Join day by day information updates from CleanTechnica on electronic mail. Or comply with us on Google Information!
The US Military has been demonstrating a flexible new zero emission hydrogen gas cell electrical rescue truck, able to going 1,500 miles earlier than it wants a refill. The one factor lacking is inexperienced hydrogen to recharge the tanks with renewable gas. That can be within the works, within the type of a stumpy little solar-powered electrolysis machine on wheels. Although nonetheless within the prototype part, the brand new cell hydrogen generator may have an outsized impression on army operations in distant places.
A Gas Cell Electrical Rescue Truck For The US Military
Gas cells produce electrical energy from a chemical response between hydrogen and ambient air, shepherded by a catalyst. Water is a byproduct of the response. Aside from that, gas cell electrical automobiles are emission-free.
The Division of Protection has been cautious about incorporating electrical automobiles of any kind into its procurement net, whether or not they go on battery energy or gas cells. Nonetheless, exercise in each areas has been ramping up in recent times. Other than being emission-free, EVs have a silent working benefit over inner combustion engines and so they assist the Protection Division’s local weather motion objectives.
The brand new H2Rescue gas cell truck started as a brainstorming train 5 years in the past, aimed toward enhancing the Military’s pure catastrophe and emergency response capabilities. “When we came up with the idea, there [were] the California wildfires going out west, there were a couple of hurricanes in the southeast and we knew that big swaths of the U.S. were having these natural disasters [and] that customers didn’t have power, water and were just devastated,” explains the technical lead on the mission, Nicholas Josefik.
H2Rescue remains to be within the prototype part, with a driving vary of about 1,500 miles. That’s spectacular, however it’s not the one use for the gas cells. An article posted on the US Military web site gives extra particulars utilizing the instance of a 180-mile journey to an emergency response staging space. As soon as there, H2Rescue can deploy its gas cells to supply the equal of energy, warmth, and water for 15 houses over a interval of three days. That features offering stationary energy for its personal programs, enabling it to function a warming or cooling middle in addition to a cell command middle.
The Benefits Of A Gas Cell Car
The water contribution might be substantial. The Military estimates that one full tank of hydrogen can allow H2Rescue’s gas cells to supply 200-400 gallons of water as a byproduct.
The Military started staging H2Rescue discipline demonstrations across the US final 12 months. Subsequent steps embody purifying water from the gas cells, so it may be used for human consumption.
The long run aim is to introduce a gas cell car in assist of troopers within the discipline, constructing on classes discovered from H2Rescue. Other than reducing down on noise and air pollution from diesel gear at ahead working bases, Josefik notes that gas cells simplify the logistics net.
In distinction to bringing in diesel turbines and gas tankers underneath an ICE car state of affairs, a gas cell truck provides a compact, multi-use package deal. “It could be applied in the forward operating base because instead of having to bring in those three different pieces of equipment, now you drive your vehicle to the location and your vehicle is your power generator,” Josefik explains.
What About The Hydrogen?
By way of the Protection Division’s local weather motion objectives, the issue is the provision chain for the hydrogen that goes into gas cell automobiles. Hydrogen is a broadly used industrial enter, however in the interim, the worldwide hydrogen market depends upon extraction from pure fuel, with coal additionally taking part in a task.
Some fossil power stakeholders intention to wedge fossil-sourced hydrogen into the class of “clean hydrogen,” with the assistance of carbon seize programs. Good strive. In the meantime, stakeholders within the rising inexperienced hydrogen discipline are betting that water electrolysis would be the foundation of a sustainable provide chain (see extra inexperienced hydrogen background right here).
Getting the price of inexperienced hydrogen all the way down to parity with fuel or coal is the problem. Nonetheless, price is just not the be-all and end-all for army functions. Getting the precise gas on the proper time is a precedence. Electrolysis programs can run on water and renewable power scavenged regionally, which is a major benefit in comparison with the traditional hydrogen provide chain.
Earlier this 12 months, CleanTechnica caught wind of a Protection Division gas cell and inexperienced hydrogen microgrid mission at at Joint Base Pearl Harbor-Hickam in Hawaii. Placing a scaled-down solar-powered electrolysis system on wheels and hauling it round to distant places to generate inexperienced hydrogen for gas cell automobiles is one other space of exploration.
The US companies NovaSpark Power and Zephyr Flight Labs have been engaged on one such cell inexperienced hydrogen mission underneath the wing of the Pentagon’s Protection Innovation Unit (DIU), with the intention of producing gas in “austere and isolated environments.”
“Leveraging hydrogen fuel cells gives operating forces new capabilities. These include longer flight and drive ranges, less electronic signature, lower maintenance requirements, higher energy resilience, and, most importantly, reduced dependence on fuel supply chains, which are vulnerable to disruption in contested logistics environments,” DIU defined in a press launch earlier this 12 months.
One Step Nearer To A Tactical Gas Cell Electrical Car
In case you caught that factor about drive ranges, that’s fascinating. Tactical gas cell electrical automobiles have been effervescent underneath the floor over on the Protection Division, however it seems that DIU is already anticipating a breakthrough. DIU contains tactical automobiles in its record of potential makes use of for inexperienced hydrogen at distant places. Unmanned aerial programs, balloons, and different gear are additionally on the record.
Regulate Common Motors, too. The corporate started its gas cell journey all the best way again in 1966 with the Electrovan. By way of car electrification, gas cells have taken a again seat to battery EVs, however GM is among the many automotive stakeholders anticipating that gas cells will finally discover a foothold.
The technique suffered a setback in 2020 after GM attached with gas cell truck maker Nikola, which promptly ran right into a brick wall of scandal. Now it seems that GM is again on observe. In 2021, the corporate’s Hydrotec division started collaborating with the worldwide agency Liebherr on a hydrogen-fueled plane mission.
GM has additionally been working with the agency Nel ASA to assist push down the price of inexperienced hydrogen. This holistic fuel-to-vehicle technique builds on GM’s ongonig efforts to enhance entry to battery EV charging and renewable electrical energy.
This 12 months, GM and Nel have been creating a gas cell truck and inexperienced hydrogen microgrid pilot mission funded by the SuperTruck 3 program of the US Division of Power, so keep tuned for extra on that.
Observe me by way of LinkTree, or @tinamcasey on Threads, LinkedIn, and Instagram.
Photograph (cropped): The US Division of Protection is creating nimble, cell inexperienced hydrogen turbines for gas cell electrical automobiles, plane, and gear in distant places (prototype picture courtesy of Zephyr Flight Labs).
Have a tip for CleanTechnica? Wish to promote? Wish to counsel a visitor for our CleanTech Speak podcast? Contact us right here.
Newest CleanTechnica.TV Movies
CleanTechnica makes use of affiliate hyperlinks. See our coverage right here.
CleanTechnica’s Remark Coverage
FB.AppEvents.logPageView();
};
(function(d, s, id){ var js, fjs = d.getElementsByTagName(s)[0]; if (d.getElementById(id)) {return;} js = d.createElement(s); js.id = id; js.src = "https://connect.facebook.net/en_US/sdk.js"; fjs.parentNode.insertBefore(js, fjs); }(document, 'script', 'facebook-jssdk'));