Comprehensive Strategy to Eliminate Load-Shedding in Zambia by 2027
Quantitative Analysis and Implementation Framework
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Scientific Study from the year 2025 in the subject African Studies, grade: 9.5, , course: Electrical, language: English, abstract: Zambia faces a severe electricity crisis characterized by prolonged load-shedding that has reached up to 20 hours daily in some areas, severely impacting economic activities and quality of life. This research presents a comprehensive analysis of Zambia's energy landscape and proposes a concrete strategy to eliminate load-shedding by 2027. The solution combines immediate emergency measures with medium-term investments in renewable energy diversification, grid modern...
Scientific Study from the year 2025 in the subject African Studies, grade: 9.5, , course: Electrical, language: English, abstract: Zambia faces a severe electricity crisis characterized by prolonged load-shedding that has reached up to 20 hours daily in some areas, severely impacting economic activities and quality of life. This research presents a comprehensive analysis of Zambia's energy landscape and proposes a concrete strategy to eliminate load-shedding by 2027. The solution combines immediate emergency measures with medium-term investments in renewable energy diversification, grid modernization, and policy reforms. Quantitative analysis indicates that Zambia needs to add approximately 1,200- 1,500 MW of new generation capacity while implementing demand-side management strategies to reduce the current 1,300 MW deficit. The total investment required is estimated at $2-2.5 billion over three years, with specific phased implementation targets provided in this report. With coordinated execution of the proposed framework, Zambia can not only eliminate load-shedding but also build a resilient energy system that supports sustainable economic growth and achieves universal electricity access by 2030.
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