Evaporative Cooling Chambers

Market Suggested Retail Price

$100.00

Target Users (Target Impact Group)

Distributors / Implementing Organizations

Open sourced technology, locally manufactured

Manufacturing/Building Method

Evaporative Cooling Chambers (ECCs) can be constructed from locally available materials such as bricks, sand, wood, dry grass, gunny/burlap sack, and twine. The chamber is constructed with two brick walls and the space in between the walls is filled with sand, which retains the water that is added. The ECCs should be constructed in a shaded area, under trees or a shed. For step-by-step instructions, see MIT D-Lab's Evaporative Cooling Best Practices Guide. Watch this video on building an ECC, published by the World Vegetable Center.

Intellectural Property Type

Open Source

User Provision Model

Materials to construct ECCs are obtained/purchased locally. Units are built on-site by end-users or local builders.

Distributions to Date Status

Unknown

Design Specifications

Evaporative cooling chambers (ECCs) are double-walled storage containers that use evaporative cooling principles to reduce their internal temperature. Sand and water fills the space between the two brick walls. As the water evaporates outwards into the atmosphere, heat is removed from the inner wall, creating a cooling effect. Water can be added manually with a pitcher or via a gravity-fed dripper. ECCs have a larger capacity compared to household clay pot coolers and are designed for farmers, communities, or farming cooperatives.

Technical Support

ECCs designs are open-source. Technical support can be provided by the local manufacturer. Detailed information regarding construction and use can be found in MIT D-Lab’s Evaporative Cooling Best Practices Guide.

Replacement Components

Replacement components, such as bricks, sand, and straw, are available locally.

Lifecycle

Approximately 3 years

Manufacturer Specified Performance Parameters

If the evaporative cooling chambers are operated in hot and dry climates (greater than 25 °C and less than 40% humidity) they can be expected to provide a storage environment with humidity greater than 80% and temperature at least 8 °C lower than the maximum daily ambient temperature.

Vetted Performance Status

MIT D-Lab conducted testing in Mali, in partnership with the World Vegetable Center. They reported that with a brick ECC storage, shelf life was up to 10 days for hot peppers and eggplant, 8 days for tomatoes, and 7 days for Okra, compared to only 2-4 days without cooled storage.

Safety

Possible contamination and spoilage of foods if not used properly.

Complementary Technical Systems

Clay pot coolers, or Zeer pots, operate on the same principle and provide a smaller, household storage capacity.

Academic Research and References

Compliance with regulations

Unknown