Energy Systems Conference: When Theory Meets Reality

Organization: Elsevier

Venue: Queen Elizabeth II Conference Centre

Location: London, United Kingdom

Event Date/Time: Jun 24, 2014 End Date/Time: Jun 25, 2014
Early Registration Date: Mar 28, 2014
Abstract Submission Date: Jan 31, 2014
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Description

The challenge of creating a more secure, sustainable and affordable global energy system is one of the most important issues facing policy makers, researchers and energy industry figures today. With ambitious 2020 targets laid down by the UK government, it is vital to consider how divergent social, environmental and economic objectives can be balanced across technologies to deliver a coherent energy system that will be effective in the long-term.

This conference will aim to explore the following questions:

  • What is systems based thinking, and what constitutes a systems approach?
  • How do things interact in an energy system?
  • Do we understand the interfaces and links between component parts of our energy system?
  • How are we structuring our policies to allow for resilient planning?
  • How can interactions between markets and policy be better understood?

This conference will explore the most suitable and efficient ways to build a better energy system. It will examine new thinking about the structures, processes and policies that are needed to ensure technology integration and drive a step change in investment, whilst considering the overall impact of these initiatives at the system level.

Innovative ideas and solutions will be discussed in order to analyse and assess possible options for implementation. Outcomes will be published to provide recommendations for policy and decision makers.

Venue

Organizations

Elsevier

Additional Information

Topics List:

  • Low carbon heat and power (CCS, Nuclear, Wind, Solar, Hydro, etc.)
  • Low carbon transport (Fuel Cells and Hydrogen)
  • Energy storage and network balancing
  • Grid integration and infrastructure
  • Distributed generation
  • Energy efficiency and energy management
  • Carbon pricing and emissions trading
  • Policy, targets and resource efficiency
  • Integrating finance, economies and energy
  • Computing, data and energy system modelling