Affiliation:
1. Department Electrical and Electronic Engineering, Stellenbosch University, Private Bag X1, Stellenbosch 7600, South Africa
Abstract
Abstract
Poor resource management and infrastructure limitations make the effects of drought worse for cities in developing countries. One way to alleviate the impact without large investments is targeted demand management. This has worked well in studies that focused on some of the recent droughts, including Cape Town's ‘Day Zero’ drought of 2016–2018. Many studies have measured demand response to a drought at a coarse time resolution, but few have measured it at an hourly resolution or compared weekday with weekend use. In this study we evaluated households' hourly time-of-use behaviour in response to the Cape Town drought at two prominent inflection points identified by previous studies: the announcement of the Critical Water Shortages Disaster Plan in October 2017 and the introduction of Level 6B restrictions in February 2018. The first major reduction was caused by residents reducing their usage by about a third in the early morning and evening hours on weekdays, and the second, even larger, reduction was achieved in the mid-morning hours on weekdays when home owners were not at home but ensured that domestic workers used water sparingly.
Subject
Water Science and Technology,Environmental Engineering
Reference29 articles.
1. Global warming and changes in risk of concurrent climate extremes: Insights from the 2014 California drought
2. Estimating scenarios for domestic water demand under drought conditions in England and Wales;Anderson;Water Science and Technology: Water Supply,2018
3. SEQ residential end use study;Beal;Water (Australia),2011
4. MIND OR MACHINE? Examining the drivers of residential water end-use efficiency;Beal;Water (Australia),2013
5. Temporal case study of household behavioural response to Cape Town's “Day Zero” using smart meter data