Abstract:
Background: The city of Addis Ababa is under rapid development and there are enormous construction activities along with rapid urbanization, and industrialization. These anthropogenic actions combined with population
growth rate are affecting the water demand of the city. The overall purpose of this study is to model water supply and
demand of the city and to identify potential water management strategies that supports the sustainable development goal number six (SDG6)—clean water and sanitation.
Methods: We employed the Water Evaluation and Planning system (WEAP) modelling framework to analyze different scenarios for water demand and supply. The scenarios include population growth, living standard, as well as other
supply and demand strategies.
Results: For the modelling period, the reference scenario shows unmet water demand increases by around 48%,
from 208 to 307 million cubic meter in 2015 and 2030 respectively. High population growth rate and high living
standard scenarios have a great negative impact on the water supply system.
Conclusions: Satisfying the future water demand of Addis Ababa will depend on the measures which are taken
today. The integrated water management practices such as reuse of water and the selected future scenarios are proposed to decrease and manage the unmet water demand of the city. Hence, future predicted scenarios which is the
combination of the external factors (i.e. population growth rate and living standard) and water management strategies were considered. From the analyzed scenarios, optimistic future strategies will support the management of the
existing water supply and demand system of the city. Similarly, in the integrated management strategies scenario, it
was assumed that measures were taken at both the demand and supply side to improve the efficiency of water in the
entire chain. Thus, if the water sector professionals and other concerned bodies consider the selected scenarios, it will
go a long way to solve the water shortage problem in the city, and this will also help to promote sustainable water
management.