Mathiasen Machinery, Inc. (MMI), announced that it has entered into an agreement to represent technology offered by Austria’s Wire and Cable Machinery GmbH (WiCa) in the Americas.

A press release said that MMI, based in East Haddam, Connecticut, and run by brothers Mike and Mark Mathiasen, will market and sell wire fabrication and extrusion equipment from WiCa, which is based in Punitz, Austria, to market and sell its wire fabrication and extrusion products in North, Central and South America.

WiCa manufactures wire and cable machinery that includes high-speed stranding machines, payoffs and take-ups, capstans and extrusion lines/sheathing lines. It also offers custom-made equipment for SZ-stranding, tubular stranding, and steel bow stranding, among other lines.

The release said that WiCa’s technology is designed to provide customers technology that offers precision, efficiency, safety and reliability. For more details, go online to www.mathiasen-machinery.com to access a 32-page catalog of WiCa’s full product line, or contact Mark Mathiasen.

Outside the U.S., contact Deutsch Christoph or Gassler Christian via www.wica.at.

Earlier this year, the Carbon Trust picked five winners of a dynamic export cable competition within its Floating Wind Joint Industry Project (Floating Wind JIP).

A press release said that the successful companies were Norway’s Aker Solutions, Japan’s Furukawa Electric, Greece’s Hellenic Cables, JDR Cable Systems in the U.K. and Zhongtian Technology Submarine Cable in China. The goal is to draw on the expertise of existing offshore wind cable suppliers and the oil and gas supply chain to "support the design, initial testing and development of dynamic cables ranging from 130 kV to 250 kV to enable the efficient transmission of power from floating wind turbines to shore."

The results of the first phase of the project, which will conclude in March 2020, could help to "inform subsequent project phases to support the deployment of dynamic export cables across the industry," the release said.

"The lack of dynamic export cables has been identified as a hurdle that needs to be overcome by industry to ensure the commercialization of floating wind farms, and we are excited to begin work to ensure that this technology is ready in time for commercial floating wind projects," said Carbon Trust offshore wind manager Rory Shanahan. "We are delighted with the response we got from the industry and we are looking forward to working with the five competition winners."

BPP Cables is supporting the competition, which aims to ensure that this necessary technology is a viable option for developers for commercial floating wind projects within the next five to 10 years.

At its website, the U.K.-based organization describes Carbon Trust as "an independent, expert partner of leading organizations around the world, helping them contribute to and benefit from a more sustainable future through carbon reduction, resource efficiency strategies and commercializing low carbon technologies."

In 2017, the Carbon Trust’s Offshore Wind Accelerator (OWA) initiative "launched a new global innovation competition to find and fund the development of innovative solutions to a challenge facing the offshore wind farm industry today: how to monitor the condition of subsea cables to ensure that they are not damaged during the load out and installation process. The competition seeks to identify and support the development of novel condition monitoring systems for subsea cables. "Looking at £213 million in insurance losses from 28 UK offshore wind claims between 2002 and 2015, 68% were directly due to cable faults occurring predominately during the construction phase."

voestalpine announced that the company has invested more than 18 million euros in a new pioneering high-tech steel research center in Austria.

"At its unique pilot facility in Leoben-Donawitz, Austria, voestalpine is now conducting research into the production of new high-performance steels which are subsequently processed into special rails, quality rod wire, and extremely high-resistant OCTG by the Group’s companies in Syria," a press release said. It noted that the creation of Technikum Metallurgie (TechMet), a metallurgy technical center, represents the largest such research investment at the site to date.

"Today, voestalpine generates two-thirds of Group revenue from processing steel into sophisticated components and system solutions for the global automotive, railway infrastructure, and aerospace industries," said company CEO Wolfgang Eder. "The TechMet research facility offers us entirely new opportunities to develop pioneering steel grades which are needed to ensure the high quality of our final products."

Franz Kainersdorfer, who heads the company’s Metal Engineering Division, said that the unique plant configuration is a major advance. "We have built a complete steel plant in miniature that allows us to directly transfer the results of work in the research plant to (our) major facilities."

Product development at TechMet follows a reduced carbon footprint, the release said. Electricity generated from renewables provides the power to melt the pre-materials, and this reduces CO₂ emissions at the site by at least 2,800 tons each year. The core components—apart from the furnaces also a continuous caster—were supplied by a Styrian plant manufacturer based in Bruck an der Mur. The research center, 2,800 sq m, is located in a former foundry building, almost 100 years old, at the site in Leoben-Donawitz which has now been comprehensively renovated.

Underwriters Laboratories (UL) announced that the company has consolidated its U.K. capabilities in Basingstoke to address the growing demand for testing and regulatory certification services.

A press release said that UL has made a “significant investment” in Basingstoke, which is now the organization’s largest commercial test facility in the U.K. It adds 37,000 sq ft to the current facility, tripling its size, with 15,000 sq ft dedicated to EMC and wireless testing.

UL’s EMC and Wireless certification lab now includes: four 3-meter semi-anechoic chambers; three 3-meter fully anechoic chambers; six large screened rooms; and seven DASY6 SAR systems. As technology continues to advance rapidly, new developments such as 5G and artificial intelligence (AI) will continue to significantly alter consumer buying habits and increase awareness of issues, including security and interoperability, the release said. “As a result, many companies are being left behind as they fail to remain relevant and meet the new standards introduced to protect consumers.” The consolidation of services in Basingstoke was driven by these market trends and by requests from UL customers for larger laboratory capacity, shorter test programs and automation, and higher frequency bands, all in one location, it said.

Through the consolidation, UL will provide a broad spectrum of certification types across multiple industries, technologies and geographies from a single location, so that as the products made by customers have to become “smarter,” the location can adapt to meet those needs, the release said. “This is an important moment in the development of UL’s compliance services in the U.K. The significant investment in new facilities will offer a one-stop service solution with state-of-the art custom-designed chambers and sourced equipment,” said Phil Davies, site leader and general manager for UL’s Consumer Technology division in the EMEA-LA region. For more details, go to www.ul.com.

Cablel® Hellenic Cables announced that it has been awarded part of an R&D tender for a Floating Wind Joint Industry Project (Floating Wind) focused on the development of high-voltage dynamic export cables for the transmission of power from floating wind farms to shore

A press release said that the project, under the auspices of Carbon Trust, is a collaborative initiative between industry partners EnBW, ENGIE, Eolfi, E.ON, Equinor, innogy, Kyuden Mirai Energy, Ørsted, ScottishPower Renewables, Shell, Vattenfall and Wpd, with support from the Scottish government. The goal is to develop commercial-scale floating wind farms, with this R&D effort representing a new technology that is a critical factor for the commercial deployment of floating wind technology.

“For this purpose, Hellenic Cables will support the design, initial testing and development of dynamic cables ranging from 130kV to 250kV to enable the efficient transmission of power from floating wind turbines to shore,” the release said. The award for the company is for the first phase of the project, due for completion in March 2020.

The cables will be made at the plant of Fulgor SA, a subsidiary of Hellenic Cables, at its plant in Soussaki, Corinth, Greece, where Fulgor is capable of making some of the world’s longest submarine cables in continuous lengths. Cablel Hellenic Cables, which is part of Belgium’s Cenergy Holdings SA, manufactures power and telecom cables as well as submarine cables. It has four plants in Greece and one in Bulgaria.

Last November, Cablel Hellenic Cables won a contract worth some 29 million euros and Fulgor a contract worth some 18 million euros to provide and install submarine and land cables in the Rio-Antirrio area for the extension of the 400kV grid towards Peloponnese, Greece. Those projects called for 18 km of six 400kV single-core submarine cables and optical fiber submarine cables, and some 42 km of 400 kV land cables for the route from the landing points of the submarine cables in Peloponnese and Central Greece.