Evaluating the effectiveness of the 'eco-cooler' for passive home cooling

Aditi  Bunker; Karin Lundgren  Kownacki; Sudipa Sarker; Rahmatul  Bari; Malabika Sarker; Jonathan J.  Buonocore; Pascal  Geldsetzer; Johan  Revstedt; Till  Bärnighausen

doi:10.1038/s44168-024-00165-7

Evaluating the effectiveness of the 'eco-cooler' for passive home cooling

Aditi Bunker^*, Karin Lundgren Kownacki, Sudipa Sarker, Rahmatul Bari, Malabika Sarker, Jonathan J. Buonocore, Pascal Geldsetzer, Johan Revstedt, Till Bärnighausen

^*Corresponding author for this work

Design, Manufacturing And Engineering Management

Research output: Contribution to journal › Article › peer-review

Abstract

Constructed with used plastic bottles, the eco-cooler has been widely adopted in resource-poor communities in Bangladesh and other countries. We tested the eco-cooler under controlled conditions using a scientific wind tunnel in a climatic chamber. In our tests, we used seven eco-cooler designs in 27 climate conditions typical of Bangladesh (temperatures of 40 °C, 35 °C, and 30 °C; humidity levels of 70%, 60%, and 40%; and wind speeds of 4.0 m s−1, 2.0 m s−1, and 0.2 m s−1) in 92 experiments (N = 7686 measurements in 87 short experiments and N = 23,428 measurements in five long experiments). We found no significant temperature reductions with eco-cooler use, except at low wind speeds, where temperature reduced by up to 0.2 °C. In theoretical calculations extending our empirical findings, the greatest temperature drop was 0.85 °C at 4.0 m s−1 with a 40 °C static air inflow temperature. However, this temperature drop did not extend beyond the nozzles of the bottles in the eco-cooler. The eco-cooler did not work effectively as an indoor air cooler.

Original language	English
Article number	94
Number of pages	9
Journal	npj Climate Action
Volume	3
DOIs	https://doi.org/10.1038/s44168-024-00165-7
Publication status	Published - 2 Nov 2024

Keywords

passive cooling
home cooling
eco-cooler

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title = "Evaluating the effectiveness of the 'eco-cooler' for passive home cooling",

abstract = "Constructed with used plastic bottles, the eco-cooler has been widely adopted in resource-poor communities in Bangladesh and other countries. We tested the eco-cooler under controlled conditions using a scientific wind tunnel in a climatic chamber. In our tests, we used seven eco-cooler designs in 27 climate conditions typical of Bangladesh (temperatures of 40 °C, 35 °C, and 30 °C; humidity levels of 70%, 60%, and 40%; and wind speeds of 4.0 m s−1, 2.0 m s−1, and 0.2 m s−1) in 92 experiments (N = 7686 measurements in 87 short experiments and N = 23,428 measurements in five long experiments). We found no significant temperature reductions with eco-cooler use, except at low wind speeds, where temperature reduced by up to 0.2 °C. In theoretical calculations extending our empirical findings, the greatest temperature drop was 0.85 °C at 4.0 m s−1 with a 40 °C static air inflow temperature. However, this temperature drop did not extend beyond the nozzles of the bottles in the eco-cooler. The eco-cooler did not work effectively as an indoor air cooler.",

keywords = "passive cooling, home cooling, eco-cooler",

author = "Aditi Bunker and Kownacki, {Karin Lundgren} and Sudipa Sarker and Rahmatul Bari and Malabika Sarker and Buonocore, {Jonathan J.} and Pascal Geldsetzer and Johan Revstedt and Till B{\"a}rnighausen",

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AU - Bunker, Aditi

AU - Kownacki, Karin Lundgren

AU - Sarker, Sudipa

AU - Bari, Rahmatul

AU - Sarker, Malabika

AU - Buonocore, Jonathan J.

AU - Geldsetzer, Pascal

AU - Revstedt, Johan

AU - Bärnighausen, Till

PY - 2024/11/2

Y1 - 2024/11/2

N2 - Constructed with used plastic bottles, the eco-cooler has been widely adopted in resource-poor communities in Bangladesh and other countries. We tested the eco-cooler under controlled conditions using a scientific wind tunnel in a climatic chamber. In our tests, we used seven eco-cooler designs in 27 climate conditions typical of Bangladesh (temperatures of 40 °C, 35 °C, and 30 °C; humidity levels of 70%, 60%, and 40%; and wind speeds of 4.0 m s−1, 2.0 m s−1, and 0.2 m s−1) in 92 experiments (N = 7686 measurements in 87 short experiments and N = 23,428 measurements in five long experiments). We found no significant temperature reductions with eco-cooler use, except at low wind speeds, where temperature reduced by up to 0.2 °C. In theoretical calculations extending our empirical findings, the greatest temperature drop was 0.85 °C at 4.0 m s−1 with a 40 °C static air inflow temperature. However, this temperature drop did not extend beyond the nozzles of the bottles in the eco-cooler. The eco-cooler did not work effectively as an indoor air cooler.

AB - Constructed with used plastic bottles, the eco-cooler has been widely adopted in resource-poor communities in Bangladesh and other countries. We tested the eco-cooler under controlled conditions using a scientific wind tunnel in a climatic chamber. In our tests, we used seven eco-cooler designs in 27 climate conditions typical of Bangladesh (temperatures of 40 °C, 35 °C, and 30 °C; humidity levels of 70%, 60%, and 40%; and wind speeds of 4.0 m s−1, 2.0 m s−1, and 0.2 m s−1) in 92 experiments (N = 7686 measurements in 87 short experiments and N = 23,428 measurements in five long experiments). We found no significant temperature reductions with eco-cooler use, except at low wind speeds, where temperature reduced by up to 0.2 °C. In theoretical calculations extending our empirical findings, the greatest temperature drop was 0.85 °C at 4.0 m s−1 with a 40 °C static air inflow temperature. However, this temperature drop did not extend beyond the nozzles of the bottles in the eco-cooler. The eco-cooler did not work effectively as an indoor air cooler.

KW - passive cooling

KW - home cooling

KW - eco-cooler

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DO - 10.1038/s44168-024-00165-7

M3 - Article

VL - 3

JO - npj Climate Action

JF - npj Climate Action

M1 - 94

ER -

Evaluating the effectiveness of the 'eco-cooler' for passive home cooling

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Keywords

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