backtop


Print 17 comment(s) - last by shiftypy.. on May 11 at 7:56 AM


A U.S. Marine uses a solar charger to power up some of his gadgets.  (Source: AP Photo)
Solar rechargers cut batteries, let marines carry less weight and more bullets

While most alternative energy advocates and critics focus their attention on macro-solar power -- vast fields of panels or collecting dishes -- there has also been a lot of recent growth in micro-solar power (using solar cells to recharge portable devices).

The U.S. Marines has just completed a test of new solar-powered gear in the field in Afghanistan.  The new equipment was trialed by India Company, a component of 3rd Battalion, 5th Marine Regiment.  The test lasted three weeks and took the company through Sangin, one of the deadliest regions in southern Afghanistan.

I. A Deadly Dependency

Today the U.S. military is unmatched in terms of destructive power and killing efficiency.  But the technology involved giving that kind of performance mandates lengthy (and vulnerable) supply chains and overburdened troops.

Batteries alone take up 20 percent of the 100-pound load the average Marine carries in the field.  And fuel also accounts for a significant amount of the load.  Soldiers use a portable generator to power their laptops and other electronics in the field.  A soldier today uses four times the fuel they did in the early 1990s.

The high fuel demand from deployed troops requires a constant supply train of fuel trucks.  It is estimated that 30 percent of all fuel transported into Afghanistan goes to powering the U.S. military.  And many of the military fatalities have arisen from fuel trucks hit by the improvised explosive devices (IEDs) used by local militants.

Navy Secretary Ray Mabus testified to Congress last year that a soldier is wounded or killed for every 24 fuel convoys in Iraq or Afghanistan.  Over the years of deployment in Iraq and Afghanistan, those casualties have added up, not only in a number of dead soldiers, but also in soldiers returning with debilitating conditions.

II. A Truly Modern Warrior

Secretary Mabus has vowed to improve the situation in the field for his troops.  He has called on Navy scientists to design cutting edge gear for the armed forces that reduces the reliance on fossil fuel supplies and batteries.

The new gear pack, just tested, includes a roll-up solar panel of thin film solar cells.  The panel provides enough juice under the hot south-Asian sun to power GPS units, radios, laptops, and other devices.

The results are 10 years in the making.  

The armed forces first began considering solar gear in 2001.  But interest picked up when in 2006 Marine Maj. Gen. Richard Zilmer, then commander of the 1st Marine Expeditionary Force, called for solar gear to support forward bases in the war-torn Anbar province, west of Baghdad, Iraq.  

In an interview with The Wall Street Journal, Gen. Zilmer states, "We used to joke that there was a generator for every man, woman and child in Iraq. And we did not have any material solutions to the issues we had out there."

Gen. Zilmer's request fell on deaf ears and more casualties piled up.  But a similar request in 2008 spurred the Navy to action and this time the Marines came onboard as well.  Col. Bob Charette, a former F-18 pilot, opened the Marine Expeditionary Energy Office to transfer Navy energy technology to Marine gear.  Col. Charette states, "The Marine commandant made it clear—he'd rather have an 80% solution today than a 100% solution somewhere down the road."

III. Mission Success

Like MacGyver, the Navy and Marines worked to do the best with what they had.  Within 9 months they'd created a heavy solar/battery combo pack capable of being loaded onto Humvees, which included jury-rigged power meters, purchased from the Home Depot, Inc. (HD).  This heavy pack would power more demanding field gear.  Each soldier was also issued a rollable solar mat to power small electronics.

The first test of the gear just wrapped up and the results appear very promising.  The solar-equipped warriors required dramatically less battery resupply (typically delivered by helicopters in the field) and fewer fuel trucks.  As they carried less weight, they were able to carry extra ammo -- potentially life-saving in an intense firefight.

Col. Charette cheered that the trial deployment "has surpassed our expectations."

Maj. Sean Sadlier, the Marine expeditionary energy liaison officer at Camp Leatherneck in Afghanistan says that for platoons at remote outposts, solar power can be the only source of energy in some cases.  The latest test shows that replacing battery and fuel stocks with solar makes sense even at marginally suppliable locations.  

The next real test will be to develop larger solar rechargers capable of servicing a large formation, like India Company's parent battalion.  Officers say that device could see completion and deployment by the summer.



Comments     Threshold


This article is over a month old, voting and posting comments is disabled

RE: Green Tech has an application?
By tng on 5/10/2011 12:46:54 PM , Rating: 2
True, but when my non technical brother finds it easy to do this type of thing, why isn't our military on it like fleas on a dog?

Also commercially available items like this are out there for hunters, hikers and the like that are more rugged than what my brother has.


RE: Green Tech has an application?
By Solandri on 5/10/2011 2:55:27 PM , Rating: 2
quote:
True, but when my non technical brother finds it easy to do this type of thing, why isn't our military on it like fleas on a dog?

Because you just don't get much energy from solar. The trolling motor experiences infrequent use. Your brother probably uses it for a few hours every week. That's 84 hours of sunshine for maybe 5 hours of use. If the motor's battery is 12V 100 Amp-hr, that's 4.32 MJ. A half-meter solar panel providing 10 Watts average (15% capacity factor) over 24 hours can top that off in 5 days.

The picture changes dramatically when you need to charge devices you use daily. My laptop has a 57 Watt-hr battery (205,200 J), which lasts about 5 hours. Charging it at 10 Watts with the above half-meter panel would require 5.7 hours, or nearly a quarter of the energy budget from the panel every day. Now add in radios, GPS, PDA/phone, communications aids, night vision gear, camera, etc. You're quickly going to need several square meters of solar panels per soldier.

I was going to buy a 1/3rd m^2 panel for a friend of mine doing Peace Corp in Africa so she could use rechargeable AA batteries. After conversion losses, the panel could on average charge 8 AA batteries a day. Like I said, the energy density of solar is very low. You only resort to it when you absolutely have to, like in regions that are totally off the grid.

(Incidentally, 4.32 MJ for the trolling motor battery is 1.2 kWh, or about 14 cents worth of electricity. So if the panel cost your brother $150, it would take him 20.5 years to recoup its purchase price taking the boat out once a week.)


RE: Green Tech has an application?
By tng on 5/10/2011 4:29:23 PM , Rating: 2
All good points, but in the instance of having limited power via solar or none at all, it looks like the Marines are going for it. I am not sure what all the devices they use there that need power. I have a friend that I could ask (Marine), but he is currently deployed to Afghanistan. Some of these devices may need light to moderate daily charging.

quote:
Incidentally, 4.32 MJ for the trolling motor battery is 1.2 kWh, or about 14 cents worth of electricity. So if the panel cost your brother $150, it would take him 20.5 years to recoup its purchase price taking the boat out once a week.
While you are correct about him using the boat on the weekend, part of the advantage to solar was not having to run conduit and line, plus adding an extra breaker. Screw the panel down, drill the hole for the wire, drop into place.... Pays off much quicker that way when there is less hassle factor involved.


"Intel is investing heavily (think gazillions of dollars and bazillions of engineering man hours) in resources to create an Intel host controllers spec in order to speed time to market of the USB 3.0 technology." -- Intel blogger Nick Knupffer














botimage
Copyright 2014 DailyTech LLC. - RSS Feed | Advertise | About Us | Ethics | FAQ | Terms, Conditions & Privacy Information | Kristopher Kubicki