Aditi Bunker, Karin Lundgren Kownacki, Sudipa Sarker, Rahmatul Bari, Malabika Sarker, Jonathan J. Buonocore, Pascal Geldsetzer, Johan Revstedt, Till Bärnighausen
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引用次数: 0
摘要
生态冷却器由废旧塑料瓶制成,已被孟加拉国和其他国家资源匮乏的社区广泛采用。我们利用气候室中的科学风洞,在受控条件下对生态冷却器进行了测试。在测试中,我们在孟加拉国的 27 种典型气候条件下(温度分别为 40 °C、35 °C 和 30 °C;湿度分别为 70%、60% 和 40%;风速分别为 4.0 m s-1、2.0 m s-1 和 0.2 m s-1)使用了七种生态冷却器设计,共进行了 92 次实验(87 次短实验中的测量次数为 7686 次,5 次长实验中的测量次数为 23428 次)。我们发现,使用生态冷却器并不会明显降低温度,只有在低风速条件下,温度会降低 0.2 °C。在理论计算中,根据我们的经验发现,在静态空气流入温度为 40 °C、风速为 4.0 m s-1 时,温度下降幅度最大,为 0.85 °C。然而,这一温度下降并没有超出生态冷却器中瓶子的喷嘴。生态冷却器不能有效地作为室内空气冷却器使用。
Evaluating the effectiveness of the ‘eco-cooler’ for passive home cooling
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.
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