Repurposing of a Closed Surface Coal Mine with Respect to Pit Lake Development

In the coal phase-out era, achieving sustainable mine closure is significant and prioritizes targets for the mining industry. In this study, the already closed lignite mine of Kardia, North Greece, is investigated, where the mine void left is naturally filled with water. The viability of different r...

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Veröffentlicht in:	Water (Basel) 2022-11, Vol.14 (21), p.3558
Hauptverfasser:	Louloudis, Georgios, Roumpos, Christos, Louloudis, Emmanouil, Mertiri, Eleni, Kasfikis, Georgios
Format:	Artikel
Sprache:	eng
Schlagworte:	Alternative energy sources Aquaculture Aquaculture industry Clean technology Coal Coal industry Coal mines Coal mining Coal-fired power plants Dependent variables Electricity Electricity distribution Energy industry Energy resources Energy sources Energy storage Horticulture Lakes Land use Lignite Mines Mines and mineral resources Mining Mining industry Neural networks Photovoltaics Rain and rainfall Rainfall Rehabilitation Renewable energy sources Renewable resources Strip mining Technology Temperature dependence Tourism Water levels Water quality Wildlife
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creator	Louloudis, Georgios Roumpos, Christos Louloudis, Emmanouil Mertiri, Eleni Kasfikis, Georgios
description	In the coal phase-out era, achieving sustainable mine closure is significant and prioritizes targets for the mining industry. In this study, the already closed lignite mine of Kardia, North Greece, is investigated, where the mine void left is naturally filled with water. The viability of different repurposing land uses is evaluated, and the natural water level development inside the mine pit is investigated concerning its future uses. The potential for solar photovoltaic (PV) panels developed on mining land and its surrounding area is evaluated in combination with the application of pumped hydro storage (PHS) technology, utilizing pit lake water. Except for electricity system planning, other end-uses that offer multiple, mutually reinforcing and lasting benefits are investigated, such as recreation parks, terrestrial wildlife, aquaculture and agriculture. All repurposing scenarios are evaluated with regard to the spatiotemporal evolution of the lake, by generating forecasts of the dependent variables (rainfall and temperature) via linear (autoregressive integrated moving average) and non-linear (artificial neural network) models. The prediction of pit lake natural development redefines the new land use layout and the land repurposing decisions. This is essential for strategic planning, considering the Greek lignite mining industry’s priority regarding transitioning from the current coal-based electricity to renewable energy sources (RES) technology.
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subjects	Alternative energy sources Aquaculture Aquaculture industry Clean technology Coal Coal industry Coal mines Coal mining Coal-fired power plants Dependent variables Electricity Electricity distribution Energy industry Energy resources Energy sources Energy storage Horticulture Lakes Land use Lignite Mines Mines and mineral resources Mining Mining industry Neural networks Photovoltaics Rain and rainfall Rainfall Rehabilitation Renewable energy sources Renewable resources Strip mining Technology Temperature dependence Tourism Water levels Water quality Wildlife
title	Repurposing of a Closed Surface Coal Mine with Respect to Pit Lake Development
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