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The Role of Energy Storage in Renewable Power Integration. Emily Fertig Sharon Wagner Carnegie Mellon University. Energy storage can facilitate renewable energy integration. Source: http://www.celgard.com/. Source: http://technorati.com/. Source: http://www.environment-green.com.
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The Role of Energy Storage in Renewable Power Integration Emily Fertig Sharon Wagner Carnegie Mellon University
Energy storage can facilitate renewable energy integration Source: http://www.celgard.com/ Source: http://technorati.com/ Source: http://www.environment-green.com
Key energy storage research areas include: • Technology-specific issues • Mechanical storage • Electrical storage • Thermal storage • Valuation of energy storage
Mechanical storage options include: • Compressed air energy storage (CAES) • Pumped hydroelectric storage • Flywheels
CAES can enable wind to supply quick, reliable energy Source: http://www.shpegs.org/cawegs.html
CAES has been operating for over 20 years: • Huntorf, Germany: 290 MW (1978) • McIntosh, Alabama: 110 MW (1991) • Iowa Stored Energy Park: 2700 MW (2011)
CAES has many benefits for renewables • Large storage: smoothes daily variability • Ramps quickly: smoothes hourly variability • More cost-effective that batteries at GWh scale • Many locations with suitable geology in U.S. Key research area: The economic effect of integrating CAES in different electricity markets and varying levels of renewable energy penetration
Pumped hydro is limited by location Key research area: Run-of-river hydro storage (all aspects) Source: http://www.tva.gov/power/pumpstorart.htm
Flywheels can help with grid angular stability and voltage support • Produce 100-2000 kW for 5-50 seconds • Best for high-power, low energy applications • Key research areas: • Materials development • Cost reduction • Improved manufacture techniques Source: http://www.powergenworldwide.com/
Key energy storage research areas include: • Technology-specific issues • Mechanical storage • Electrical storage • Thermal storage • Valuation of energy storage
Batteries are wonderful for renewables, but expensive • Store and release power across a broad range of time scales • Smooth rapid fluctuations • Mitigate daily variability • Key research areas: • Large-scale demonstration projects • Cost reduction Source: http://www.greencarreports.com/blog/
Plug-in hybrid electric vehicles could act as distributed grid storage • Daily load leveling • Frequency regulation • Reserve • Large-scale use: reduce battery costs through competition and mass production • Key research areas: • Quantify the public and private benefit of using PHEV’s for arbitrage • Identify policy incentives necessary to align consumer behavior with maximum social welfare Source: http://keetsa.com/
Key energy storage research areas include: • Technology-specific issues • Mechanical storage • Electrical storage • Thermal storage • Valuation of energy storage
Thermal storage can be hot or cold Source: http://www.tehrantimes.com/index_View.asp?code=201948 Source: http://www.kelcroft.com.hk/news/ice_storage20041030.htm
Demand-side “hot” storage is usually used with solar collectors • Store heat energy in hot water for later use • Reduce electricity demand for hot water • Key research areas: • Quantify potential decrease in electricity demand from wide-spread use • Determine optimum system size for max economic returns • ID policy initiatives to encourage more deployment Source: http://www.conservationhalton.on.ca/uploads/solar%20water%20heating.gif
A “cold” storage system generates ice to chill water for air conditioning Shift electricity demand for air conditioning from day to night • Key research areas: • Quantify potential shift in electricity demand from wide-spread use • Determine optimum system size for max economic returns • ID policy initiatives to encourage more deployment Source: http://www.solarthermalmagazine.com/2010/04/12/storing-thermal-energy-a-cool-new-way/
On the supply-side, storage is usually coupled with CSP Source: http://www.volker-quaschning.de/articles/fundamentals2/index.php
CSP-TES has been operating commercially for 2 years • Key research areas: • Reduce costs • Quantify long-term effect of TES in CSP O&M costs • Evaluate the profitability of different configurations • Evaluate the effect of different policy initiatives on decision to use TES with CSP • Compare economic & environmental implications of TES for different CSP technologies • Smoothes hourly variation from clouds • Extends plant operation into nighttime peak demand hours Andasol 1 in Spain: 50 MW (2008) Source: http://www.scientificamerican.com/article.cfm?id=how-to-use-solar-energy-at-night
Key energy storage research areas include: • Technology-specific issues • Mechanical storage • Electrical storage • Thermal storage • Valuation of energy storage
An accurate valuation of energy storage should consider: • Air quality and economic benefits of offset generation capacity • Firming of renewable power to help fulfill RPS requirements • Avoided construction of new transmission capacity and transmission congestion relief from renewables • Relief of ramping requirements for base-load generators • Overall reduction in cost of ancillary services • Deferral of substation upgrades
Overall, we recommend that the Renewelec Project should: • Quantify storage potential, costs and benefits for different energy storage technologies • Identify how grid and power plant operators need to adapt to support storage • Examine market and regulatory strategies needed to support storage implementation
Emily Fertig: efertig@andrew.cmu.edu Sharon Wagner: sjwagner@andrew.cmu.edu