Abstract
Underground pumped storage hydropower (UPSH) plants may be an alternative to store subsurface energy with lower environmental impacts than conventional pumped storage hydropower (PSH) plants. Network of tunnels in closed mines (i.e. coal mines) could be used as water lower reservoir of UPSH plants. The amount of storable energy depends on the water mass and the net head between upper and lower reservoirs. Depending on the direction of the water flow rate, pumping or turbine modes may be used to produce or consume electrical energy. Filling and emptying processes during the operation stage in the underground reservoir are complicated due to the presence of two fluids (water and air) interacting inside the network of tunnels. This paper explores the underground reservoir during the operation stage considering a water flow rate of 55 m3s-1. Two-phase three dimensional CFD numerical models using Ansys Fluent have been developed in order to know the behaviour of the air flow on tunnels and ventilation shaft. Static pressure and air velocity have been analyzed in the simulations at the exit of the ventilation shaft as well as the junction zone between the ventilation shaft and the tunnels network. The results obtained show that a static pressure up to 8,600 Pa and air velocities up to 80 m s-1 could be reached in turbine mode considering a vent shaft with 1 m in diameter. The static pressure increases up to 258,000 Pa if a ventilation shaft of 0.5 m in diameter is considered.
Highlights
In 2017, the share of energy from renewable sources in gross final consumption of energy, in the European Union (EU), reached 17.5%, up from 17.0% in 2016 and more than double the share in 2004 (8.5%), the first year for which the data are available [1]
This paper explores the lower reservoir of Underground pumped storage hydropower (UPSH) plants during the operation phase
Static pressure and air velocities were tracked at the exit of the ventilation shaft
Summary
In 2017, the share of energy from renewable sources in gross final consumption of energy, in the European Union (EU), reached 17.5%, up from 17.0% in 2016 and more than double the share in 2004 (8.5%), the first year for which the data are available [1]. The EU's target is to obtain 20% of energy in gross final consumption of energy from renewable sources by 2020 and at least 32% by 2030 [2]. Pumped-storage hydropower technology (PSH) is the most mature and efficient technology that currently exists. Other systems, such as Compressed Air Energy Storage (CAES) or Suspended Weight Gravity Energy Storage (SWGES) plants, have been analyzed as an alternative. UPSH plants could use disused underground space as underground water reservoirs [3,4,5,6,7,8,9,10,11]
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