Opportunity of Hydrogen Production in Renewable Power Plants : Case of Island of Mauritius

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Solar Power in the Island Nation, Mauritius

The challenges to integrating a greater share of renewable energy, more specifically solar energy into the power grid in tropical islands are that these islands have a complex microclimate, high humidity and high cloud coverage. Because of this, the power output from solar photovoltaic (SPV) plants is severely affected. In this manuscript, the results of a study carried out on the performance of a 15.2 MW solar photovoltaic (SPV) plant in the island nation Mauritius is presented. The net annual yield was 22 162 MWh and has avoided 22 162 metric t of CO2 emission into the atmosphere. An attempt is also made to develop a model to forecast the power that can be generated from the SPV plants at that location. The grid operator, the national Central Electricity Board (CEB) needs to know a priori, the energy mix for the subsequent few days so that the level of operation of fossil fuel fired thermal plants can be tuned accordingly to minimize the environment pollution of this pristine island

Solar Power in the Island Nation, Mauritius

The challenges to integrating a greater share of renewable energy, more specifically solar energy into the power grid in tropical islands are that these islands have a complex microclimate, high humidity and high cloud coverage. Because of this, the power output from solar photovoltaic (SPV) plants is severely affected. In this manuscript, the results of a study carried out on the performance of a 15.2 MW solar photovoltaic (SPV) plant in the island nation Mauritius is presented. The net annual yield was 22 162 MWh and has avoided 22 162 metric t of CO2 emission into the atmosphere. An attempt is also made to develop a model to forecast the power that can be generated from the SPV plants at that location. The grid operator, the national Central Electricity Board (CEB) needs to know a priori, the energy mix for the subsequent few days so that the level of operation of fossil fuel fired thermal plants can be tuned accordingly to minimize the environment pollution of this pristine island.</jats:p

Predicting the performance of a photovoltaic system in the island nation, Mauritius

Existence of microclimatic conditions in tropical island poses a challenge to integrate a greater share of renewable energy, more specifically solar energy into the power grid. Because of the high humidity and sudden cloud coverage, the power output from solar photovoltaic (SPV) plants is severely affected. In this manuscript, the performance results of a study carried out on a 15.2 MW solar photovoltaic (SPV) plant in the island nation Mauritius are analyzed. The net annual yield was 22,162 MWh. This plant has prevented 22,162 metric tonnes of CO2 being released into the atmosphere. A model is deduced to forecast the yield from the SPV plants at that location. The grid operator, the National Central Electricity Board, needs to know a priori, the energy mix for the subsequent few days so that the level of operation of fossil fuel-fired thermal plants can be tuned accordingly to minimize the environment pollution of this pristine island