Abstract
Despite numerous studies on residential rainwater tank, studies on commercial rainwater tank are scarce. Corporate authorities pay little heed on this sustainable feature. With the aim of encouraging corporate authorities, this study presents the feasibility and economic benefits of rainwater harvesting (RWH) in commercial buildings in the capital city of Bangladesh, where water authority struggles to maintain town water supply. The analysis was conducted using a daily water balance model under three climate scenarios (wet, dry and normal year) for five commercial buildings having catchment areas varying from 315 to 776 m2 and the storage tank capacity varying from 100 to 600 m3. It was found that for a water demand of 30 L per capita per day (lpcd), about 11% to 19% and 16% to 26.80% of the annual water demand can be supplemented by rainwater harvesting under the normal year and wet year climate conditions, respectively. The payback periods are found to be very short, only 2.25 to 3.75 years and benefit–cost (B/C) ratios are more than 1.0, even for building having the smallest catchment area (i.e., 315 m2) and no significant overflow would occur during monsoon, which leads to both economic and environmental benefits. Though the findings cannot be translated to other cities as those are dependent on factors like water price, interest rate, rainfall amount and pattern, however other cities having significant rainfall amounts should conduct similar studies to expedite implementations of widescale rainwater harvesting.
Highlights
In Dhaka, the capital city of Bangladesh, Dhaka Water Supply and Sewerage Authority (DWASA) is responsible for supplying potable water to the city dwellers
The analysis was conducted for three climate scenarios with data collected for five commercial buildings having catchment areas varying from 315 to 776 m2 and a storage tank capacity varying from 100 to 600 m3
Several studies focused on residential rainwater harvesting (RWH); this is the first study on RWH for the commercial buildings in the country (i.e., Bangladesh)
Summary
In Dhaka, the capital city of Bangladesh, Dhaka Water Supply and Sewerage Authority (DWASA) is responsible for supplying potable water to the city dwellers. To reduce the dependency on groundwater in recent years, DWASA has undertaken several initiatives including rainwater harvesting, recycling of greywater, and others [1]. Rooftop rainwater harvesting in residential areas has received notable consideration as an alternative water supply source, and numerous research studies have been conducted all over the world [3,4,5,6,7,8,9,10,11,12,13,14,15,16]. Two prime focuses of rainwater harvesting analysis are reliability and water saving potential [10]. All the above-mentioned studies reported decent achievements of reliability and water saving potential of rainwater harvesting (RWH) in urban areas
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