Difference between revisions of "Flexibility (Power System)"
***** (***** | *****) m |
***** (***** | *****) |
||
Line 41: | Line 41: | ||
<br/> | <br/> | ||
+ | |||
= Flexibility: Demand Side = | = Flexibility: Demand Side = | ||
+ | |||
+ | Flexibility on the demand side is typically known as demand response. Like conventional power plants, industrial owners can retrofit their factories or redesign their control system under the new mindset to meet the growing demand of residual load flexibility. | ||
+ | |||
+ | An example of this occurred during a <span style="font-size: 13.6px;">solar eclipse event in Germany in 2015. Aluminium factories were asked to lower power demand during the few minutes, and the grid went through the event with no major incident.</span> | ||
+ | |||
= Ways to Improve Flexibility<br/> = | = Ways to Improve Flexibility<br/> = |
Revision as of 20:35, 24 January 2018
Flexibility: Concept Definition
According to the International Energy Agency, the flexibility of a power system refers to "the extent to which a power system can modify electricity production or consumption in response to variability, expected or otherwise"[1]. Another source described it as "the modification of generation injection and/or consumption patterns in reaction to an external signal (price signal or activation) in order to provide a service within the energy system" [2].
Flexibility can therefore refer to the capability to change power supply/demand of the system as a whole or a particular unit (eg. a power plant or a factory).
Flexibility: Why It Matters
Load balancing is not the only service a power system must perform flexibilty. There are many other services the operators of a power system must consider to make the grid stable. The three main services for the reliability of a power system are: load balancing, frequency response, and voltage response.
Renewable sources, together with some battery storage, can already perform some of these services better than a conventional power system[3]. For example, renewable sources can supply reactive power (and therefore voltage response) even when they are not giving real power, and batteries can perform frequency response better than conventional sources[4]. Currently a renewable power source integrated with a battery storage system is already cost competitive to some conventional sources[5], and such implementation will boost the reliability of the grid.
However, current capacity of dispatchable renewables or batteriers is not enough to cover variations of the residual load curve. So the residaul load flexibility of a power system must still be performed mainly by conventional dispatchable sources, with the aid of some demand response.
For example, below is a simulated power output profile of the power system in Taiwan by summer 2025[6][7]. Since most renewable capacity by then will be solar, there exists an obvious "duck curve"[8] in this profile. The total dispatchable renewable capacity (hydro, pumped storage, bioenergy and geothermal) is about 5.5GW, but variations of the residual load can ramp up to 18GW in six hours, so in this specific redispatchment scenario fossil gas power plants perform most of the residual load flexibility.
Flexibility: Supply Side
Conventional Flexible Power Plants
Battery Storage
Interconnection
Better interconnections between grids can also ease some of the flexibility demand to neighboring grids. The more flexible dispatchable power plants are well connected in the system, the less ramping any single power plant will need to perform. Interconnections can also bringdown the wholesale electricity prices of the neighboring grid because electricity production with higher marginal costs can be reduced.
However, conventional electricity sources may choose to export electricity rather than ramping down shutting down more often when interconnection is better. This causes a difficulty to reduce conventional electricity generation to full potential. For example, people have been suggesting that brown coal electricity generation in Germany could have dropped by 37%, should there be no electricity export and all the additional residual load flexibility was performed by brown coal power plants[9].
Flexibility: Demand Side
Flexibility on the demand side is typically known as demand response. Like conventional power plants, industrial owners can retrofit their factories or redesign their control system under the new mindset to meet the growing demand of residual load flexibility.
An example of this occurred during a solar eclipse event in Germany in 2015. Aluminium factories were asked to lower power demand during the few minutes, and the grid went through the event with no major incident.
Ways to Improve Flexibility
Technical Measures: Retrofit and New Design Mindset
Market Measures: Real Time Markets and Incentives
Apart from retrofitting existing conventional power plants or build new ones under a new design mindset, the electricity market can also boost the flexibility of the overall system, if designed properly.
References
- ↑ International Energy Agency (IEA), Harnessing variable renewables., Tech. rep.;fckLR2011
- ↑ "Flexibility and Aggregation Requirements for their interaction in the market". Available at:fckLRhttp://www.eurelectric.org/media/115877/tf_bal-agr_report_final_je_as-2014-030-0026-01-e.pdf
- ↑ "Powering into the Future: Renewable Energy & Grid Reliability". Available at: http://www.mjbradley.com/sites/default/files/Powering_Into_the_Future.pdf
- ↑ http://reneweconomy.com.au/tesla-big-battery-moves-from-show-boating-to-money-making-93955/
- ↑ http://reneweconomy.com.au/coal-dies-super-cheap-renewables-plus-battery-storage-82743/
- ↑ "Renewables are blooming; is the power system ready? A Prognosis on Residual Load Flexibility in Taiwan by 2025" https://www.slideshare.net/TonyYen1/renewables-are-blooming-is-the-power-system-ready-a-prognosis-on-residual-load-flexibility-in-taiwan-by-2025
- ↑ "Flexibility, Residual Load ,�& Re-dispatchment" https://drive.google.com/open?id=1uJPcyUXykobIVOE-Bb58nrGyHwfbsc9X
- ↑ https://energy.gov/eere/articles/confronting-duck-curve-how-address-over-generation-solar-energy
- ↑ https://twitter.com/energy_charts/status/927154958243450881