The location has been chosen to support CorPower’s flagship demonstration project HiWave-5, and for the long-term development of supply and service capacity for commercial wave energy farms. Several factors have contributed to choosing Viana do Castelo for this investment. A strong competence pool of engineers from adjacent sectors such as offshore wind, composite manufacturing and shipyards, top-level universities and industrial infrastructure including ports and grid connection allows effective upscaling of operations in the region.
Portugal also presents an ideal environment for HiWave-5 due to its natural assets and environmental consciousness. CorPower’s work strongly complements the Portuguese Industrial Strategy for Ocean Renewable Energies, designed to create a competitive and innovative industrial export cluster for ocean renewable energy. Grid operator REN recently installed a new offshore cable servicing floating wind, and there is significant commercial interest from utilities and project developers for next-generation wave project development.
“This is a crucial stage in our pursuit to develop a new class of high-efficiency Wave Energy Converters. says Patrik Möller, CEO of CorPower Ocean. “CorPower’s goal is to successfully introduce certified and warrantied WEC products to the market by 2024, making wave energy a bankable technology that can attract mainstream renewable project finance.
“Wave energy can play a fundamental role in Portugal’s transition to 100% renewable energy while providing a platform to drive Portuguese exports and long-term investment opportunities for local supply chains. The HiWave-5 program is recognised as one of the most ambitious efforts in ocean energy. The arrival of HiWave-5 is set to reinforce Portugal’s reputation as a world-leader in renewable energy, with significant investment in people, technology and facilities.”
CorPower and port authority APDL – Administração dos Portos do Douro, Leixões and Viana do Castelo – have reached an agreement to develop the ocean energy facility within the commercial port of Viana do Castelo. It will provide space for the fabrication, assembly and servicing of commercial-scale wave energy converters.
A spokesperson for the APDL Board said: “This project is in line with European sustainability objectives and is a considerable step towards decarbonization and large-scale implementation of clean energy. We intend to serve as an example, for other European ports, in what regards the utilization of existing infrastructures for similar purposes.”
Mr Möller added that CorPower will also be contributing to the local blue tech cluster and maritime-related value chains. “The arrival of CorPower Ocean Portugal Lda provides a foundation to ramp up exports and attract inward investment to the region,” he said. “Around 15 highly qualified engineering jobs are planned for the next three years, covering composite design and manufacturing, mechanical, electrical, control and marine operations.”
Press contact: Sam Pinnington, email@example.com
Tel: +351 920 256152
A Press kit with background information and high-resolution images can be found here.
About CorPower Ocean
CorPower Ocean brings to market, a new class of high efficiency Wave Energy Converters (WECs) enabling robust and cost-effective harvesting of electricity from ocean waves. The design principle is inspired by the pumping principles of the human heart and offers five times more energy per ton of device compared to previously known technologies, allowing a large amount of energy to be harvested using a small and low-cost device. The CorPower WEC’s unique ability to become transparent to incoming waves provides survivability for the WEC in storm conditions.
CorPower’s team includes 45 wave energy specialists from 13 countries with offices in Sweden, Portugal, Norway and Scotland. The company has broad backing across Europe, with funders including EIT InnoEnergy, the European Commission, the Swedish and Scottish Governments, Midroc New Technology, ALMI Greentech fund, and additional private investors.