IIR releases new technical brief on dehumidification technologies for air conditioning
Paris, France — July 2026 — The International Institute of Refrigeration (IIR) has published Dehumidification in Air Conditioning, the 62nd in its Technical Brief series on refrigeration technologies. The brief offers a comprehensive review of the technologies used to remove moisture from air in cooling systems. This process is central to both indoor environment and the energy performance of air conditioning worldwide.
In hot and humid climates, HVAC systems can account for more than half of a building's total energy use, and more than half of that load comes from removing moisture from the air rather than lowering its temperature. As demand for air conditioning accelerates across Southeast Asia, Africa, Latin America and other hot, humid regions, the brief argues that how well systems handle humidity ,not just temperature,will be decisive for energy demand, emissions, and grid stability in the years ahead.
What the brief covers
Authored by a team of IIR experts led by Baolong Wang (Vice President of IIR Commission E1, Air conditioning and President of IIR Working Group on Dehumidification in Air conditioning ), the brief maps the full landscape of dehumidification technologies, including:
- Condensation dehumidification: the mature, widely used approach behind most vapour-compression and thermoelectric systems today
- Liquid desiccant dehumidification: which can run on low-grade waste heat and is increasingly used where deep, precise humidity control is critical, such as in hospitals and laboratories
- Solid desiccant dehumidification: including desiccant wheels, which can reach dew points as low as –70°C and are used in industries like pharmaceuticals, electronics, and battery manufacturing
- Emerging technologies: including electrolyte membrane and hollow-fibre membrane dehumidification, compact and electrically driven approaches, still in early stages of commercialisation
Key recommendations
Based on this analysis, the IIR calls for:
- Prioritising humidity control to allow air conditioning systems to operate at higher, more efficient chilled-water or evaporating temperatures
- Accelerating deployment of efficient dehumidification in hot-humid regions, where cooling demand growth is concentrated, and the energy, emissions, and grid-stability stakes are highest
- Increased support for emerging dehumidification technologies, through technical alliances, research funding, and international collaboration
The brief also sets out recommendations for policymakers, including embedding humidity-control metrics into global air-conditioning test standards. In this area, current standards focus mainly ontemperature and encourage closer collaboration between international standards bodies such as ISO, CENELEC, ASHRAE, and JSRAE.
“Humidity control is a critical factor in maintaining a comfortable and productive indoor environment. Advanced dehumidification technologies can substantially lower the energy consumption and carbon footprint of air conditioning systems, thereby advancing global initiatives for low-carbon cooling”.
- Baolong Wang, Lead Author, Vice President, Commission E1 (Air Conditioning and President of IIR Working Group on Dehumidification in Air Conditioning)
About the IIR
The International Institute of Refrigeration (IIR) is an intergovernmental organisation dedicated to advancing refrigeration and heat pump technologies and their application for a sustainable future. With the world’s most comprehensive knowledge base, peer-reviewed publications, and regular international scientific conferences, the IIR drives the dissemination of cutting-edge research and fosters global collaboration across the sector. The IIR connects researchers, industry experts, and policymakers to support informed decision-making and turn scientific progress into practical and reliable applications. Founded after the first International Congress of Refrigeration held in 1908, the IIR is a global reference, providing trusted knowledge and data to support the deployment of sustainable, efficient refrigeration technologies essential to food security, healthcare, and climate action.
Press contact: n.nabila@iifiir.org / +33 (0) 1 42 27 32 35