New Energies, new possibilities

Dublin, Aug. 05, 2020 (GLOBE NEWSWIRE) -- ResearchAndMarkets.com published a new article on the fuel cells industry "More Companies Look to Hydrogen Fuel Technology as Alternative to Fossil Fuels"

The cost of producing hydrogen fuel cells has fallen significantly in recent years and analysts predict that if this trend continues hydrogen fuel cells could become a viable alternative to diesel generators as well as having applications in the automotive, grid storage and logistics sectors.

Several companies such as Plug Power and Ballard Power Systems are developing hydrogen fuel cells for forklifts, buses and ships while Bloom Energy expects to make its new solid oxide electrolyzer available in 2021. Electrolyzers have the ability to split water into hydrogen and oxygen atoms and could provide a clean and plentiful source of hydrogen fuel.

Microsoft announced on Monday that it successfully used hydrogen fuel cells to power a row of data center servers for 48 hours. This could help to bring the company closer to its goal of becoming carbon neutral by 2023. The BMW Group will pilot its second generation hydrogen fuel cells in the BMW i Hydrogen NEXT from 2022. While Pacar has recently announced that it will test 10 hydrogen fuel cell trucks with customers in the Port of Los Angeles early next year.

To see the full article and a list of related reports on the market, visit "More Companies Look to Hydrogen Fuel Technology as Alternative to Fossil Fuels"

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https://www.globenewswire.com/news-release/2020/08/05/2073060/0/en/Hydrogen-Fuel-Technology-Gaining-Momentum-2020-and-Beyond.html

After the all-electric Model S sedan paved the way for battery-powered SUVs and crossovers, it was only a matter of time before pickup trucks would come along to share the spotlight. Rivian’s R1T hit the ground running for a while, but Tesla’s Cybertruck unveil officially started the race for worksite hauling and adventure with zero emissions. Nikola Motors later followed up with its own truck – the Badger – powered with hydrogen fuel cells.

How all of these vehicles will do with consumers is the question on everyone’s mind now, and the team at PartCatalog.com has put together some Twitter data to help predict the answer.

Using Twitter’s geospatial metadata made available to developers and Google’s Trends software, PartCatalog created a color-coded map showing the most anticipated electric truck in the US in a state-by-state breakdown. Over 90,000 tweets were tracked for the project, using hashtags and models mentioned as data drivers. Specifically, tagged location, mentioned location, and profile location formed the basis of the state determinations.

The results were quite interesting.

Altogether, Rivian’s R1T was the top-mentioned zero-emissions pickup in 17 states, Tesla’s Cybertruck in 15 states, and Nikola’s Badger in 13 states. Bollinger’s B2 made a splash with 4 states, and Lordstown’s Endeavor picked off 1 state. The results look to be a bit regionalized with Rivian drawing chatter in the north-central and northeastern parts of the US, Nikola in the south and southwest, and Tesla making headway right through the middle on a diagonal course.

These results could be based on a variety of reasons aside from consumer preferences for vehicle styling and capabilities. Company location is another factor to consider. For instance, the Lordstown Endurance was most mentioned in Ohio only, which is also the state where the company is headquartered. Tesla’s popularity in California comes as no surprise given it’s the auto maker’s home state and has become a world leader in all-electric vehicles. However, it’s interesting that Nikola’s Badger is most discussed in Texas, given Tesla’s recent Cybertruck factory competition, which ended in a win for the Lone Star state.

(Credit: Trevor Milton/Twitter)

Credit: Rivian

(Credit: Tesla Cybertruck/Instagram, Ford)

Nikola’s home base is now in Arizona, likely playing a role in its data findings there, but its popularity has also reached upwards to Massachusetts and Pennsylvania. The oil industry in Pennsylvania could play a role here, being that Nikola’s primary customer focus is the trucking industry and converting its diesel-focused world to cleaner fuel cells. Massachusetts, though, doesn’t have the same expectation given its environmental efforts overall.

The conversation surrounding electric pickup trucks is likely to become even more diverse as more prominent players get into the game. As more details about Ford’s battery-powered F-150 are revealed, some, if not all, of the other truck makers may see their popularity have more competition. The connection between Rivian and Ford, namely the $500 million investment made into the nascent manufacturer that was recently semi-canceled, may also have some interesting playout.

Of course, having at least one electric truck delivered to customers will be the most relevant measure of their opinions, and next year looks to be the earliest we’ll see that happen.

https://www.teslarati.com/tesla-rivian-nikola-market-share-map/

DOE awards Cummins $7M for work on H2 fuel cell viability in transportation sector

On-site power giant Cummins received two federal awards totaling nearly $7 million for its research into the viability of hydrogen fuel-cell powertrain solutions.

The U.S. Department of Energy’s Office of Energy Efficiency and Renewable Energy tabbed Cummins to help lead projects in the DOE’s H2@Scale initiative to develop affordable hydrogen production, storage, distribution and use. The company’s work with public and private partners focused on fuel-cell powertrains for heavy-study applications including on-highway tractor-trailers and buses.

“Programs like “H2@Scale” are essential to gain the scale and investment needed that will lead to faster adoption of hydrogen fuel cell technologies,” said Amy Davis, President New Power, Cummins Inc. “The work we are doing with the DOE and our partners will help improve cost and operational performance of hydrogen fuel cell technologies to achieve greater parity with other available power solutions. We are looking forward to moving this technology forward and bringing additional hydrogen products to our customers.”

The first award for approximately $3.5 million is for the development of an integrated fuel cell electric powertrain for heavy-duty trucks and transit buses with operational performance and total cost of ownership that supports near-term, rapid, and substantial penetration of the truck and bus market. This includes development of a solution that is highly manufacturable and scalable with a proven range of 300 miles or more and improved fuel economy over current heavy-duty trucks and transit buses.

Other objectives include achieving, meeting or exceeding conventional diesel powertrain performance requirements and reducing the upfront capital costs by 35 percent to make the adoption of zero-emission fuel cell technologies viable for commercial fleets.

See more PE’s coverage on hydrogen!

The second award for $3 million is to develop and validate a high pressure, modular, 100 kW proton exchange membrane (PEM) fuel cell stack and system to power heavy-duty applications. The objective is to optimize the fuel cell stack for efficiency, power density, space and cost for operation at or above 100°C that can achieve a minimum operating time of 25,000 hours and achieve $80/kW in volume production, which is necessary to make the stacks economically viable in the U.S. The fuel cell stack components will be developed and prototyped in the U.S. to encourage continued investment in this technology and increase scalability.

Cummins’ New Power segment, which combines the company’s investments in electrified powertrains, fuel cells and hydrogen production technology, completed its first full year in 2019. Last year, Cummins acquired Canada-based Hydrogenics Corp., which provides fuel cell and hydrogen production technologies, for about $290 million.

Indiana-based Cummins is one of several traditional gas or diesel-fueled generation firms globally increasing their stake in a potential hydrogen future. The gas must be created from the electrolysis process, but hydrogen does not emit carbon dioxide when burnt, unlike coal or natural gas.

Mitsubishi Hitachi Power Systems, MAN Energy Solutions and Siemens are among those firms working on hydrogen powered solutions at both utility and distribution scale.

https://fuelcellsworks.com/news/cummins-adds-to-its-fuel-cell-leadership-receives-two-us-department-of-energy-awards-for-hydrogen-fuel-cell-powertrains/

Industry attendees at a recent Riviera webinar on hybrid and electric propulsion uptake said they expect to see widespread adoption of hybrid electric power systems in shipping within the next five years

The poll result came from the ’Business Case for Hybrid and Electric Technology in Asia’ webinar, part of Riviera Maritime Media’s Maritime Hybrid, Electric and Fuel Cells Webinar Week. The webinar series was supported by Navtek Naval Technologies, maritime technology provider ABB Marine & Ports and class society ABS.

Panellists included ABB Marine & Ports research and development manager Ricky Chan, ABS senior principal engineer Lui Chih Wei, and Navtek Naval Technologies general manager Ferhat Acuner.

ABB Marine & Ports is at the forefront of developing this technology. In a statement of intent for the sector, Mr Chan said, “At ABB, we believe the next generation of vessels will be electric, digital and connected.”

He noted that the shortsea sector was particularly suited to using electric vessels powered via batteries, fuel cells or a combination of these technologies. The digital side of the technology uses sensors and cameras to update the digitalised information flow to the captain, crew and the operator ashore.

This near-term outlook of electric vessels includes a degree of automation. The connectivity will include the human element although the decision making will be supported by powerful computers running artificial intelligence and algorithms. “Humans will remain at the centre of the operations, to oversee and give commands when needed,” said Mr Chan.

A key point in the ABB Marine & Ports view of the near future is a dramatic reduction in emissions through using electric power via batteries storing electricity generated from renewable sources. Mr Chan noted, “A pure electric vessel is simpler compared to its diesel counterpart, it is more efficient, more flexible in terms of equipment layout and arrangements. For instance, electric ships do not need the lubrication and fuel tanks in the same magnitude as a diesel powered ship. Vessel designs will be more optimised towards the purpose they are serving.”

This was a point reflected in Mr Lui’s presentation. He illustrated the solutions available with two case studies: Seacor Maya and Harvey Energy. The retrofit installation of lithium batteries to the OSV Seacor Maya relied on ABS’ involvement. The conversion of Seacor Maya secured a nomination in the 2019 Hybrid Power & Propulsion Award. Dual-fuel engines and modular batteries are key features of Harvey Energy.

Mr Lui noted, “Using all-electric vessels for the shortsea sector is the ‘low-hanging fruit’. Firstly, it is technically feasible, secondly, being close to shore is close to its support network,” he said. The advantage of the switch to an all-electric vessel is immediately visible in a port in Asia from reduced pollution and better air quality.

Navtek Naval Technologies has developed a range of zero-emissions electric tugs, the Zeetug series. Mr Acuner said, “As far as I am aware, this is the most powerful all-electric tug boat with approximately 2,000 Kw of electric power with two electric motors on board.”

As a totally electric vessel, the Zeetug is estimated to save 210 tonnes of CO2 and 9 tonnes of NOx per year compared to the equivalent traditional tug boat, according to Navtek. The all-electric tug draws all its power from two 1,450-kW lithium-ion battery packs supplied by Corvus Energy. For safety, the tug has two redundant battery rooms, one fore and one aft, maintained at a constant temperature by a cooling system.

Navtek’s experience with all-electric tugs highlights one of the aspects touched on by Mr Chan: the all-electric vessel should be custom designed to optimise the operational benefit. “For this particular project, we (Navtek) studied five tugboats and their operations from five years of data to create an operational profile,” said Mr Acuner. The four key operational aspects were: How often does the tug operate? How long is each operational period? What is the typical distance sailed? What are the power requirements for each operational period?

Polls

Polls taken during the webinar clearly showed the high degree of interest among delegates in adopting hybrid or electric power. Some 65% of respondents said they agreed with the statement “the industry will see wide-spread adoption of hybrid electric power systems in the medium term (5 years from now).

But cost is the main issue. The main factor stopping embarking on hybrid-electric power systems was capital expenditure costs (75%) and doubts on the efficacy of the technology (18%) although crew training and safety concerns were also an issue.

The drivers behind a move to adopting hybrid electric systems were a reduction in emissions (32%) and operational cost savings (25%). There was also some interest (10%) in government incentives with the remaining delegate votes focused on the new technology aspect.

Key takeaways

Mr Chan: “One of my key takeaway points from the presentation is that to realise this vision of zero-emissions shipping is that we need to work together. We need to look at the ecosystem in a holistic manner. That means from a technology provider, infrastructure, regulation and class. This includes government bodies as well as people from the operational perspective.”

Mr Lui: “We know that certain operational efficiencies and technologies will get shipping past IMO 2030. To meet IMO 2050 will require alternative fuel and some kind of decarbonisation technology which does not exist yet. However, going forward hybrid and electric power will have a big part to play, regardless of the direction the industry might take.

Mr Acuner: “The near future is very strong on electric power systems. Many ships will be of a rechargeable electric nature sooner than many people expect. Vessel and port operators should give priority to considering rechargeable electric facilities, energy storage facilities and so on. Engineering companies will play a vital role in this process.”

You can view the webinar, in full, in our webinar library.

And you can sign up to attend our upcoming webinars on our events page.

https://www.rivieramm.com/news-content-hub/high-expectation-of-medium-term-adoption-of-hybrid-and-electric-propulsion-60420