Simulering och känslighetsanalys av ett pumpkraft-dagvattendammsystem : En utvärdering av potential för småskalig energilagring av solelsöverskott eller arbitrage / Simulation and sensitivity analysis of a PHES-stormwater pond system : An evaluation of potential as small-scale energy storage used for solar energy or arbitrage

Abrams, Philip

January 2020

The global move to more sustainable and renewable energy sources causes increased fluctuations in theelectric market. That fact combined with the Swedish regulations on micro producers make high levels ofself-use critical and have increased the interest in energy storage of energy from intermittent sources.Cooperation with Eksta AB have provided the opportunity to evaluate an innovative energy storage conceptfor a future exploitation area of around 17,2 hectares planned residential and urban area. This bachelorthesis studies the potential of using stormwater management ponds for small-scale energy storage in theform of pumped hydro energy storage (PHES). The focus is on storage of surplus energy from a solarenergy system designed for micro production and local energy supply. However, it also evaluates thepotential of using the equivalent dimensions for energy storage which storage level only change whenbuying or selling electricity at market prices for arbitrage purposes.Potential in the form of financial benefit and increased self-use of solar energy are studied through aquantitative methodology that, in the case of storing surplus energy from a solar system, use a simulationmodel developed for this thesis that takes Eksta´s contractual electric specifications into account. Toevaluate the case of energy storage for arbitrage a simulation model is used in the form of an algorithmbaseddrive strategy named “Optimal”, which has been recreated from research in the field of energy storageand drive strategies. The level of innovation is high on account of including such as energy additions to thestorage from rain water management, energy losses from dispersion of stored stormwater to surroundingground layers, it´s novel focus on a stormwater pond for energy storage, the rarely studied combination ofPHES and small scale solar systems and finally that the dimensions of the pump and turbine that is neededin PHES is based on PaT (pump as turbine) technology, allowing the reverse drive of a centrifugal pumpto operate as a turbine.Sensitivity analysis is included to increase the understanding of PHES-stormwater systems in the case of Eksta and as a concept for energy storage. The work also includes a brief examination of relevant regulationsin order to supply a wider perspective.The result shows that the implementation of a PHES-stormwater system during the years 2018 and 2019increased the self-use of generated solar energy by 28,59 % and provide the joint financial benefit of 5989SEK. The simulation model of energy storage for arbitrage during the years 2018 and 2019 resulted in thecombined financial benefit of 699 SEK when “Optimal” operation strategy is used and 678 SEK with apractically applicable operation strategy.The main conclusion is that PHES-stormwater systems as an energy storage for small-scale solar surplushas high potential to increase the self-use of solar energy but relatively low potential to increase the financialbenefits of small-scale solar systems. From the sensitivity analysis it can be concluded that the simulatedPHES-stormwater system is sensitive to small and medium ranged changes in storage capacity, efficiency,rate of dispersion, set electrical buying price and selectivity of which hours to empty the storage. This whilebeing generally insensitive to small and medium ranged variations in installed peak effect of the solar system,filling/emptying time and the relative size of the turbine compared to the pump.The conclusion from the simulation of arbitrage application is that the potential for financial benefit inthese circumstances is extremely low. The sensitivity analysis lead to the conclusion that the system issensitive to small and medium ranged variations in storage capacity, efficiency, filling/emptying time andmarginal operation costs.Besides the limited financial benefit, other potential hindrances may be the legality of connecting the systemelectrically, lack of financial benefits given to larger but still small-scale solar systems and the eventuality ofdisrupting the main function of the stormwater pond, which is purifying stormwater.

PHES

stormwater

stormwater pond

energy storage

renewable energy

PHES-stormwater pond

Pumpkraft

dagvattendamm

energi

energilager

PaT

solenergilager

pumpkraft-dagvattendamm

Engineering and Technology

Teknik och teknologier

Water Engineering

Vattenteknik

Market Requirements for Pumped Storage Profitability : Expected Costs and Modelled Price Arbitrage Revenues, Including a Case Study of Juktan

Salevid, Karin

January 2013

The rapid integration of intermittent renewable energy sources (IRES) has caused a growing demand for power system flexibility on energy markets all over Europe. Being the only commercially proven large scale energy storage technology, pumped storage hydro power (PSHP) has by several studies been suggested as an efficient solution to miti­gate the impact of IRES. However, despite the perceived technical demand profit­ability remains as a major obstacle for PSHP development. In this study, a market requirement for PSHP profitability, defined in terms of price volatility, is pre­sented. Considering capital and operational expenditures as well as modelled potential price arbitrage revenues for a greenfield PSHP plant, it may be used as a tool for initial assessments of PSHP profitability in relation to market outlooks or modelled future prices. The results have further been used in a case study, where the price volatility required to motivate a restora­tion of the now decommissioned Swedish PSHP plant Juktan has been determined. The results show that the high capital expenditures characterising PSHP development do comprise in a high risk for developers; while feasibility depends on the sustainment of a highly volatile price climate during several decades, energy markets are often extremely uncertain.

energy storage

pumped storage hydro power

price arbitrage

intermittent integration

price volatility

market requirements

Energilager

pumpkraft

prisarbitrage

integrering av intermittent generering

marknadsförutsättningar

prisvolatilitet

lönsamhet

Pumped-Storage Hydroelectricity for a Sustainable Electricity Transition / Pumpkraft för en hållbar elektricitetsomställning

Elmfeldt, Teodor

January 2023

This master thesis explores the application of Pumped-Storage Hydroelectricity (PSH) within an electricity market characterised by a substantial share of renewable and intermittent electricity production. The purpose of PSH is to enhance the alignment of supply with demand by storing energy at electricity surplus and releasing it during shortage. The Juktan Power Station, once the largest pumped hydro storage facility in Sweden with a storage capacity of about 25 GWh and maximum generation of 335 MW, serves as a case study. An in-depth analysis of the properties of the Swedish electricity market and its influencing factors is conducted. Wind speed data is successfully used to increase accuracy of price prediction. Furthermore, a model is developed to calculate potential profitability employing various operation methods. In conclusion, large-scale PSH provide significant benefit to the stability of the electricity system with a clear increase in value after 2020. However, concerns about grid tariff design, electricity market development and energy storage incentives means that investments are not obviously profitable. / Detta examensarbete utforskar tillämpningen av pumpkraftverk på en modern elmarknad med betydande andel förnyelsebar och intermittent electricitetsproduktion. Syftet med pumpkraft är att förbättra anpassningen av tillgång och efterfrågan genom att lagra energi vid elöverskott och frigöra den vid underskott. Juktan Kraftstation, tidigare Sveriges största pumpkraftverk med en lagringskapacitet på ca 25 GWh och maximal generatoreffekt på 335 MW, används som fallstudie. En analys av den svenska elmarknaden och dess påverkande faktorer genomförs. Vindhastighetsdata används framgångsrikt för att förbättra träffsäkerheten för elprisförutsägelser. Vidare utvecklas en modell för att beräkna potentiell lönsamhet med olika driftmetoder. Sammanfattningsvis visas att storskalig pumpkraft ger betydande fördelar för elsystemet med tydlig förstärkning efter 2020. Däremot identifieras potentiella problem såsom elnätsavgiften, svårigheten att långsiktigt förutspå elmarknadens utveckling samt incitament för energilagring, vilka sammantaget gör att pumpkraftinvesteringar inte är självklart lönsamma.

Pumped-storage hydroelectricity

Electric grid

Computational Mathematics

Juktan Power Station

Applied mathematics

Power system

Sustainability

Pumpkraft

Elnät

Beräkningsmatematik

Juktan Kraftverk

Tillämpad mate- matik

Elkraftteknik

Hållbarhet

Computational Mathematics

Beräkningsmatematik