Tag Archives: solar energy

TSB and DECC R&D Hydrogen and fuel cell technologies.

The Technology Strategy Board, the UK’s innovation agency, and the Department of Energy and Climate Change (DECC), are funding five new projects that are researching and developing hydrogen and fuel cell technologies. These government-backed projects want to bring hydrogen and fuel cell technologies into everyday use so they are using research and development to speed up the adoption of energy systems using hydrogen en fuel cell technologies.

They want to develop whole systems and they want to show that fuel cell systems and hydrogen technologies can work together with other energy and transport component such as renewable energy generation, refueling infrastructure and vehicles. So energy and transport components can be integrated with the fuel cell systems and hydrogen technologies. These technologies can also be used in low carbon energy systems and transport.

Mark Prisk, Business Minister, said that the UK has innovative business developing world-leading hydrogen and fuel cell technologies. The UK wants to capture a share of the global market by developing a coherent capability and vibrant industry. If they are in the position to capture that share of the market, they will be able to attract international partnerships and inward investment. This will also cause a growth of the national economy and create job opportunities. These five new projects complement the already joint government/industry project called UK H2 Mobility. This project is currently evaluating potential roll-out scenarios for hydrogen for transport in the UK.

Greg Barker, Energy and Climate Change Minister, said that hydrogen and fuel-cell technologies are at the cutting edge of new low carbon energy solutions. It is important to see how these technologies can be integrated with other energy and transport products and it are these new and exciting government-supported projects that will look into that. He also said that he is looking forward to seeing the results.

The five new projects were selected through a competitive process and will be led by Air Products plc, BOC Ltd, ITM Power (Trading), Rutland Management Ltd and SSE plc. The projects will:

  • Create the UK’s first end-to-end, integrated, green hydrogen production, distribution and retailing system. This will be centered around a fully publically accessible, state-of-the-art 700 bar renewable H2 refueling station network across London (Air Products Plc).
  • Deliver solar energy generated hydrogen for Swindon’s exiting public access H2 refueling station. This will happen via an electrolyser. And its use in materials handling vehicles and light vans at Honda’s manufacturing plant (BOC Ltd).
  • Integrate an electrolyser based refueller with renewable energy on the Isle of Wight. This will enable zero carbon hydrogen to be produced for use as transport fuel for a range of vehicles (ITM Power).
  • Demonstrate a viable solar-hydrogen energy system through the 24/7 provision of green electricity and heat. The benefits will be shared by multiple end users of a business park in Surrey (Rutland Management Ltd).
  • Demonstrate a whole renewable hydrogen system, connecting a 1MWe electrolyser to the grid. This is in conjunction with an Aberdeenshire wind farm. They want to explore the grid impacts and energy storage potential of hydrogen generation, and provide green hydrogen produced to power a fleet of fuel cell buses (SSE plc).

Iain Gray, Chief Executive of the Technology Strategy Board, added that these innovative, large-scale demonstrators will show how fuel cells and hydrogen technologies can be adapted, developed and integrated to provide real-time and real-world low carbon solutions. These projects will also show how the Technology Strategy Board can help the UK businesses to accelerate the development and commercialization of technological innovations.

A grant funding of £9 million is provided by the Technology Strategy Board and DECC. This means the total value of the projects, including contributions from the industrial partners, is in excess of £19 million. The projects are building on previous Government support for fuel cells and hydrogen systems, accelerating the process towards commercialization.

Breaking Out of the Silo

There has been talk of changing the way we live in order to benefit both the planet and each other for many years. Countless schemes have been created to reduce carbon emissions, increase solar energy, encourage the use of public transportation, increase child safety and boost quality of life for all. But these schemes have all been run independent of each other, the so-called silo structure. However, it’s fast becoming clear that this method simply does not work. The Smart Cities venture combines all of these aspects, with the overall aim of using technology to improve life. However, ICT analyst Ovum suggests that the move to smarter, ICT literate cities is slower than we would have hoped.

“While most of us live in cities, moves to integrate the technologies that link us all, to create a better standard of living, are being stymied by a lack of resources and poor planning.”

While suppliers have been able to develop technology to aid with almost any aspect of life, from crime to traffic, the implementation stage may be what causes the most difficulty. While the physical aspect of putting into place the hardware, such as sensors, that is needed may be a time consuming process, it is the changing of people’s minds and behavior patterns that is set to cause the most difficulty.

The Smart City initiative needs to find a way to foster collective action to improve social interactions. This is just one of the topics to be discussed during the Smart Cities Europe conference due to be hosted early this week.