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Industrial Research And Consultancy Centre
Patent
Panel Heat and Mass Exchanger
Problem Statement

Traditional cooling panels for air conditioning systems fail to manage latent heat loads and need close control of indoor relative humidity using complex parallel systems. They also suffer from inefficiencies due to using different materials for tubes and panels, leading to poor heat transfer. Existing designs need a large area per unit cooling capacity handled. They are bulky, expensive, and less efficient in handling heat and mass transfer tasks.

Abstract

The Panel Heat and Mass Exchanger is designed to handle both heat and mass transfer processes. It can be used for air conditioning, heating, cooling, drying, and separating mixtures through selective condensation or freezing. The design improves efficiency by integrating fins and passages to enhance surface area and heat/mass transfer coefficients while reducing the overall size, weight, and cost compared to conventional systems.

Uniqueness of the Solution
  • Versatile Functionality: Capable of cooling, heating, drying, and separating mixtures through selective condensation or freezing, eliminating the need for parallel systems and reducing complexity and costs. Enhanced 
  • Heat Transfer Efficiency: Features integrated passages with internal corrugations and staggered fins, enhancing surface area density and heat transfer efficiency. 
  • Single Material Construction: Can be optionally built entirely from a single material, avoiding contact resistance and thermal expansion issues, thereby enhancing overall heat and mass transfer. 
  • Compact and Space-efficient: High surface area to projected area ratio (up to 13.5), requiring less installation space and offering significant energy and cost savings.
Prototype Details

The prototype comprises modular panel/s made up of aluminium extrusions with integrated fins and passages. The passages can carry phase change materials or sensible heat storage medium/s. The design includes interlocking elements for easy assembly and extension. It has been tested in various configurations, such as cooling panels, radiative condensers, evaporative condensers, ice bank storage, low-temperature dryers and waste heat recovery systems

Current Status of Technology

The panel heat and mass exchanger has been successfully developed and tested. Prototypes have proven effective in HVAC, drying, thermal storage, desalination, and waste heat recovery. The technology is licensed to several companies for applications like thermal storage and heat exchange with multiple fluid streams. Its efficacy has been demonstrated for radiant cooling, dehumidifying, air and evaporative-cooled condensation, and technology. Efforts are ongoing to enable the licensing and commercialisation of the technology for various applications. Selective condensation using this technology can separate multicomponent gaseous streams into various condensed fractions without fractional distillation.

Technology readiness level

7

Societal Impact

The panel heat exchanger offers significant energy savings by improving the efficiency of HVAC systems and reducing the need for additional equipment to handle latent loads. It is very compact and cost-effective as compared to conventional radiant cooling technologies. Additionally, its application for drying agricultural products can significantly enhance livelihood, reduce wastage and improve sustainability.

Relevant Industries, Domains and Applications

Building Systems and HVAC, Agriculture and Food Processing, Drying, Water Treatment and Desalination,

Applications or Domain
  • HVAC Systems: Efficiently caters to air conditioning, heating, cooling, and moisture control. Industrial Drying Processes: Dries agricultural products like grains, vegetables, fruits, herbs, and spices. 
  • Thermal Storage Systems: Stores thermal energy using phase change or sensible heat storage materials. 
  • Desalination and Purification: Purifies sea water, milk, and fruit juices through desalination and selective freezing. 
  • Waste Heat Recovery: Captures and reuses heat from industrial processes, enhancing energy efficiency. 
  • Selective Condensation: Separate multicomponent gaseous streams into various condensed fractions without fractional distillation.

Geography of IP

Type of IP

Application Number

1828/MUM/2014

Filing Date
Grant Number

422089

Grant Date
Assignee(s)
Indian Institute of Technology Bombay
**This IP is owned by IIT Bombay**