TY - JOUR
T1 - Experimental Investigations of a Solar Water Treatment System for Remote Desert Areas of Pakistan
AU - Jamil, Muhammad Ahmad
AU - Yaqoob, Haseeb
AU - Farooq, Muhammad Umar
AU - Teoh, Yew Heng
AU - Xu, Ben Bin
AU - Mahkamov, Khamid
AU - Sultan, Muhammad
AU - Ng, Kim Choon
AU - Shahzad, Muhammad Wakil
PY - 2021/4/13
Y1 - 2021/4/13
N2 - Pakistan is among the countries that have already crossed the water scarcity line, and the situation is worsened due to the recent pandemic. This is because the major budget of the country is shifted to primary healthcare activities from other development projects that included water treatment and transportation infrastructure. Consequently, water-borne diseases have increased drastically in the past few months. Therefore, there is a dire need to address this issue on a priority basis to ameliorate the worsening situation. One possible solution is to shift the focus/load from mega-projects that require a plethora of resources, money, and time to small domestic-scale systems for water treatment. For this purpose, domestic-scale solar stills are designed, fabricated, and tested in one of the harshest climatic condition areas of Pakistan, Rahim Yar Khan. A comprehensive overview of the regional climatology, including wind speed, solar potential, and ambient temperature is presented for the whole year. The analysis shows that the proposed system can adequately resolve the drinking water problems of deprived areas of Pakistan. The average water productivity of 1.5 L/d/m2 is achieved with a total investment of PKR 3000 (<$20). This real site testing data will serve as a guideline for similar system design in other arid areas globally.
AB - Pakistan is among the countries that have already crossed the water scarcity line, and the situation is worsened due to the recent pandemic. This is because the major budget of the country is shifted to primary healthcare activities from other development projects that included water treatment and transportation infrastructure. Consequently, water-borne diseases have increased drastically in the past few months. Therefore, there is a dire need to address this issue on a priority basis to ameliorate the worsening situation. One possible solution is to shift the focus/load from mega-projects that require a plethora of resources, money, and time to small domestic-scale systems for water treatment. For this purpose, domestic-scale solar stills are designed, fabricated, and tested in one of the harshest climatic condition areas of Pakistan, Rahim Yar Khan. A comprehensive overview of the regional climatology, including wind speed, solar potential, and ambient temperature is presented for the whole year. The analysis shows that the proposed system can adequately resolve the drinking water problems of deprived areas of Pakistan. The average water productivity of 1.5 L/d/m2 is achieved with a total investment of PKR 3000 (<$20). This real site testing data will serve as a guideline for similar system design in other arid areas globally.
KW - arid areas
KW - Pakistan
KW - passive desalination system
KW - water scenario
KW - solar still
U2 - 10.3390/w13081070
DO - 10.3390/w13081070
M3 - Article
SN - 2073-4441
VL - 13
JO - Water
JF - Water
IS - 8
M1 - 1070
ER -