Putrajaya, the federal administrative centre of Malaysia

11 – 13 April 2017

“Clean Energy for Today: Carbon Free On the Move”

Clean energy is electric energy generated by utilizing renewable and non-renewable technologies with zero or lowest feasible emissions of greenhouse gases (GHG), criteria pollutants, and toxic air contaminants onsite. Deploying carbon-free clean energy systems is the best option that will reduce pollution and tackle the issue of environmental and population costs due to the increasing global energy demand. From the current cost perspective, clean energy is also capable of being permanently de-coupled from the oil and gas markets.

As carbon-free energy sources, fuel cell and hydrogen energy systems can reduce fossil fuel-based GHG emissions drastically in order to give a significant impact on climate change. Challenges ahead include inefficient technologies for the current clean energy production, short supply of energy-related materials, little understanding of the fundamental processes in the chemical reactions involved, limited actions in terms of policies and R&D, and problems faced in large-scale adoption and implementation of more efficient, high-performing, and affordable alternative technological solutions.

Fuel cell and hydrogen energy systems for electricity generation and storage are among the essential elements for the transition from high-carbon, fossil fuel-based energy generation to carbon-free, clean energy power generation. They have made vast improvements and their technologies are currently on the upward move, but there is still a long way to go before they can be as cost competitive as fossil fuels. Close collaboration, cooperation, and coordination between social scientists, climate and energy experts, and policymakers across all sectors of the energy systems can accelerate innovation and drive the most promising ideas to the marketplace. Governments with clear, long-term, and measurable goals for a carbon-free energy economy must be willing to invest on the fuel cell and hydrogen energy R&D efforts. The zero-carbon dioxide economy is achievable with fuel cell and hydrogen energy technologies and crucial in transforming global energy politics.