Independent Review into the Future Security of the National Electricity Market Preliminary Report, Dec 2016 (docx 04 mb)
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- Appendix A: International Energy Agency Country Comparisons
Consultation QuestionsEffective energy market governance is essential for managing the transition that is currently underway in Australia’s energy market. The Review is considering whether the current institutional architecture can do this and support effective national coordination of energy policy. 7.1 Is there a need for greater whole-of-system advice and planning in Australia’s energy markets? 7.1.1 If so, what are the most appropriate governance arrangement to support whole-of-system advice and planning? 7.1.2 Do the roles of ministers and energy market institutions need further clarification? 7.2 What lessons can be drawn from governance and regulation of other markets that would help inform the review? 7.3 How should the governance of the NEM be structured to ensure transparency, accountability and effective management across the electricity supply chain? 7.4 Are there sufficient outcome statistics for regulators and policy makers to assess the performance of the system? 7.5 What governance measures are required to support the integration of energy and emissions reduction policies? 7.5.1 Should the AEMA be amended? 7.5.2 Should the NEO be amended? 7.6 How can decision-making be appropriately expedited to keep up with the pace of change?
Several countries in Europe and North America are modernising their market design and regulatory framework to allow high shares of VRE generation while ensuring security of electricity supply. New interconnectors and grid reinforcements to increase resilience are often useful for better integration of markets and renewables. Deploying large shares of VRE generation requires modernisation of technical network codes. The September 2016 blackout in South Australia was mainly due to a storm. Electricity grids in other countries have faced similar problems, with a few examples being:
Electricity grids are affected by extreme weather events and this is a bigger concern with the increase in the number of weather-dependent electricity generation sources such as wind and solar. Integration of large shares of VRE generation in Denmark, Ireland, Spain and Germany is being achieved without any detrimental impact on electricity security. The annual share of VRE generation in many systems around the world is forecast to increase considerably over the coming years. This could create a significant challenge for grid security but can be managed by implementing appropriate policy and regulatory frameworks: According to the IEA key market design improvements in these countries include:
Many of these markets are also working to develop appropriate distributed market platforms to better integrate fast-growing distributed energy resources such as rooftop solar, battery storage and other behind the meter resources and by improving coordination and communication between distribution and transmission networks. Countries with large shares of VRE generation are:
Several countries as well as the Nordic market, the EU, Texas and New Zealand have demonstrated that it is possible to manage the challenge of integrating a rising share of VRE generation into their electricity networks. The right set of policies to support the development and implementation of grid connection codes is essential for successful integration of VRE generators and for maintaining the security of the electricity system. According to the IEA, with declining electricity demand and various incentives for renewable energy, most countries are seeing an increase in wind and solar installed capacity, which depresses wholesale electricity prices. This reduces the annual load factor of conventional electricity generators that are still needed to maintain system security and complement variable renewables. The great challenge is designing markets that are fit for purpose for high shares of renewables. Achieving cost-effective and secure integration of VRE generators by transforming electricity systems requires better integration of VRE generators through the development of flexible technologies that provide dispatchable generation, improved grid infrastructure, storage and demand side management. Successful system transition involves:
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