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Implications of large hydro dams for decarbonising Ghana's energy consistent with Paris climate objectives

Jaise Kuriakose, Kevin Anderson, Deborah Darko, Emmanuel Obuobie, Alice Bows‐Larkin, Salifu Addo

2022Energy Sustainable Development/Energy for sustainable development28 citationsDOIOpen Access PDF

Abstract

Hydropower is a renewable source of electricity generation that is a common feature of Nationally Determined Contributions (NDC), especially in developing countries. However, far from benign, research shows that significant greenhouse gas (GHG) emissions emanate from shallow reservoirs when they are sited in the tropics. Ghana provides a case study for exploring the implications of hydro reservoir emissions within a future energy system consistent with the Paris climate objectives. Being a fast-developing country, Ghana needs to generate significant amounts of low-carbon electricity to meet growing demand over the coming 30 years. Analysis of existing Ghanaian dams (Akosombo, Kpong and Bui) and the forthcoming Pwalugu dam suggests that their average emissions intensities (gCO2/kWh) are similar to those of coal-fired power stations during the first 30 years of their operating lifetime. The case study demonstrates that cumulative (post-2020) carbon dioxide emissions from the planned and identified hydro resources will consume 40 % of Ghana's Paris-compliant carbon budget, yet provide just under 1 % of its future energy demand (under Paris-compliant scenarios). The analysis suggests that new hydropower in the tropics can significantly reduce the emission space available for other sectors such as transport and industry when faced with a highly restricted emissions budget. In conclusion, for Ghana specifically, rather than constructing more dams, energy efficiency and diversifying renewable energy supply options, including floating solar power, would deliver an energy transition for Ghana that is much more closely aligned with the Paris goals.

Topics & Concepts

HydropowerGreenhouse gasRenewable energyElectricityEnvironmental scienceClimate changeElectricity generationNatural resource economicsBio-energy with carbon capture and storageEnvironmental protectionClimate change mitigationEngineeringPower (physics)EconomicsEcologyQuantum mechanicsElectrical engineeringPhysicsBiologyWater-Energy-Food Nexus StudiesEnergy and Environment ImpactsWater resources management and optimization
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