Rack Thermal Management

Part Number	Description / PDF	Quantity
HEH100BA Delta Electronics / Fans	AC 220V HEATER 1000W	3
HEH100PA Delta Electronics / Fans	DC 48V HEATER 1000W	10
HEH100PB Delta Electronics / Fans	DC 48V HEATER 1000W (RACK-MOUNT	5
HEH050BA Delta Electronics / Fans	AC 220V HEATER 500W	7
HEH050PA Delta Electronics / Fans	DC 48V HEATER 500W	7
HEX200PC Delta Electronics / Fans	CABINET HEAT EXCHANGER	1
HEX080QA Delta Electronics / Fans	CABINET HEAT EXCHANGER	1
HEX160PA Delta Electronics / Fans	CABINET HEAT EXCHANGER	1
HEC1000PB Delta Electronics / Fans	FAN 48VDC 5.6A	0
HEC1500PB Delta Electronics / Fans	CABINET COOLER / AIR CONDITIONER	1
HEX260PA-A Delta Electronics / Fans	CABINET HEAT EXCHANGER	0
HEC0700BFA Delta Electronics / Fans	CABINET COOLER / AIR CONDITIONER	1
HEC1200PC Delta Electronics / Fans	CABINET COOLER / AIR CONDITIONER	1
HEC1200PB Delta Electronics / Fans	CABINET COOLER / AIR CONDITIONER	1
HEX080PD Delta Electronics / Fans	CABINET HEAT EXCHANGER	1
HEH70BA Delta Electronics / Fans	HEATER	0
HEC0500FFA Delta Electronics / Fans	CABINET COOLER / AIR CONDITIONER	1
HEC0800PC Delta Electronics / Fans	CABINET COOLER / AIR CONDITIONER	1
HEX150PB Delta Electronics / Fans	CABINET HEAT EXCHANGER	1
HEH030BA Delta Electronics / Fans	CABINET HEATER	7

Rack Thermal Management

1. Overview

Rack Thermal Management (RTM) refers to systems and solutions designed to control temperature and airflow within IT equipment enclosures. It ensures optimal operating conditions for servers, networking devices, and industrial hardware by preventing overheating and maintaining energy efficiency. With increasing data processing demands, RTM has become critical for reliability, energy conservation, and operational cost reduction in modern infrastructure.

2. Main Types and Functional Classification

Type	Functional Features	Application Examples
Active Cooling Systems	Forced air circulation via fans/blowers with adjustable speed control	Data centers, telecom cabinets
Passive Cooling Systems	Thermal conduction through heat sinks or phase-change materials	Outdoor cabinets, industrial control panels
Liquid Cooling Systems	Direct/indirect liquid heat exchange (water/glycol or dielectric fluids)	HPC clusters, 5G base stations
Smart Ventilation Units	Dynamic airflow management with temperature/humidity sensors	Edge computing installations
Hot/Cold Aisle Containment	Physical barriers to separate airflow paths	Enterprise server rooms

3. Structure and Components

Typical RTM systems consist of: - Metal Enclosure: Steel/aluminum frame with ventilation grilles - Thermal Components: Variable-speed fans, heat exchangers, thermoelectric coolers - Control System: Microprocessor-based controllers with IoT connectivity - Sensors: Temperature, humidity, and pressure monitoring modules - Power Supply: Redundant AC/DC power interfaces with surge protection

4. Key Technical Specifications

Parameter	Typical Range	Importance
Cooling Capacity	1-20 kW/rack	Determines maximum heat dissipation capability
Noise Level	25-60 dBA	Affects working environment comfort
Energy Efficiency Ratio (EER)	0.8-2.5	Measures power consumption vs. cooling performance
Temperature Control Accuracy	0.5 C	Ensures stable operating conditions
IP Rating	IP20-IP54	Defines protection against dust and water ingress

5. Application Fields

Major industries include:

IT Data Centers (server racks, storage systems)
Telecommunications (5G NR base stations, core routers)
Industrial Automation (PLC control cabinets)
Healthcare (MRI machine enclosures)
Transportation (railway signaling equipment)

Case Study: A hyperscale data center in Singapore improved cooling efficiency by 35% through hot aisle containment implementation.

6. Leading Manufacturers

Manufacturer	Representative Product	Key Features
Schneider Electric	InRow Cooling System	Modular design with 7kW capacity
Emerson Network Power	Liebert XD Series	Direct expansion cooling with EC fans
Stulz GmbH	Air Control System	Free cooling integration capability
Huawei	NetEco Thermal Management	AI-powered temperature optimization

7. Selection Guidelines

Key considerations:

Calculate heat load density (kW/rack)
Verify rack dimensions and airflow patterns
Assess energy efficiency requirements
Ensure compatibility with existing infrastructure
Evaluate smart monitoring capabilities

8. Industry Trends

Emerging developments:

Adoption of immersion cooling for >15kW/rack densities
Integration with AI-based thermal modeling
Rise of modular, scalable cooling solutions
Increased focus on green refrigerants and energy recovery
Growth of edge computing thermal management solutions