Wärtsilä Corporation, News15 January 2021 at 9:00 AM E. Europe Standard Time
WIND POWER TO HYDROGEN TO ELECTRICITY PROJECT
This week Wärtsilä Finland, together with energy companies Vaasan Sähkö and EPV Energia and the City of Vaasa have signed a letter of intent to cooperate in a project aimed at utilising emissions-free hydrogen in power generation, industry and traffic applications. The project will be based in Vaasa and will focus on enabling a new way to store renewable energy. At the same time, the intention is to pilot a hydrogen-based energy generation solution suitable for export markets. It is thought that hydrogen can play a significant role in reaching global climate goals. Using electricity from renewable sources, hydrogen can be produced without emissions.
The goal of the four parties is to jointly build a so-called Power-to-X-to-Power system in Vaasa. The system will use renewable energy to produce hydrogen to be stored and reprocessed. The stored hydrogen can be utilised both in energy production and traffic applications. Electricity generated from renewable energy sources is used as raw material to separate hydrogen from water by electrolysis, and the hydrogen will be then further processed to produce electricity. The solution is not limited to the use of hydrogen – the letter X refers also to other fuels, such as synthetic methane, methanol and ammonia. Energy production would take place in an engine power plant developed by Wärtsilä, using the latest technology.
“Hydrogen and other Power-to-X -fuels will have a significant role in the future energy system and the new related technology opens up excellent export opportunities for Finnish companies. During recent years, we at Wärtsilä have researched synthetic fuels and invested in technology related to these and other future fuels. It is part of our vision for the future whereby electricity is produced from 100% renewable energy. It is great that this project has attracted such remarkable project partners, and through close cooperation we can further accelerate the development towards a cleaner world. The ecosystem around this project represents a concrete demonstration of how Wärtsilä’s new Smart Technology Hub under construction in Vaasa will create new opportunities and build cooperation,” says Matti Rautkivi, Director, New Business, Wärtsilä Energy.
The diversity of the solution is illustrated by its opportunities for reducing emissions in several sectors. It also solves the storage problem for renewable energy, which is known to be dependent on the weather.
“The solution offers a new kind of emissions-free flexibility to the energy system, which is increasingly based on renewable energy sources. At the same time, the system marks one step more towards more efficient and CO2 neutral energy production. Both viewpoints are extremely important to us,” says Hans-Alexander Öst, Development Director at Vaasan Sähkö.
By producing and storing hydrogen, any excess over-production of renewable energy can be utilised.
“EPV has already invested significantly in wind power and will continue to do so in the future. When wind power production exceeds demand, we need to store the electricity for later use at a convenient point of time. Hydrogen is seen as an excellent storage solution for renewable electricity in the future. We want to be contributing to developing this solution as a part of emissions-free heat and power generation. The aim is to integrate the heat generated in the production of hydrogen and energy into the existing rock cave heat storage. At the same time, we will maximize the total efficiency of the system,” says Niko Paaso, Director at EPV Energia.
Digitalisation will be used wherever possible in optimising the outcome. The current combined heat and power generation plant in the Vaasa region provides excellent locational support for this venture. The hydrogen, electricity, and heat production equipment, as well as the hydrogen storage, will be located in the grounds of the Vaskiluoto power plant. In the future it will be possible to increase the hydrogen production and storage capacity.
The venture supports the parties’ objectives to be CO2 neutral during this decade. It also provides a new export opportunity for energy solutions, and is easily applicable even on a global scale.
“It is important that the City of Vaasa is involved in promoting the goals of local companies to develop emissions-free and clean energy solutions. This venture is an excellent example of the strength of regional cooperation and concrete innovations aimed at combatting climate change. The stored hydrogen can be used, for example, as fuel in public transport, which reduces road traffic emissions and contributes to the city’s CO2 neutrality target,” says Tomas Häyry, Vaasa city manager.
During 2021, the venture parties aim to follow-up on funding possibilities, and to reach the final agreement for starting the project.
Contact for more information on this news:
Managing Director, Wärtsilä Finland Oy
Tel. +358 40 751 5446
Photo: City of Vaasa / Esa Siltaloppi
Wärtsilä Energy in brief
Wärtsilä Energy leads the transition towards a 100% renewable energy future. We help our customers unlock the value of the energy transition by optimising their energy systems and future-proofing their assets. Our offering comprises flexible power plants, energy management systems, and storage, as well as lifecycle services that ensure increased efficiency and guaranteed performance. Wärtsilä has delivered 72 GW of power plant capacity in 180 countries around the world.
Wärtsilä in brief
Wärtsilä is a global leader in smart technologies and complete lifecycle solutions for the marine and energy markets. By emphasising sustainable innovation, total efficiency and data analytics, Wärtsilä maximises the environmental and economic performance of the vessels and power plants of its customers. In 2019, Wärtsilä’s net sales totalled EUR 5.2 billion with approximately 19,000 employees. The company has operations in over 200 locations in more than 80 countries around the world. Wärtsilä is listed on Nasdaq Helsinki.