
Integration of tier-1 branded components coupled with proprietary architecture guarantees maximum system reliability and operational longevity.
Available in versatile dimensional footprints for seamless integration within standard IT rack rows, maximizing spatial utilization efficiency while delivering high-capacity localized thermal management.
Advanced inverter compressors and premium EC fan arrays, governed by an intelligent control infrastructure, deliver micro-level precise temperature regulation.
Embedded Indirect Free Cooling powered by Refrigerant Pump Technology dynamically minimizes the net energy consumption of the Inrow infrastructure.
Eco-Efficiency & Indirect Free Cooling
Leverages indirect free cooling powered by advanced refrigerant pump technology, driving the operational PUE down to an ultra-low 1.2.
Achieves absolute zero water consumption during active free cooling operational modes.
Elimitates the introduction of fluid loops within the server room envelope, thoroughly bypassing any flooding or leakage vulnerabilities.
Utilizes a fully isolated indirect heat exchange configuration, completely isolating IT environments from external dust and moisture contamination.
Features autonomous operational mode transitions, minimizing the requirement for intricate manual maintenance or specialized servicing.
Intelligent Control Infrastructure
Industry-leading smart control architecture engineered with precision telemetry data and advanced algorithmic control logics.
Full-digital regulation across all critical components, sustaining optimal operational status and flexible adjustments tailored to real-time onsite conditions.
Comprehensive diagnostic logging supporting 1,000+ historical alarm records, alongside 7-day continuous pressure and temperature curve telemetry.
Standardized smart monitoring protocols: Web, SNMP, Modbus, BACnet, Email, Dry Contact, and IPv6 integration.
Advanced multi-unit coordination functionality, including Master/Slave, Master Control, and Forced Operation modes.
Embedded web server facilitating secure remote access via standard web browsers on both PCs and mobile devices for real-time visibility and configuration.
Engineered Flexibility & Customization
Versatile Dimensional Matrix: Offered in three distinct widths and three depth configurations, featuring adaptable front or side airflow discharge and adjustable vent louvers to deliver a precision fit for diverse data center layouts.
Universal Vendor Compatibility: Engineered to seamlessly interface with server enclosures from any third-party manufacturer, removing deployment barriers.
Non-Disruptive Scalability: Facilitates effortless expansion or modular reconfiguration of your thermal infrastructure without inducing any downtime or operational disruptions to the active setup.
All Types of Cooling System
Air Cooled Split
5.6-90.1kW
300/600/900 Width
Air Cooled Packaged
5.6-10.8kW
300mm Width
Water Cooled
5.6-90.1kW
300/600/900 Width
Chilled Water Cooled
28.9-65.8kW
300/600mm Width
Key Components
Inverter Compressor
Sustains stable temperature regulation aligned with dynamic heating loads by modulating compressor output.
Minimizes operational energy expenditures while extending the compressor’s mechanical lifecycle.
Utilizes eco-friendly R410a/R134a refrigerants with zero Ozone Depletion Potential (ODP).
Features a broad cooling capacity adjustment range spanning from 30% to 100%.
EC Fans
Engineered with best-in-class industrial architecture, ensuring maximum system reliability.
Integrates a premium, peak-efficiency EC fan system.
Provides continuous, precise speed modulation spanning from 0% to 100%.
Employs a beltless direct-drive configuration to simplify component replacement and routine servicing.
Delivers elevated external static pressure (ESP) flexibility to easily accommodate specialized application requirements.
Electronic Expansion Valve
Automatically calibrates refrigerant mass flow based on real-time system demand profiles.
Demonstrates superior COP (Coefficient of Performance) during low-ambient seasons compared to traditional TEV systems.
Optimizes refrigerant fluid feeding during compressor startup phases to ensure enhanced operational reliability.
