30 TR to 3000 TR 100 Kw to 9 MW Vapour
Steam-Driven Absorption Chiller-Heater
Vapour

Steam-Driven Absorption Chiller-Heater

A thermally powered HVAC system that uses steam to deliver simultaneous cooling and heating with minimal electricity

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Steam-Driven Absorption Chiller-Heater delivers simultaneous cooling and heating using medium or low-pressure steam. This thermally powered HVAC system operates with minimal electricity; it’s an efficient alternative to conventional electric HVAC solutions.  

The Steam-Driven Absorption Chiller-Heater utilises steam energy to provide simultaneous cooling and heating with exceptional efficiency. It uses lithium bromide-water solutions for eco-safe operation, it reduces electricity use and emissions, also supports green initiatives. Available in single, double and triple-effect models, it is engineered for compatibility with both medium and low-pressure steam sources. The integrated intelligent control panels provide precise temperature and performance monitoring, ensuring dependable HVAC operation. Designed to meet sustainability standards such as LEED and GRIHA, the Steam-Driven Absorption Chiller-Heater is an ideal solution for eco-conscious, high-performance commercial industries.

Technical data

  • Product capacity/performance range: 50 TR to 3000 TR (Cooling) & 100 kW to 9 MW (Heating)
  • Energy source: Saturated steam (3 to 10 bar g) from boilers, turbines, or industrial processes
  • Compliance/standards: ISO, ASME, CE, ETL, JIS, ASHRAE Standards
  • Flexibility/customisation options: Custom-designed for steam flow conditions, modular capacity scaling, compatible with SCADA for control and monitoring
  • Temperature range: Chilled Water: -5°C to 35°C/Hot Water: 35°C to 110°C
  • Operating COP/thermal efficiency: Cooling COP up to 1.53. Up to 40% savings in heating energy and 20% water savings
  • Process fluid options: Water and water-glycol mixtures for HVAC and industrial process integration

Product features

Dual functionality
Simultaneously provides cooling and heating
Steam driven
Uses process, utility steam and vapour as the energy source
Eco-friendly refrigerant
Lithium bromide-based system ensures zero ozone impact
Modular design
Compact footprint for flexible installation and upgrades
Smart controls
Real-time performance monitoring and control automation
Cost savings
Utilises available steam to reduce fuel and electricity costs
Low maintenance
Fewer moving parts ensure minimal wear and lower servicing needs
Quiet and stable operation
Reliable and low noise functioning with fewer mechanical parts
Customisable units
Designed to match diverse industry-specific thermal loads
AI/ML-driven real-time integration and monitoring
EDGE Live continuously tracks equipment performance, detects anomalies and enables preventive maintenance—reducing downtime and enhancing operational reliability.
30 TR to 3000 TR 100 Kw to 9 MW
Hot Water-Driven Absorption Chiller-Heater

Hot Water-Driven Absorption Chiller-Heater

A thermally operated HVAC system that delivers efficient cooling and heating using hot water from waste heat sources

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Thermax Hot Water-Driven Absorption Chiller-Heater offers efficient, low-emission heating and cooling using waste heat. 

Hot Water-Driven Absorption Chiller-Heater converts low-grade thermal energy into useful cooling and heating, enhancing energy recovery from waste heat streams. Employing lithium bromide technology, it ensures eco-safe, efficient operation with low electricity usage and a non-toxic refrigerant. Designed for hot water from 35°C to 110°C, its modular design and intelligent controls provide optimised energy use and precise temperature control, supporting eco-conscious operations across commercial and industrial applications.

Technical data

  • Product capacity/performance range: 50 to 3000 TR (Cooling) & 100 kW to 9 MW (Heating)
  • Energy source: Hot water from sources like engine jacket heat, solar thermal systems or industrial waste heat at 145°C to 180°C
  • Compliance/standards: ISO, CE, ETL, ASME, JIS Standards
  • Flexibility/customisation options: Adaptable to varying hot water flow rates, scalable for modular capacity and compatible with SCADA systems for real-time control
  • Temperature range: Chilled Water: -5°C to 35°C/Hot Water up to 110°C
  • Operating COP/thermal efficiency: Cooling COP up to 1.53. Upto 40% savings in heating energy and 20% water savings
  • Process fluid options: Water and water-glycol mixtures (customisable for industrial and HVAC applications)

Product features

Dual functionality
Delivers both cooling and heating with one system
Thermally powered
Runs on low-grade hot water from waste or renewable heat sources
Eco-friendly refrigerant
Lithium bromide-based, non-ozone depleting solution
Modular construction
Scalable, compact design for easier installation in space-constrained sites
Smart control interface
Real-time monitoring and automation for efficient energy usage
Minimal power draw
Negligible electrical consumption compared to compression-based systems
Silent operation
Operates quietly due to limited mechanical movement
Custom engineered
Flexible configurations to match application-specific needs
AI/ML-driven real-time integration and monitoring
EDGE Live continuously tracks equipment performance, detects anomalies and enables preventive maintenance—reducing downtime and enhancing operational reliability
30 TR to 3000 TR 100 Kw to 9 MW
Exhaust Gas-Driven Absorption Chiller-Heater

Exhaust Gas-Driven Absorption Chiller-Heater

A waste heat recovery solution that uses engine or turbine exhaust to deliver simultaneous cooling and heating efficiently

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Exhaust Gas-driven Absorption Chiller-Heater uses engine or turbine exhaust to deliver simultaneous cooling and heating efficiently.

Exhaust Gas Driven Absorption Chiller-Heater converts high-temperature engine or turbine exhaust into valuable heating and cooling, maximising system efficiency and minimising energy waste. Designed for cogeneration and optimised for exhaust temperatures from 250°C to 600°C, it uses lithium bromide-water solutions to provide sustainable energy utilisation with minimal electricity consumption and low emissions. Ideal for power plants, data centres, refineries and industrial facilities, this solution supports combined heat and power (CHP) systems, reducing fuel consumption and carbon footprint. Advanced automation and control systems ensure superior monitoring, efficiency and operational safety, making it an ideal choice for sustainable industrial energy recovery and reduced operational costs.

Technical data

  • Product capacity/performance range: 50 TR to 3000 TR
  • Energy source: Hot exhaust gases from engines, turbines or industrial furnaces at 250°C to 600°C
  • Compliance/standards: ISO, ASME, CE, ETL, JIS, ASHRAE Standards
  • Flexibility/customisation options: Designed for double effect based on exhaust temperature (250°C to 600°C), customisable capacity, integration with process heat recovery and compatibility with engine brands
  • Temperature range: Chilled Water: -5°C to 35°C/Hot Water up to 110°C
  • Operating COP/thermal efficiency: Cooling COP up to 1.53. Up to 40% savings in heating energy and 20% water savings
  • Process fluid options: Water, water-glycol mixtures (customisable for industrial processes)

Product features

Dual output system
Produces chilled and hot water from a single heat source
Waste heat utilisation
Converts engine/turbine exhaust into usable thermal energy
Eco-safe refrigerant
Operates on lithium bromide–non-toxic and ozone-friendly
Modular architecture
Flexible design for retrofit or greenfield integration
Smart automation
Real-time energy monitoring and system diagnostics
Minimal power use
Relies on thermal energy, requiring minimal electrical input
Silent and reliable operation
Fewer moving parts mean quieter and more dependable performance
Tailored designs
Configurable to match customer-specific exhaust and thermal load profiles
AI/ML-driven real-time integration and monitoring
EDGE Live continuously tracks equipment performance, detects anomalies and enables preventive maintenance—reducing downtime and enhancing operational reliability
Subscribe to 100 Kw to 9 MW

Registered Office Address

D-13, MIDC Industrial Area,
R. D. Aga Road, Chinchwad,
Pune 411019, Maharashtra, India

Corporate Office Address

Thermax Limited
Thermax House,
14 Mumbai-Pune Road, Wakdewadi,
Pune 411003, Maharashtra, India

Corporate Identity Number

L29299PN1980PLC022787

Toll Free Number

1800-209-0115

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