Gina Rinehart closer to opening contested coal mine in Alberta, Canada

SHE WAS INVITED BY KENNEY'S UCP

Cecilia Jamasmie | November 27, 2024 |

Gina Rinehart, executive chairman of Hancock Prospecting. (Image courtesy of Gina Rinehart.)

Australian mining magnate Gina Rinehart has moved closer to reviving a contentious metallurgical coal mine in Canada’s Rocky Mountains after a local plebiscite showed strong support for the project.


Nearly 72% of the 54% of the residents who cast votes in the municipality of Crowsnest Pass, Alberta, endorsed restarting the Grassy Mountain mine, a proposal that has divided the community and sparked regional debate.

The non-binding vote, held on Monday, saw participation from nearly half of the municipality’s 6,000 residents. The project is being led by Northback Holdings, formerly known as Riversdale Resources and Benga Mining, and Rinehart’s Hancock Prospecting is the parent company.

The mine, originally closed in 1983, has the capacity to produce 4.5 million tonnes of steelmaking coal annually and spans 2,800 hectares.

First proposed in 2019, the project faced its first challenge after Alberta’s government rolled back 1970s-era restrictions on open-pit coal mining in 2020, as part of the province’s efforts to boost an economy hit hard by the coronavirus pandemic and plunging oil prices.

In 2021, provincial regulators ruled that the project was “not in the public interest,” citing environmental risks, particularly concerns over selenium contamination in local waterways. That decision was upheld by three separate court rulings.

Despite these setbacks, Northback Holdings has continued to push for the mine’s approval, pledging to implement management and mitigation measures to address environmental risks, including selenium discharge, during all phases of the project. The company’s campaign to restart operations has been met with allegations of undue influence. Critics claim that fossil fuel interests covertly supported local advocacy groups ahead of the plebiscite.

“Bogus” plebiscite

The referendum itself has drawn scrutiny. Andrew Nikiforuk, a contributing editor for The Tyee, described the vote as “bogus” in an opinion piece published Wednesday. He argued that the question posed—“Do you support the development and operations of the metallurgical coal mine at Grassy Mountain?”— obscured the fact that the mine is located not in Crowsnest Pass but in the neighbouring municipal district of Ranchland, which opposes the project.

“Nevertheless, a community bombarded by corporate propaganda provided a resounding answer to a question impacting a different municipal district,” Nikiforuk wrote

.

Grassy Mountain is on the site of an old mine that closed about 50 years ago

. (Image courtesy of Northback Holdings.)

Political developments have also shaped the project’s trajectory. In March 2022, Alberta’s former energy minister Sonya Savage issued a directive halting new coal exploration applications, with exceptions for advanced projects. Earlier this year, the new energy minister, Brian Jean, designated Grassy Mountain as an advanced coal project, allowing it to move forward.

The Alberta Energy Regulator is scheduled to hold public hearings on drilling permits for the project on December 3 and January 14. Meanwhile, opponents warn the mine could harm local wildlife and water resources, further escalating tensions in the debate over economic development and environmental conservation in the region.

UK campaign group calls for extended operation of reactors

Wednesday, 27 November 2024

 World Nuclear News

The Britain Remade campaign group has said hitting the UK's target for a clean energy grid by 2030 will be "almost impossible" without extending the operation of some of the country's nuclear power plants.

Heysham 2 (Image: EDF Energy)

The group - which campaigns for the time it takes to build economy-boosting infrastructure to be slashed - is calling on the government to back the process of extending the operation of the Heysham 2 and Torness plants, which are both scheduled to shut in 2028.

"Built in the 1980s, these nuclear power stations are home to some of the youngest Advanced Gas-Cooled Reactors (AGRs) in the country, making them ideal candidates to safely operate longer than originally planned," Britain Remade says. "Extending the life of the two reactors at Heysham 2 and the two at Torness, along with getting one of Hinkley Point C's power units online by the end of the decade and keeping Sizewell B running, will provide 5.3 GW of clean nuclear power each year."

This, it says, would reduce the amount of gas the UK needs to burn by 5.8 billion cubic metres and reduce carbon dioxide emissions by 8.8 million tonnes. Households would also benefit from cheaper bills, saving up to GBP95 (USD120) per year.

The group warns that failing to keep even one of the UK's remaining AGR plants in operation would push up the amount of unabated gas burned which, it says, "would breach the National Energy Systems Operator's 'less than 5% unabated gas in a normal year' definition of clean power". 

"The evidence is clear, without keeping four of the nation's Advanced Gas-Cooled nuclear Reactors online it will be almost impossible for the government to deliver a clean energy grid by 2030," said Britain Remade CEO Sam Richards. "No ifs, no buts, they will have failed this major test.
 
"By lifting the mad ban on new onshore wind farms being built in England and approving major solar farms in its first week in office, the government has already sent a clear message about getting as much clean energy as possible connected to the grid. But ministers now urgently need to make clear that they want the life of existing reactors extended where it is safe to do so. We have done it before and we can do it again. If we don't, the result will be more burnt gas and more emissions released into the atmosphere."
 
Tom Greatrex, chief executive of the Nuclear Industry Association, added: "The AGR nuclear fleet has produced more clean power and cut more carbon than any other energy asset in British history and can help us achieve the 2030 target with lifetime extensions. 
 
"What is also important is that we plan beyond 2030, which includes extending the life of Sizewell B to the 2050s and building out new large-scale GW projects, including decisions on Sizewell C and Wylfa, as well as a fleet of small modular reactors so that we don't repeat the mistakes of the past. Only nuclear gives us clean, base load power and we need to start building now."

 

Canada selects location for used nuclear fuel repository

Thursday, 28 November 2024

Fourteen years after beginning its consent-based siting process, Wabigoon Lake Ojibway Nation and the Township of Ignace have been selected as the host communities for Canada's proposed deep geological repository.

(Image: NWMO)

"This is a historic moment," Nuclear Waste Management Organization President and CEO Laurie Swami said. "This project will solve an environmental issue and supports Canada's climate change goals. And today's decision was driven by a consent-based siting process led by Canadians and Indigenous peoples. This is what making history looks like."

The Nuclear Waste Management Organization (NWMO) said the announcement was an important milestone in delivering on its promise to not leave Canada's used fuel as a burden for future generations to manage. There is international scientific consensus that a deep geological repository is the safest way to manage used nuclear fuel over the long term, and Canada is among the leading countries in implementing this solution, the organisation said.

Launched in 2010, the NWMO's community-driven, consent-based site selection process included clear commitments that the plan could only move forward in an area with a site that meets rigorous safety standards and has "informed and willing" hosts. By 2019, the initial list of 22 communities that had expressed an interest in learning about the project and exploring their potential to host it had been narrowed down to two, both in Ontario: the Wabigoon Lake Ojibway Nation-Township of Ignace area and the Saugeen Ojibway Nation-South Bruce area.

Earlier this month, members of Wabigoon Lake Ojibway Nation indicated their willingness to move forward with the process. The Township of Ignace confirmed its willingness to proceed in July, following a community vote.

"This important decision for Canada was possible because of the communities' leadership and active engagement over a decade of learning, as well as considering the future of their communities," NWMO said. "The safety of the site was also established through rigorous site assessment and technical studies."

There has been widescale public information and consultation over the plans (Image: NWMO)

The project will now move forward to the regulatory decision-making process. The NWMO has agreed to an Indigenous-led Regulatory Assessment and Approval Process, a sovereign regulatory process that will be developed and implemented by Wabigoon Lake Ojibway Nation to ensure that potential impacts of the project are assessed against Wabigoon Lake Ojibway Nation's Anishinaabe values, and that conditions to mitigate any impacts are designed by Wabigoon Lake Ojibway Nation and complied with by the NWMO. The project will also undergo the regulatory decision-making processes of the Canadian Nuclear Safety Commission and through the Government of Canada's impact assessment process.

Wabigoon Lake Ojibway Nation Chief Clayton Wetelainen said the nation views its role as the potential host for Canada’s used nuclear fuel as "one of the most important responsibilities of our time".

"This project will be under intense scrutiny by our Nation’s regulatory process in addition to the regulatory oversight by the Impact Assessment Agency of Canada and the CNSC," he said. "Wabigoon will ensure that safety, environmental protection and Anishnaabe values are upheld throughout this process," he added.

Township of Ignace Mayor Kim Baigrie expressed her gratitude to the Wabigoon Lake Ojibway Nation and Ignace communities and the other communities that were involved in the site selection process, for their leadership and engagement, and commended the NWMO for its progress in advancing a "safe, responsible and informed" plan. "Thanks to our commitment to health and safety, Canadian nuclear energy will continue to power communities at home and allies around the world - providing Canadians jobs and opportunities for generations," she said.

Ontario’s Minister of Energy and Electrification Stephen Lecce thanked the leaders of Wabigoon Lake Ojibway Nation and the Township of Ignace for their leadership and willingness to host the project. "As our government expands our zero-emissions nuclear fleet to meet rising energy demand, Ontario is cementing its position as a world leader in all parts of the nuclear lifecycle – this achievement by NWMO is just the latest example," he said.

How will the deep geological repository work?

 

Canada's used nuclear fuel is currently in interim storage at reactor and laboratory sites. NWMO's project timeline envisages construction of the repository - which will be more than 600 metres below ground and have an underground footprint of about 2 kilometres by 3 kilometres - beginning in around 2033, subject to being granted the necessary licences. Operations of the repository - which will use a series of engineered and natural barriers that work together to contain and isolate used nuclear fuel - are expected to begin in 2040-2045.

(Images: NWMO)

Korean waste agency to cooperate with Finland, Spain

Thursday, 28 November 2024

The Korea Radioactive Waste Agency has signed agreements with Finland's Posiva Oy and Spain's Enresa to strengthen cooperation in radioactive waste management.

The signing of the MoU with Posiva (Image: Korad)

On 25 November, the Korea Radioactive Waste Agency signed a Memorandum of Understanding with Posiva and its subsidiary Posiva Solutions. The signing ceremony was attended by Ilkka Poikolainen, chairman of the board of directors of Posiva, and Mika Pohjonen, president of Posiva Solutions.

Finnish radioactive waste management company Posiva is jointly owned by Finnish nuclear power companies TVO and Fortum and has developed that country's geological disposal facility at Olkiluoto. Posiva has applied for an operating licence for the repository for a period from March 2024 to the end of 2070. Pending a final decision on its application by the government, Enresa is scheduled to begin operating the world's first high-level radioactive waste disposal facility in 2025.

"In particular, the MoU with Finland's Posiva and Posiva Solutions is expected to serve as a cornerstone for securing technological capabilities in high-level radioactive waste management projects, including sharing experiences in constructing and operating underground research facilities, promoting joint research, and operating human resource development programs through expert exchanges," the Korea Radioactive Waste Agency said. 

The Korean agency on 27 November signed an MoU with Spanish decommissioning and waste management firm Enresa, attended by Enresa President Jose Luis Navarro Rivera.

The signing of the MoU with Enresa (Image: Korad)

Enresa was created in 1984 as a public, non-profit organisation responsible for the management of radioactive waste, with the aim to perform an essential public service: collecting, treating, conditioning, storing and disposing of the radioactive waste produced throughout the Spanish State. It has been operating the low and intermediate-level radioactive waste disposal facility in El Cabril since 1992, while high-level radioactive waste is managed in on-site storage facilities at the nuclear power plants.

"Through an MoU with Spain's Enresa, we plan to expand the foundation necessary for promoting the corporation's future projects by sharing information on the treatment and disposal of decommissioning waste and the operation of an interim storage facility for high-level radioactive waste," the Korea Radioactive Waste Agency said.

The agency said that, through the MoUs, it will strengthen cooperation on issues including: the establishment of radioactive waste management policy and site selection process; and the treatment, transport, storage and disposal of radioactive waste.

"I sincerely hope that productive cooperation activities will be actively carried out based on these MoUs," said Korad Chairman Cho Seong-don. "In Korea, we will also work hard to promote management projects led by the corporation, starting with the enactment of the Special Act on the Management of High-Level Radioactive Waste."

First Zhangzhou unit begins supplying power

Thursday, 28 November 2024

Unit 1 of the Zhangzhou nuclear power plant in China's Fujian province has been connected to the grid, China National Nuclear Corporation has announced. The unit is the first of four Hualong One (HPR1000) reactors under construction at the site.

(Image: CNNC)

The reactor began supplying electricity to grid at 7.46am on Thursday, CNNC said, marking "major progress in the mass production of Hualong One by China National Nuclear Corporation, and makes new contributions to the optimisation of the national energy structure and the realisation of the 'dual carbon' goals".

It added: "A series of tests will be carried out as planned to further verify the performance of the unit to meet commercial operation conditions."

In May 2014, the local government gave approval for Phase I of the Zhangzhou plant, comprising two AP1000 units. The National Nuclear Safety Administration gave approval in December 2015 for the AP1000 units and confirmed site selection in October 2016. Construction of Phase I had originally been expected to start in May 2017. However, CNNC subsequently decided to use the HPR1000 (Hualong One) design instead. Two more Hualong One units are planned for Phase II of the plant and a further two proposed for Phase III.

Four units are now under construction at Zhangzhou (Image: CNNC)

Construction of Zhangzhou 1 began in October 2019, with that of unit 2 starting in September 2020.

In September 2022, China's State Council approved the construction of two further Hualong One units as Phase II of the Zhangzhou plant. First concrete for the nuclear island of unit 3 was poured on 22 February this year. First concrete for unit 4 was poured last month.

The Zhangzhou project - with a total investment of over CNY100 billion (USD14 billion) - is owned by CNNC-Guodian Zhangzhou Energy Company, a joint venture between CNNC (51%) and China Guodian Corporation (49%).

CNNC said the Zhangzhou plant is the starting point for the mass construction of Hualong One reactors and "is currently the world's largest Hualong One nuclear power base". It plans to construct a total of six Hualong One nuclear units at the site. Currently, four Hualong One units are under construction there. 

"At present, the total number of Hualong One units in operation and under construction at home and abroad has reached 33, making it the third-generation nuclear power technology with the largest number of units in operation and under construction in the world," CNNC noted.

Slovenia's GEN to intensify study of SMR options

Thursday, 28 November 2024

In the wake of the cancellation of a planned referendum on new nuclear in Slovenia, the Director General of GEN energija, Dejan Paravan, has said that alongside continuing work on the proposed JEK2 project they will also be seeking more detailed information from small modular reactor companies.

Roadshows have been held to explain the plans (Image: GEN energija)

Speaking at the Slovenian Association for Energy Economics conference at the University of Ljubljana, Paravan said that the company was continuing to prepare everything necessary for a final investment decision on the JEK2 project to be taken in 2028.

JEK2 is a plan for a new one or two-unit nuclear power plant, with up to 2400 MW capacity, next to Slovenia's existing nuclear power plant, Krško, a 696 MWe pressurised water reactor which generates about one-third of the country's electricity and which is co-owned by neighbouring Croatia. Prime Minister Robert Golob has committed to hold a referendum on the project before it goes ahead, and it had been due to be held on 24 November, before it was cancelled amid political differences. Golob's Freedom Movement said that there would still be a referendum, but it would now be later in the process, by 2028 at the latest.

At the conference, Paravan said that GEN remained committed to the project but "we cannot ignore what happened in the past months. For this reason, in addition to ongoing activities on the project, we will additionally intensify activities related to studying the possibility of using small modular reactors and ask key suppliers for detailed information".

He added: "The events of the past months have also shown the necessity of a professional and open discussion regarding the energy future of Slovenia, which is not based on emotions and takes into account the reality of possible alternatives, including the necessary interventions in space that these technologies require."

As part of the public information process ahead of the planned referendum, the option of small modular reactors (SMRs) at the JEK2 site had been considered, but it had been concluded that, given the timelines proposed for the project, SMRs were not considered suitable, compared with larger units. However, the assessment said that GEN would continue to monitor the development of SMR technology, noting that "the development of this technology is very dynamic, the promises of the providers are great" although the "technical and economic assumptions of SMR technology have not yet been proven in practice".

USA, Lithuania to cooperate on SMRs

Wednesday, 27 November 2024

US Secretary of Energy Jennifer Granholm and Lithuania's interim Minister of Energy Dainius Kreivys have signed an intergovernmental agreement to cooperate on the development of Lithuania's civil nuclear power programme, with a particular focus on the deployment of small modular reactors.

The signing of the agreement (Image: Lithuanian Ministry of Energy)

Lithuania's national energy independence strategy stipulates the country must become a climate-neutral economy by the 2050s. The Ministry of Energy says the decarbonisation processes will require a large amount of additional electricity – electricity consumption is expected to increase sixfold by the 2050s, from the current 12 TWh to 74 TWh. The highest growth in electricity consumption is expected between 2030 and 2040. The ministry says that in order to balance the growing consumption, as well as large amounts of wind and solar generation, new managed generation capacities will be needed. Therefore, the National Energy Independence Strategy and the National Energy and Climate Action Plan provide for assessment of the possible construction of fourth generation small nuclear reactors (SMRs) in Lithuania. Lithuania should decide on the construction of such reactors in 2028. 

The Lithuanian Ministry of Energy says the new cooperation agreement with the USA "provides that by then the United States will prepare a technology assessment report, which will include a market analysis of SMR technology, the risks of SMR technology and a life-cycle assessment of such a reactor installation, a siting analysis of new nuclear facilities, potential project financing arrangements and sources".

In addition to collaboration in the deployment of SMRs, the agreement envisions the exchange of experts to ensure the promotion of the highest standards of safety and security, the enhancement of physical and security for all civil nuclear facilities in Lithuania, and consultation regarding best practices related to decommissioning and fuel management and workforce development.

The ministry noted that the completed assessment will be used in the preparation of a report on the development of nuclear energy, predicting its development in the Lithuanian energy system, technological choice, operating model, opportunities for the local supply chain to participate in the project, necessary changes to the regulatory environment, public information and training of specialists, among other things.

"In order to make a competent decision on the development of the next generation of nuclear energy in Lithuania, we must fully assess the technical and financial possibilities of such a decision, and provide measures for managing possible risks - this agreement between the United States and Lithuania will serve this purpose," Kreivys said.

"Safe, clean and reliable civil nuclear energy will be a critical component of Lithuania's energy pathway," Granholm said. "The US remains committed to working with Lithuania to advance its national security, regional security, and democratic sovereignty."

The US Department of Energy (DOE) noted: "This agreement marks the first such intergovernmental framework led by the DOE with a specific focus on the deployment of fourth generation SMRs and represents a significant element of the United States' advancement of the development of clean, safe, and reliable nuclear power for partners and allies."

Lithuania agreed to shut down the two RBMK reactors at Ignalina as a condition of its accession to the European Union. Unit 1 was shut down in December 2004 and unit 2 in December 2009.

GLE acquires land for laser enrichment facility

Thursday, 28 November 2024

Global Laser Enrichment has acquired the land in Kentucky where it plans to build the Paducah Laser Enrichment Facility.

A conceptual rendering of the PLEF facility (Image: Silex Ltd)

The 665-acre (2.7 square kilometres) parcel of land was previously owned by the Commonwealth of Kentucky and managed by the Kentucky Department of Fish and Wildlife Resources. It was acquired by Global Laser Enrichment (GLE) through an agreement among the Commonwealth, Kentucky Department of Fish and Wildlife Resources, and the Paducah-McCracken County Industrial Development Authority. GLE entered into a set of agreements providing it with an option to purchase the plot earlier this year.

GLE is the exclusive global licensee of the SILEX laser-based uranium enrichment technology, which would be deployed commercially at PLEF. The project is underpinned by a long-term agreement signed in 2016 for the sale to GLE of some 200,000 tonnes from the US Department of Energy's inventory depleted uranium hexafluoride (DUF6) for re-enrichment to equivalent natural grade uranium hexafluoride. The DOE has a large inventory of the material - also known as tails - from the former operations of its first-generation gaseous diffusion enrichment plants.

The site acquired by GLE is adjacent to the DOE's former Paducah Gaseous Diffusion Plant, which closed in 2013. It provides access to the cylinder yard where the DUF6 tails inventories are stored, minimising transportation between the PGDP and the proposed PLEF plant.

DUF6 storage at the PGDP (Image: Silex Ltd)

GLE said it is currently on track to submit the environmental report for the plant to the US Nuclear Regulatory Commission in December and the licence application in the summer of 2025. The company's CEO Stephen Long said GLE is working towards a commercialisation decision "and maintaining our deployment target of no later than 2030."

The SILEX technology was developed by Australian company Silex Systems Ltd, which owns 51% of GLE, with the remaining 49% owned by Canadian company Cameco.

Silex CEO/Managing Director Michael Goldsworthy said the acquisition of the PLEF site is the result of "several years of dedicated efforts" from the GLE team with "considerable support" from the community of Paducah and the Commonwealth of Kentucky. The DOE tails inventory will underpin production of natural grade uranium hexafluoride at PLEF for up to 30 years, he said, with a production rate that will be "equivalent to a uranium mine with an annual output of up to 5 million pounds of uranium, which would rank in the top 10 of today's uranium mines by production volume."

 World Nuclear News

 

Above-Water Applications of Voith-Schneider Propulsion

Courtesy CycloTech

Published Nov 26, 2024 7:44 PM by Harry Valentine

 

The Voith Schneider propulsion system rotates on a vertical-axis and is well-proven in tug boat and ferry boat propulsion. A new-generation Austrian company has advanced that technology to rotate on a transverse-axis above water in aeronautical application, with capability for vertical lift-off. Their technology has possible application in wing-in-ground (WIG) vehicles that require vertical lift-off capability at land-based coastal terminals.

Introduction

The history of transverse-axis machinery in vessel propulsion predates the development of longitudinal-axis propellers. Side-wheel and stern-wheel propulsion technology evolved from waterwheels that had for centuries been installed along rivers to deliver mechanical power and proved quite successful in early riverboat operation. Side-wheel propulsion technology proved to be problematic in ocean operation when waves caused vessels to roll, alternately lifting one of the side-wheels above water and affecting vessel directional control. During the early 20th century, several aircraft developers attempted to adapt transverse-axis technology to airplane propulsion, with limited success.

While inventor Ernst Schneider intended to develop a turbine for hydro-electric power dams, the Voith group sought to adapt Schneider’s concept to operate as a water pump. By 1931, the water pump had been developed into a propulsion system for a ferry vessel that sailed on Lake Constance. During early 1960s, designers developed a horizontal-axis version of the Voith Schneider technology to operate on aircraft. Many decades later in Austria, designers at the Cyclo Tech group in Austria adapted modern, lightweight high-strength material to operate on a transverse-axis, in aeronautical propulsion and with prospects for future success.

Applications Above Water

The original intention by Ernst Schneider was to operate the rotary technology as a turbine. In this modern era, there may actually be potential to adapt Schneider’s concept to operate as a vertical-axis wind turbine, installed above the deck of a boat. The design allows the blades to change angle with respect to direction of fluid flow, in turn reducing the parasitic drag that is inherent in vertical-axis wind turbines. It is a concept that needs to be tested to determine whether is could efficiently activate a marine propulsion system and enable a vessel to sail into a headwind.

The transverse-axis aeronautical propulsion system offers the combination of vertical lift-off, tough-down and propulsion. It has potential application in ground effect vehicles that due to coastal wave conditions at numerous coastal locations internationally, could be designed to touch down on and lift off from land-based coastal terminals. The transverse-axis propulsion is system is compatible with ground effect wings. A forward mounted propulsion system would direct a rearward flow of air to move at low elevation directly under the ground-effect wings. Companion rear propulsion assemblies would provide a greater percentage of forward thrust.

Flying Car

Cyclo Tech of Austria is focused on developing a flying car that uses forward and rear transverse-axis propulsion assemblies based on the Voith Schneider concept adapted to aeronautical service. It is a technology that could ferry small groups of passengers between the deck of a ship anchored offshore and a coastal location, or between a ship sailing parallel to a coastline and a shore-based location. The Cyclo Tech flying car could carry ship pilots to and from the deck of a moving ship during rough sea conditions, when transfer of pilot between small boat and large vessel is problematic.

The inclusion of ground effect wings into the design of the Cyclo Tech flying car would extend its operating range across water, such as carrying passengers to and from the deck of an offshore drilling platform. The vertical lift-off and touch down capability of the Cyclo Tech vehicle enhance its attractiveness as the technology to carry ship pilots to and from the decks of vessels, or personnel to and from the land pad of an offshore platform. There may be a market for large commercial versions of the technology capable of carrying 12-people between land and offshore locations.

Future Development

While Cyclo Tech has undertaken a considerable amount of research and development into adapting the Voith Schneider propulsion system to aeronautical application, their version of the flying is a prototype with much potential for future development. The growth of airline travel at overcrowded airports provides market opportunity for a vehicle with vertical lift-off and touch-down capability, at small terminals that involve limited space. A large-scale wingless version of the technology could carry passengers over short distances across land while a winged, large-scale variant could be developed to travel over extended distances above water a water surface.

There is likely potential to increase the diameter and width of the rotors, with the option of developing a vehicle with 3-pairs and even 4-pairs of rotors spaced along a fuselage that might also include forward and rear ground-effect wings. A ground-effect winged version of the technology might feature partially enclosed rotors with variable area outlet, to increase air exit speed that would in turn increase vehicle travel speed above water. Vectored thrust that redirects the air stream would assure vertical lift-off and touch down at land-based coastal terminals that offer limited space for vehicle acceleration and deceleration.

Conclusion

The work undertaken by Cyclo Tech of Austria has greatly advanced the concept of adapting maritime-based vertical-axis propulsion technology for the combination of transverse-axis lift-off, touch down and propulsion involving aeronautical technology. As a matter of coincidence, their technology also has potential involving maritime vehicles that travel just above the water surface, using ground effect wings. There is much potential to develop the Cyclo Tech concept to ground effect vehicle application, to provide extended operating range and higher speed capability above a water surface, perhaps involving a vehicle built with the combination of forward and rear ground-effect wings.

Ernst Schneider originally envisioned the vertical-axis technology converting energy at a hydro-electric power dam, except staff at Voith envisioned the technology as a water pump with possible vessel propulsive application. The may be potential to develop a vertical-axis wind turbine based on Ernst Schneider’s original concept, for testing on the deck of a wind-powered vessel where the wind turbine drives an underwater propulsion system. So far, people such as New Zealand engineer Jim Bates, Canadian physics professor Brad Blackford and British researcher Peter Worsley have built wind-powered vessels with horizontal-axis wind rotors, that have sailed directly into headwinds.

The opinions expressed herein are the author's and not necessarily those of The Maritime Executive.

 

KR's Latest Decarbonization Magazine Reveals Key Decarbonization Insights

Published Nov 27, 2024 12:22 PM by The Maritime Executive

[By: Korean Register]

KR (Korean Register) has released insightful analysis of Carbon Intensity Indicator (CII) ratings across its fleet in the fall edition of KR Decarbonization Magazine, offering crucial insights for maritime companies navigating the industry's green transition.

First launched in 2022, the KR Decarbonization Magazine is a quarterly publication designed to provide clients with timely insights into decarbonization strategies. The magazine aims to assist the maritime sector in navigating increasingly stringent greenhouse gas regulations introduced by the International Maritime Organization (IMO) and the European Union (EU).

The latest issue provides an in-depth analysis of CII ratings across KR-classed vessels, revealing industry-wide decarbonization trends. It also includes a comprehensive overview of cutting-edge advancements in liquefied hydrogen carriers.

The issue features an exclusive interview with HD Hyundai Heavy Industries' Executive Vice President RHEE Sangkee on the development of ammonia-powered vessels. RHEE outlines the significant technical advances in ammonia engine development, safety protocols, and exhaust gas aftertreatment systems. His insights provide shipping companies with essential guidance on ammonia's viability as a marine fuel, including key considerations for vessel operations, current development milestones, and future implementation timelines. The interview offers valuable perspectives for maritime stakeholders considering ammonia-powered solutions as part of their decarbonization strategy.

SONG Kanghyun, Head of KR’s Decarbonization and Ship R&D Center, commented, “With the IMO’s mid-term measures advancing rapidly, as seen at the 28th MEPC meeting, the time has come for the industry to adopt practical and actionable strategies. KR remains committed to supporting the maritime industry in addressing the decarbonization challenges through proactive and innovative approaches.”

The full magazine is available on the dedicated KR Decarbonization Magazine website (http://kr-decarbonization.co.kr) or through the KR official website (www.krs.co.kr).

The products and services herein described in this press release are not endorsed by The Maritime Executive.

Auramarine and Quadrise Join Forces to Support Maritime Decarbonisation

(Left) John Bergman, CEO of Auramarine & (right) Jason Miles, CEO of Quadrise

Published Nov 27, 2024 12:44 PM by The Maritime Executive

 

[By: Auramarine]

Auramarine Ltd., the leading fuel supply systems pioneer for the marine and other industries and Quadrise Plc, the supplier of innovative clean energy solutions have announced a collaboration agreement to develop innovative solutions that will support maritime decarbonisation The purpose of the co-operation is to leverage the expertise of both companies in emulsion fuels, biofuels and fuel supply systems, providing innovative solutions for marine customers that support them in meeting decarbonisation and sustainability targets.

Quadrise will provide its expertise in MSAR®; (Multiphase Superfine Atomized Residue) and bioMSAR™ fuels. MSAR®; is a more environmentally friendly emulsion fuel that offers a lower-cost and is a cleaner alternative to heavy fuel oil (HFO) used in the marine and power generation industries. The Quadrise oil-in-water emulsion technology blends residual oils, water and additives to create a lower cost synthetic fuel oil that is more efficient. bioMSAR™ is the renewable biofuel version of MSAR®; incorporating sustainable components such as water-based glycerin and other lower-cost biofuels.

Auramarine will provide its expertise in designing and installing fuel supply systems (including Quadrise’s blend-on-board technology) for the conversion of marine vessels to support the use of Quadrise fuels. Auramarine’s vast experience in retrofits and modular fuel supply systems will enable it to find markets for Quadrise’s fuel technology on a wider scale and across multiple vessel types. Auramarine’s retrofit solutions do not require dry docking which makes implementation easier and more efficient, which provides further value to ship owners.

As part of the co-operation, Quadrise and Auramarine will work together to combine their resources and networks, jointly developing and promoting new sales opportunities that offer a comprehensive value proposition to the shipping industry to help them comply with new environmental regulations.

Commenting on the development, John Bergman, CEO of Auramarine, said: "We are pleased to announce this collaboration agreement with Quadrise, who are driving a positive shift in the marine sector with their proven emulsion technology to improve efficiency, lower emissions and supply new sustainable fuels. The current uptake of future fuels needs to be accelerated to meet decarbonisation targets within the maritime industry and new, viable innovations are essential to delivering this. By combining our strengths and expertise, we are confident that this partnership will drive further innovation and create significant value for our customers and other stakeholders.”

Jason Miles, CEO of Quadrise, continued: "We are delighted to sign this collaboration agreement with Auramarine, who have extensive experience and an enviable track record in the design, supply and servicing of fuel systems for conventional and future fuels. This collaboration is in line with our strategy of working with new channel partners to decarbonise shipping, adding the necessary expertise, network and resources of Auramarine in marine fuel systems to accelerate the implementation of MSAR®; and bioMSAR™ fuel conversions globally."

The products and services herein described in this press release are not endorsed by The Maritime Executive.

Value Group New €2 Million Investment from Energy Transition Fund Rotterdam

Installation of the Filtree System at the VM quayside in Rotterdam

Published Nov 27, 2024 10:09 AM by The Maritime Executive

 

[By: Value Group]

Rotterdam-based sustainability innovator Value Group (Value Maritime and Value Carbon) announces that it has secured Energietransitiefonds Rotterdam (‘ETF-R’) as an investor. The fund’s investment will drive the further development of the Value Hub for CO2 offloading and processing in Rotterdam. The technology captures CO2, stores it, and allows it to be effectively reused or stored elsewhere. In the Port of Rotterdam, the maritime industry benefits from emissions reduction enabled by the technology.

Carbon care
Value Maritime, part of the Value Group, is the innovative developer and installer of one of the first commercially viable hybrid CO2 capture and exhaust gas cleaning systems, known as Filtree. This system not only captures and stores CO2 but also cleans sulphur, ultra-fine particulate matter, and CO2 from ships’ exhaust emissions as well as oil residue and particulate matter from the vessels’ washing water. As a result, the Filtree System supports compliance with current and future environmental regulations.

The key to the Filtree System is its integrated carbon capture feature which allows ships to store the CO2 they collect onboard in dedicated fixed tanks or non-fixed battery containers. These onboard storage facilities can then be sustainably offloaded in port for reuse or further storage, managed by Value Maritime’s sister company, Value Carbon.

Value Group Co-Founder and Director Maarten Lodewijks says, “With InnovationQuarter as a new shareholder, Value Group gains a strong strategic partner to accelerate the development of our Value Hub in Rotterdam for CO2 offloading and processing. This partnership not only strengthens the realisation of this Value Hub as a blueprint for future Value Hubs but also drives the ongoing expansion and innovation of our patented Carbon Capture technology.”

Accelerating CO2 handling
With ETF-R’s €2 million investment and further active support from InnovationQuarter, Value Group aims to accelerate the development of its Value Hub in Rotterdam. The Value Hub will manage the CO2 offloading from ships and ensure efficient, sustainable processing.

Meanwhile, a pilot programme in Westland greenhouses demonstrates the technology's practical application. Captured CO2 is released during the day to enhance photosynthesis and plant growth, showcasing a sustainable solution for agriculture.

InnovationQuarter/ ETF-R Senior Investment Manager Reinaud Struycken says, “We are very happy to be able to invest in a sustainable company that supports the reduction of CO2 emissions in Rotterdam and beyond. Their innovative 'catch & release' technology perfectly aligns with our vision for a cleaner and more sustainable Rotterdam. They serve as a prime example of how carbon capture and storage technology can benefit this and other sectors. ETF-R is looking forward to helping Value Group grow.”

Value Group
The Value Group unites two innovative sister companies—Value Maritime and Value Carbon—working together to drive decarbonisation across shipping and industry.

Since 2017, Value Maritime has been at the forefront of maritime sustainability, helping dozens of shipowners and operators boost competitiveness through significant emissions reductions and cost savings. Its cutting-edge technology is designed to reduce the environmental footprint of shipping, contributing to a more sustainable future for the entire maritime industry. The goal is to help transform the way the sector operates, combining cleaner solutions with tangible financial benefits.

Meanwhile, Value Carbon focuses on land-based carbon management, addressing the entire carbon value chain. From carbon capture and handling to innovative reuse strategies, it aims to create efficient systems for storage and “catch and release” initiatives, all with a focus on generating both environmental and financial dividends. Together, the mission is clear: to help our clients achieve valuable emission reductions through sustainable, innovative technologies, backed by a team that is committed to making a real impact.

Rotterdam Energy Transition Fund
The ‘Energietransitiefonds Rotterdam’ is a €100 million investment fund of the City of Rotterdam. The fund finances innovative companies and large sustainable projects that can contribute to Rotterdam's energy transition and circular economy. With the fund, the city aims to reduce CO2 emissions, improve air quality and reduce the use of raw materials. InnovationQuarter acts as fund manager for the Rotterdam Energy Transition Fund.

InnovationQuarter
InnovationQuarter is the regional economic development agency for South Holland. InnovationQuarter manages funds worth more than €300 million. We finance disruptive startups and scale-ups that contribute to a cleaner, smarter, and healthier world. High risk, but also high impact.

The products and services herein described in this press release are not endorsed by The Maritime Executive.

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Trump Picks Investment Manager John Phelan as Next Navy Secretary

The first Trump administration had seven Navy secretaries, a record in the history of the post. 

John Phelan (right) and his wife Amy with fellow philanthropists at the Palm Beach Police Fire and Rescue Ball at Mar-a-Lago (Palm Beach Police & Fire Foundation)

Published Nov 27, 2024 6:35 PM by The Maritime Executive

 

 

President-elect Donald Trump has selected investment manager John Phelan to be the next Secretary of the Navy, replacing former surface warfare officer and shipbuilding reform advocate Cmdr. Carlos del Toro (USN, ret'd). 

"It is my great honor to announce John Phelan as our next United States Secretary of the Navy!" Trump said, in a statement. "John will be a tremendous force for our Naval Servicemembers and a steadfast leader in advancing my America First vision."

According to Politico, other candidates who were considered but not selected included former Navy aviator Rep. Mike Garcia (R-CA) and former Navy doctor Rep. Ronny Jackson (R-TX), Trump's personal physician during his first term in office. 

Phelan is a career-long investment manager who made his fortune running tech executive Michael Dell's personal fund, MSD Capital. In June 2022, during MSD's restructuring, Phelan stepped down from his post as its CEO and chairman "to focus on his personal investment and philanthropic interests." He went on to launch his own investment firm, Florida-based Rugger Management.

Phelan is known as a collector of contemporary art, a conservative political donor and a philanthropist. He and his wife reportedly split their time between homes in Palm Beach and Aspen, and he has been spotted before at Trump's private club in Palm Beach, Mar-a-Lago. Phelan is a Florida native, an avid fisherman, and a member of boards or committees at the Aspen Art Museum, the Whitney Museum, the Museum of Modern Art, the Fish & Wildlife Foundation of Florida and the CIA-focused Third Option Foundation. 

Phelan played a widely-reported role in raising financing for the Trump 2024 presidential run. Earlier this year, he hosted Trump for a headline-grabbing campaign fundraiser at his Colorado home, charging entry fees of $25-500,000 per couple. 

Phelan has no prior experience in the military, the public sector or the defense industrial base. He will be the only Secretary of the Navy since at least the Second World War to take the role without previous participation in the national defense establishment, whether in uniformed service, congressional oversight, political leadership or private-sector manufacturing.  

"It might help that he has a personal relationship with the president. However, his lack of experience in defense and the Pentagon will hurt the Navy," CSIS adviser Mark Cancian told the Washington Post, noting that the Navy is starved of funding and will need politically influential leadership in order to build up its fleet. “It will take him a while to learn the levers of power.”

Phelan's nomination will require approval by the Senate, and he will serve at the pleasure of the president. The first Trump administration had seven Navy secretaries, a record in the history of the post.