Water Institute - WI
Journal of Water Resources, Engineering, Management and Policy

JWEMPO

  • Home
  • Current Issue
  • Archives
  • About
    • About the Journal
    • Aims and Scope of Journal
    • Submissions
    • Editorial Team
    • Privacy Statement
    • Copyright
    • Indexed
    • Publication Guidelines
  • Information
    • For Authors
    • For Reviewers
    • For Readers
  • Articles
  • News
  • contact
  • Subscribe
  • Submit Article
  • Login/Register
  • Home
  • Current Issue
  • Archives
  • About
    • About the Journal
    • Aims and Scope of Journal
    • Submissions
    • Editorial Team
    • Privacy Statement
    • Copyright
    • Indexed
    • Publication Guidelines
  • Information
    • For Authors
    • For Reviewers
    • For Readers
  • Articles
  • News
  • contact
  • Subscribe
  • Submit Article
  • Login/Register

© 2026 Journal of Water Resources, Engineering, Management and Policy

Search Article
  • Home
  • Journal
Sustainability of Water and Sanitation Projects
  • Hassani Amiri, Tulinave Burton Mwamila, Clarance Paul Kisiki
  • 30 June 2026 97 31
  • Volume 3 Issue 1 Page 53 - 63
Evaluating Emissions Reduction by Replacing Diesel Generators with Solar-Powered Water Systems in Manyara, Tanzania
DOI: https://doi.org/10.56542/wi.jwempo.v3.i1.a4.2026
Download / view PDF

Keywords: Circular economy; Clean energy; Climate resilient WASH systems; Renewable energy; Sustainable development.

Abstract
This study evaluates the environmental, energy, and economic impacts of transitioning from diesel-powered generators to solar-powered water supply systems across 71 rural schemes in the Manyara region, Tanzania. Diesel generators, historically the primary energy source, have contributed significantly to greenhouse gas (GHG) emissions and operational inefficiencies. Using a mixed-methods approach and applying IPCC Tier 1 methodologies, the study quantified GHG emissions from historical diesel consumption and compared them with post-transition performance data from solar systems. Findings reveal that the shift to solar energy eliminated 734,832.81 kg of CO? emissions annually, with an 80.3% reduction (590,563.38 kg CO?) when factoring in residual generator use. Solar systems improved operational efficiency, increasing daily pumping hours from 5–7 under diesel to 10–11 hours, resulting in enhanced water output and elimination of ongoing fuel costs. Economically, although solar installations required higher initial capital investment, the systems demonstrated long-term cost savings through reduced fuel and maintenance expenses. Remaining challenges include a 14% dependence on diesel for backup, technical capacity gaps, and limited monitoring data. Overall, the study reinforces the sustainability of solar-powered water schemes and offers empirical support for scaling renewable energy adoption in line with Tanzania’s climate targets and SDGs 6 and 7.

Vol. 3 No. 1 (2026)

Article Categories

  • Water resources 16
  • Management in Water sector 7
  • Engineering issues in Water sector 3
  • Irrigation 2
  • Sanitation and Hygiene 3
  • Research and Innovations 1
  • Technical and managerial issues in Water sector 3
  • Institutional development in Water sector 0
  • Financing and economic analysis of water facilities and infrastructure 2
  • National, Regional and International policies in Water sector 1
  • Sustainability of Water and Sanitation Projects 4
  • ICT in Water Management 0

Indexed

JWEMPO is indexed by

Follow Us

Useful Links

Ministry of Water Water Institute Webmail International Maji Scientific Conference

Visitor Counter

166,821
  • Today: 228
  • Yesterday: 571
  • This Month: 10,019
  • This Year: 61,512

Copyright

For the manuscripts recommended for publication, the author(s) will be expected to sign the JWEMPO copyright assignment form. Where necessary the author(s) will need to obtain permission to publish material protected by [...] Read more

© 2026 JWEMPO. All Rights Reserved. Maintained by Water Institute - WI