I may be the only person who had not seen this video before today because it’s had a ton of views on YouTube. It appears to be an actual video safety briefing for Air New Zealand passengers on a Boeing 777. I have a feeling that it will be more meaningful to those who have seen the Hobbit movies.
UPDATE Feb. 25, 2013: The Associated Press reporter, Mead Gruver, who wrote the article referred to below, has expanded on his original fairly brief version. You can read the more complete article at the Billings Gazette.
A representative of one of the companies that bid on the contracts was recently told by the USFS that the contracts would be awarded by the end of February.
After announcing on June 13, 2012 that the contracts would be awarded to four companies for a total of seven next-generation air tankers, the USFS had to cancel the process just before the contracts were signed due to protests by two companies that did not receive awards. The aircraft that almost received contracts were four BAe-146s, an AVRO RJ85 (a variant of a BAE-146), and two MD87s, operated by Minden, Neptune, Aero Air, and Aero Flite. Four months later the solicitation was reissued with 31 changes. It required responses by November 1, 2012.
All federal contracts for large and very large air tankers expired December 31, 2012 and none were on contract until this week when the USFS extended last year’s contracts. Neptune’s contract was extended through March 5 and Minden’s will expire again on April 22, according to Jennifer Jones of the agency’s office in Boise.
The 2012 wildfire season began with 11 large air tankers on federal exclusive use contracts. After two 50+ year old tankers crashed on June 3 killing two pilots, we were left with only 9, down from 44 in 2002. For a few months Neptune was able to get two airliners that had recently been converted to air tankers hired on temporarily. They were BAe-146s, designated as T-40 and T-41, bringing the total for a while back to 11.
In December, 2009, Wildfire Today covered a patent application filed by John A. Hoffman for an air tanker, in the form of an unmanned aerial vehicle (UAV), that would be transported by a mother ship and released near the fire. It would then be piloted remotely from either the mother ship or from the ground, and after dropping retardant on the fire, would land to reload, or might be a single use aircraft and would be “destroyed in the release step”. In the latter case the UAV would be “possibly constructed of frangible material so as to crash into the fire area”.
Multiple Nitrofirex UAVs would be transported in a large mother ship and released through the rear cargo door. The folded wings would deploy and the aircraft would glide autonomously to the target then “automatically and with great precision” release the water or retardant. The small engine which had been idling would power the ship back to the tanker base where it would be reloaded and inserted back into a mother ship.
According to the company the system could also be used:
“To combat a nuclear, biological or chemical emergency
To act on meteorological phenomena.
To combat pests or to spray crops in remote or inaccessible areas.
For night time fumigation of drug plantations.”
We were not able to find any specifications about the aircraft regarding retardant capacity, speed, range, or cost.
Assuming that the cost, firefighter safety, and design issues are solvable, the only portion of the concept that troubles me is the assumption that an air tanker could, without a pilot either on-board or at a remote location, effectively drop retardant in the exact location where it was needed and at an appropriate height above ground. In flat terrain over a slow-moving fire this might be possible, but in mountainous areas it would be a challenge. Especially if a “squadron” of them were released at the same time.
What if…. an orbiting aircraft or a ground-based firefighter a safe distance away had a laser designator which the UAV could use as a target? Much like the military does for smart bombs and missiles. Terrain-following radar such as that used in the F-111C could make the drops more accurate and effective.
The company has developed a video which explores the UAV air tanker concept.
After they leave the aircraft the container lids, attached by four straps, separate, and act like a parachute. The straps then put pressure on the plastic bladders, ripping them open, allowing the liquid to be dispersed. The 100 pounds of the other components, the plywood, and cardboard, fall to the ground tethered by the nylon straps. The plastic bladder, hopefully empty, falls separately.
The company says 16 units fit inside a C-130. We estimate that each one weighs 2,212 pounds, and 16 of them would hold 4,224 gallons for a total weight of 35,392 pounds. They claim a C-27J can carry 6 units, which would be 1,584 gallons with an estimated weight of 13,272 pounds. A C-130 with a Modular Airborne FireFighting Systems (MAFFS) usually carries 2,200 to 3,000 gallons of retardant, depending on the density altitude and the amount of fuel on board. Last summer the MAFFS were dropping an average of 2,394 gallons per flight.
In November the Romanian Air Force tested the Caylym system using a C-27J Spartan to drop the containers. According to the company:
…Expectations from testing were surpassed — all aspects of safety, handling and deployment of the Guardian System by the C-27J are anticipated to achieve certification from the Alenia test and evaluation team. Follow-up training is planned for the spring of 2013 in Romania.
The C-27J Spartan is an ideal aircraft for the aerial firefighting mission,” said Rick Goddard, managing director of Caylym. “The versatility and responsiveness of the C-27J in a firefighting mission, using the Guardian System gives the Romanian Air Force the ability to drop more than 1,500 gallons (6000 L) per mission, from a safe altitude over all types of terrain, day and night.”
We talked with Rick Goddard, the Managing Director of Caylym, who told us that in their tests the system could deliver six to eight gallons per 100 square feet and even more if the containers were loaded in two rows so that they would exit the aircraft two at a time. Mr. Goddard said they do not expect to spend $100,000 to conduct a standard cup test to determine the exact uniformity and quantity of the retardant coverage until the U.S. Forest Service expresses more of an interest in using the system.
Below is a video that was uploaded by Caylym on January 22, 2013. It shows their containers being assembled, filled, and then dropping from an aircraft.
Caylym has rebranded their system. Formerly called a “precision container aerial delivery system” (PCAD), they have renamed it “Guardian Deployment System”.
If these were ever actually used on a wildfire, there would have to be an even greater emphasis than usual on removing firefighters and other personnel from the target area than there is now when only liquids fall from the sky. In addition, the owner of the land would either have to be OK with leaving the debris from the containers in place after the drop in perpetuity, or crews would have to search the area and carry it out for disposal in a landfill. Debris removal would have to be included in the estimated costs of using a system like this, which could be difficult or even impossible in some areas, complicated by topography and vegetation. Depending on the climate, it could take many years or decades for the plastic bladder, plywood, cardboard, and straps to decompose if it were not removed.
Today the folks at the National Interagency Fire Center uploaded a video that covers air to ground communication and tips about working with Air Attack and aerial resources. It stars Gil Dustin, the Bureau of Land Management Air Attack Program Manager.
Seeing Walt Darran’s photo of him cranking a TBM at Hemet reminded me of some photos I took of some TBM’s dropping on fires in southern California in 1972. In those days there was not much of an effort to get firefighters out of the area when air tankers were dropping. Of course today, instead of carrying 300 gallons, air tankers are dropping 600 to 20,000 gallons.
Cleaning retardant off a 35mm camera while you’re fighting fire is not the easiest thing in the world.
We are beginning a new series of articles on FireAviation.com, featuring aerial firefighters answering 12 questions about their profession. We hope to get participation from senior pilots, as well as Air Operations Branch Directors, Air Tactical Group Supervisors, and others that have worked closely with fire aviation. Our objective is to not only provide our readers with interesting articles, but these very experienced aerial firefighters may also reveal a few gems of information that could prove to be valuable to those considering or just beginning a career in fire aviation. If you have a suggestion of someone who would be a good candidate for these questions, drop us a line through our Contact Us page. And their contact information would be appreciated.
We begin the series with one of the most experienced and well-respected pilots, Walt Darran. Walt has retired from active duty as an S2T air tanker pilot with CALFIRE/DynCorp, and is now the Safety Committee Chairman of the Associated Aerial Firefighters and also serves as the Chairman of their Board of Directors.
Here are Walt’s responses to our questions:
Who is one of the more memorable aerial firefighters you have known? And why?
Don Ornbaum, airtanker pilot. In addition to his outstanding stick & rudder skills, Don’s ability to succinctly, powerfully, and without reservation present his ideas, both positive and critical, based on many years of aerial firefighting, which added greatly to the legend and store of Tribal Knowledge in the early days of aerial firefighting.
One piece of advice you would give to someone before their first assignment working on a fire?
Think. Never forget the option to just say “no”.
Besides the obvious (funding), what is the number one thing government Fire and Aviation should focus on?
Two-way communication; outreach to firefighters in the field, both boots on the ground and aircrews, preferably one-on-one face time. There is currently a severe disconnect. Desk-bound managers at Fire & Aviation occasionally riding jumpseat on live missions, and maybe living out of a suitcase attached to an airtanker for 3-4 months at a time away from home, would help close the gap in their understanding and empathy.
One suggestion you have for ground-based firefighters about fire suppression tactics, or working with aircraft?
Better communication. Visit your local airbase occasionally and have a cup of coffee with the aircrews. Better yet, call and debrief after an incident with suggestions (or even praise!) about a specific drop or incident. Check into airtanker.org; consider joining Associated Aerial Firefighters.
One thing that you know now that you wish you had known early in your career?
“Lessons Learned” —Tribal Knowledge; now available in NTSB accident reports, NAFRI I and II, Cal Fire Safety seminars, and airtanker.org forum and archives. Experience is one way of learning, but it’s not always the safest, most effective, or most efficient way.
Which two aircraft manufactured within the last 20 years would make the best air tankers?
If I had to pick only the two most cost-effective, flexible, Initial Attack aircraft that are FAA certified I’d have to say the Sikorsky S70C Firehawk and the Airtractor AT802AF (lots of them, all over the place, real IA, on “exclusive use” contracts, not CWN; including the Wipaire FireBoss amphibian option). Bombardier CL415 and AW319 are close behind. C130J with MAFFS II is OK for surge, but probably cost-prohibitive, and not as effective/efficient as a C130 with RADS.
Remanufactured, or newly converted, choices would include BAe146 (and RJ85), Erickson Sky Crane, DC10, B747, Grumman S2T, DeHavilland Dash 8-Q400, and C130H with RADS. Beriev BE200, Shinmaywa US-2, and Kamov KA-32A11BC have potential if/when FAA certified and given adequate OEM support. But they are all just tools in the tool box—each works well if, and only if, dispatched in a timely manner, then properly applied by a proficient crew in the appropriate situation.
List the aircraft you have flown, or flown in, on fires. Which is your favorite, and why?
Flown on fires: Grumman TBM, Grumman Ag-Cat, Grumman S2A/T, Stearman PT-17, Lockheed P2V-5/7, Beech D18, MELEX Dromader M18T, Consolidated PBY5A, Fairchild C119C, Douglas B26, Douglas C54E. Carded on DC7B. Flight time in (airline/military, not airtanker conversions) Lockheed L100 Electra, DeHavilland DH4 Caribou, MD80 (series), DC10-10/30, Douglas AD4 Skyraider, Pilatus Tirbo-Porter. Airtanker evaluation flights, with drops, in BAe146-200, DC10-10 (jumpseat on fires), Airtractor 802 AF, and FireBoss. Loved them all, but felt most at home in S2A and S2T. The S2T has a big advantage in reliability, tank system, capacity, speed, maneuverability, performance, and comfort.
The funniest thing you have seen in aerial firefighting?
Joe Satrapa describing to a reporter how a Heavenly vision of John Wayne told him to open the overhead hatch in his S2T, piss on a rag, and use it to clean his windshield in flight (after the retardant from the previous airtanker drop had totally obscured his cockpit vision).
How many hours have you spent in firefighting aircraft?
Your favorite book about fire, firefighting, or aerial firefighting?
The first job you had in aerial firefighting?
Pilot for Hemet Valley Flying Service, 1971.
What gadgets, electronic or other type, can’t you live without?
GPS, TCADS [a collision avoidance system], iPhone with lotsa apps, air conditioning. Wish list; GPS moving map display with IR (Max-Viz) SVS overlay, ARINC with printer, auto-pilot, Electronic Flight Bag on iPad, Appareo Flight Reconstruction System. Folding gas-powered motor scooter.
While the wildfire season in most of the United States is in hiatus, our friends down under in New South Wales are busy — VERY busy, during one of their busiest bush fire seasons in years. We want to thank the Rural Fire Service for these photos of some of their aircraft that have been working on the fires.