Opinion: how to best utilize the aerial firefighting fleet

Author Bill GabbertPosted on Categories Contracting, Fixed wing, HelicoptersTags , , 4 Comments on Opinion: how to best utilize the aerial firefighting fleet
Tanker 892 single engine air tanker wildfire
Tanker 892, a SEAT, drops near the Aldrich Lookout Tower on the Sunflower Fire in Grant County, Oregon in 2014. Photo by Todd McKinley.

The following opinion article was sent to us by U.S. Forest Service retiree Bill Derr. He said it was written by him in consultation with personnel involved in aerial firefighting, retirees, aerial firefighting industry people, and some Forest Service employees both retired and presently working for the agency. Mr. Derr said “it reflects the collective views of knowledgeable people engaged in wildfire suppression”.

It’s time to finally get serious about how to best utilize our aerial firefighting fleet

EXECUTIVE SUMMARY
Aerial firefighting strategies and aircraft mobilization tactics must be revisited given the intensifying threat of US wildfires and mounting pressure to do so with limited additional funding. Existing models were built for a different time and have not kept pace with how much the wildfire fighting environment has changed for the worse. It is not lost on anyone who has been in the industry for more than a few years that getting on a fire faster, even with small amounts of water, water enhancer or retardant, significantly reduces the possibility of that fire start becoming national news. In the face of the 2020 wildfire season and the complications presented by managing it in a COVID‐19 operating environment, keeping small fires small, for as long as possible, will be a key success factor in limiting both the spread of the virus and number of large fires.

Fire agencies need to use the nation’s aerial firefighting assets in a manner that produces the best possible outcomes for our citizens and our ground‐based wildland fire fighters. The strategy is simple: lead the battle through the pre‐positioning of the numerous (~200) smaller, significantly less costly Special Operations assets such as wheeled SEATs, Fire Bosses and Type 3 helicopters and if the during the battle these assets look to be needing more support, send in the less numerous (~35) and more costly VLATs/LATs to ensure the fire is contained. This strategy would optimize the usage and effectiveness of the country’s entire aerial firefighting force and provide Incident Commanders the appropriate time required to request and receive the LATs and VLATs if needed.

Initial response and direct air strategies that utilize the large number of less costly smaller aircraft built to conduct rapid initial attack on the front lines – ideally in combination with smokejumpers, and often ahead of, ground fire suppression equipment and personnel – can better contain fires and keep them small. This provides the ground crews an advantage in putting out blazes more efficiently, helping to limit wildfire devastation and the ever‐increasing associated costs for fire suppression, and freeing up valuable funds for the federal and state restoration and forest management work that helps prevent catastrophic fires in the first place.

THE 2009 FLAME ACT – WE HAVE BEEN THINKING ABOUT THIS FOR SOME TIME – NOW WE NEED TO MAKE THE EFFORT TO LIVE UP TO THE GOALS SET FORTH YEARS AGO
Improving the safety and effectiveness of wildfire response is the highest priority set forth by the US Departments of Interior and Agriculture in the 2014 National Cohesive Wildland Fire Management Strategy1 (National Strategy), commissioned by Congress as part of the 2009 FLAME act2. This strategic priority includes “enhancing wildfire response preparedness with an emphasis on both structural protection and wildfire prevention to maximize the effectiveness of initial response.” The second priority aims to restore our nation’s landscapes through vegetation and fuels management. General guidance in this area includes “designing and prioritizing fuel treatments; strategically placing fuel treatments; increasing use of wildland fire for meeting resource objectives; and continuing and expanding the use of all methods to improve the resiliency of our forests and rangelands.” The final priority involves “engaging homeowners and communities in creating fire adapted communities where populations and infrastructure can withstand fire without loss of property.” To move the needle toward achieving National Strategy goals, the way we wildfire response tactics must be reevaluated to improve effectiveness and rein in costs. By doing so, we can ensure that programs to restore and maintain US landscapes are positioned (and funded) to succeed.

A CHANGE IN THE AIR
The first pillar of the National Strategy—improving the safety and effectiveness of wildfire response—is more important than ever as blazes burn larger and dangerously hot over the course of a longer season. One area of wildfire response that is primed for increased effectiveness is the use of aerial firefighting.

For decades now, the use of firefighting aircraft has been central to wildfire response programs. However, as the decades have passed by, traditional aerial firefighting strategies have remained mostly unchanged despite the shifting fire environment and the introduction of new aircraft, technologies and tactics. To increase response effectiveness, it is time for these strategies to be revisited.

The yet to be published USFS Aerial Firefighting Usage and Effectiveness Study (AFUES), initiated in 2012, will likely produce a result that is already obvious to most wildland firefighters: the probability of succeeding in battling a wildfire and living to see another day is significantly increased when you start working a fire start within the first hour. The problem of that being the outcome of the study is that there aren’t enough LATs/VLATs and Type 1 and 2 helicopters in the currently contracted USFS fleet to ever achieve that goal and little or no additional funding to make it happen. These agencies need to find a way to do more with same amount of limited funding. What this paper proposes is a way to do so.

Fortunately, an entire fleet of smaller fixed‐wing and rotary assets do exist to achieve this goal. Our state and federal fire agencies, primarily driven by the USFS, need to rethink the integration of these smaller, easily and cost effectively distributed assets into their response to wildfire starts. A multimillion dollar study that has not been completed in well over 8 years is not needed for most fire fighters who have been in the industry over the last two to three decades. Let’s start demanding a change in how we use these costly assets. It will result in better outcomes for every citizen in a fire prone region (less devastation and healthcare impact) and significantly reduce the risk and danger posed to our wildland firefighting brothers and sisters that results from long drawn out campaign fires.

Aerial firefighting through initial response to wildfires
It is well known that aerial firefighting is most effective through initial attack on small wildfires3. During initial attack, small, prepositioned initial attack fixed wing aircraft and helicopters can arrive on a scene within minutes, carrying loads of water or retardant that can help contain a situation until ground crews arrive to put it out. If smokejumpers are available in the area, the probability of success increases substantially. Each time a small wildfire is suppressed during initial response, agencies prevent greater devastation and millions more in associated costs that come with large and very large fires4. In fact, a USDA Audit Report found that when success rate of USFS initial response dropped by 1.5% in 2007, it represented an estimated 150 more fires that escaped containment and cost the Forest Service an additional $300 million to $450 million to suppress5. By avoiding decreases like this and instead improving the success rate of initial attack, the USFS could generate hundreds of millions of dollars in savings that could be used to fund critical fuels management tactics like forest thinning and prescribed burns. The full benefits of reliable and successful initial attack are realized when small wildfires are quickly suppressed and the resulting budget savings are funneled into programs that help restore ecological balance to our forests and better protect against megafires for years and decades to come.

Additionally, there are public health benefits to extinguishing fires through initial attack. A lower amount of smoke is released into the air, which in past wildfire situations has affected the health of thousands of people in communities across the US. Fewer harmful carbons are emitted, which research shows can have a lasting impact on climate change—severe wildfire seasons such as 2015, 2017 and 2018 have the potential to release a decade’s worth of stored carbon into the atmosphere in just a single season6. The degradation of water quality is also reduced when a wildfire is suppressed quickly, as each large wildfire increases susceptibility of watersheds to flooding and erosion which can have short and long‐term impacts on water supplies, such as increased treatment costs, need for alternative supplies, and diminished reservoir capacity7. These public health benefits underscore the importance of the National Strategy’s first priority, “to maximize the effectiveness of initial response” so wildfires can be suppressed and extinguished while they’re still small.

More specifically regarding public health, the 2020 season is going to be an even greater challenge than any other previous season as a result of the COVID‐19 pandemic. Fire agencies will be focused on reducing the number and size of fire camps this coming season due to the potential of infection across a larger portion of a camp. They will also be trying to minimize the number of evacuations that result in citizens needing to shelter for protection in local gyms and auditoriums. To achieve these goals, fire agencies will need to provide as much aerial firefighting force as possible, as quickly as possible.8

However, the reality is that the current aerial firefighting models are not optimized to execute the swift, reliable initial response needed to control fires that are burning and spreading more quickly today due to climate change and unhealthy landscapes. Rather, firefighting aircraft are more often deployed when a fire has already escaped containment and grown into a larger, more expensive disaster. When this happens, typically large and very large air tankers (LATs and VLATs) are used to initiate an indirect attack. Over the course of the indirect attack, LATs and VLATs complete numerous drops of retardant to contain the blaze. Turnaround time between drops often exceeds one to two hours for LATs and VLATs due to the time‐intensive procedures required for loading high volumes of retardants. Turnaround time may also be impacted by basing requirements, as large aircraft must operate out of large airports with retardant loading infrastructure (only ~60 of those west of the Mississippi), as opposed to smaller, regional bases (1,000s of these) that are often closer to fire prone areas. As with all aircraft, turnaround time contributes to the overall length of a wildfire mission, which in turn increases aircraft operating costs. In some situations, incident managers have tried to ameliorate long turnaround times by “filling the gap” with an additional LAT or VLAT to help paint more lines around a fire. Doing so essentially doubles the cost of a suppression mission.

When a small fire does break initial containment efforts, LATs and VLATs play a critical role in suppression, but at a high cost. Significant acquisition and retrofitting costs, plus on‐going maintenance requirements, naturally limits the number of LATs and VLATs that can be made available. There just aren’t that many of these aircraft to meet the supply of fire starts. For example, for the 2020 season, the US Forest Service will have only 18 exclusive use (EU) LAT/VLAT contracts and 17 call‐when‐needed (CWN) contracts for aircraft of the same size9. With such a small number of large aircraft operating from a limited number of bases that have the extensive retardant loading infrastructure, LATs and VLATs cannot be as widely distributed and numerous as smaller, less expensive aircraft across a fire‐prone region. Given the broadening geographic areas requiring potential fire suppression, and the limited number of LATs and VLATs available, there is simply too much ground to cover to ensure a swift, reliable initial attack. This structural challenge for large aircraft, combined with higher operating costs, makes LATs and VLATs primarily, if not solely, suited for indirect attack on large fires, or as suggested in this document, supplemental back‐up to the aerial initial attack efforts. While this type of response will continue to have a highly effective and important role in fighting big blazes, public entities must bolster rapid initial attack capability in order to quickly respond to and contain fire starts in the WUI when they are still small. Otherwise, small wildfires will continue to become large public health disasters that require millions of dollars to suppress and cost the country billions of dollars in devastation and rebuilding.

A NEW PATH FORWARD
Most wildfires start as small, containable situations. But when a spark occurs in today’s shifting environment, a rapid, direct and reliable initial response is needed in order to avoid a large, multimillion‐ dollar disaster. By bolstering their initial attack capabilities with purpose‐built firefighting aircraft, fire agencies can knock down fires more quickly, keep them cooler and better support crews on the ground that are putting out the flames. If the same fire agencies could rely on smokejumpers as much as they used to decades ago, the initial attack combo of timely aerial initial attacks assets and supporting smokejumpers on the ground would have outstanding results. Given the large number of wheeled SEATs, Fire Bosses and Type 3 helicopters in the U.S., fire agencies should lead any fire response, regardless of who’s land it has started on, with these aircraft to slow and cool the fire until ground resources arrive. Through leading the initial attack with these aircraft, when a fire start does break the containment efforts of initial attack, these agencies can utilize the scarcer and costly LATs and VLATs to bolster the fight only when they’re needed. This approach makes common sense, fire sense and dollars and cents. Doing so helps divert the large wildfires that are predicted to increase in frequency over the coming years and decades. Key to the success of this model is using money saved from reduced suppression costs to fund forest health programs like forest thinning and prescribed burns that reduce the enormous “inventory” of fuels on the ground that require mitigation efforts.

Prioritize the use of rapid initial attack aircraft
During initial response to a wildfire start, every minute counts. Small, pre‐positioned initial attack aircraft are needed for their ability to quickly get off the ground, arrive at a scene and nimbly maneuver around fire’s frontline to drop continuous loads of water or retardant as soon as possible. These aircraft can quickly reload in between drops, returning to small, regional airports to reload, or scooping directly from a water source nearby the fire situation (Fire Bosses and helicopters). These capabilities combine to support a rapid, reliable initial response to fire starts and small wildfires. Only a handful of initial attack aircraft are in large enough number to provide the necessary capabilities across a broad enough swath of the fire prone landscape during the fire season. They are:

  • Helicopters. Smaller, typically Type 3 helicopters can take off and be en route to a fire in a matter of minutes, making them an effective complement to aerial firefighting arsenals. Helicopters have the advantage of dropping water, water enhancers or retardant based on the situation at hand and can reload from small water sources or staged tanks that can be positioned very close to a fire. The disadvantage of helicopters is load size. Oftentimes a Type 3 helicopter can only carry a bucket that holds 150 to 300 gallons. Even so, these helicopters when deployed in larger numbers can be effective initial responders to a wildfire. Best estimates put the number of these assets in the 100 or so range.
  • Single engine air tankers (SEATs). Like, Type 3 helicopters, SEATs can take off and be en route to a fire situation faster than larger aircraft, a critical capability for successful initial response. Based on the situation at hand, SEATs can carry loads of water, water enhancers or retardant to drop on hot spots and help control and cool the fire situation until ground crews can arrive. Wheeled SEATs carry loads of about 800 gallons which allow for “surgical” drops on a fire, enabling the aircraft to work closer and more safely with ground crews. Wheeled SEATs can operate out of smaller, regional air bases that are often closer to fires in the WUI, cutting down on turnaround time. Based on the historical number of wheeled SEATs that the BLM has contracted with over the years, there are roughly 60 to 75 of these aircraft outfitted to fight fire.
  • Fire Bosses. When equipped with amphibious floats, a wheeled SEAT becomes an 800‐gallon scooping air tanker. When near a water source, an aircraft like the Fire Boss can perform continuous scoops and drops on a fire for 3.5 hours straight – without needing to return to a base to reload during this time. This platform combines the best attributes of helicopters, wheeled SEATs and LATs/VLATs derived from its ability to be contracted cost effectively, be positioned close to fire‐prone areas for fast response and drop as much suppressant volume on a fire in a given hour as any LAT /VLAT. Given that most human settlement is near water, and at least two‐thirds of historical fires in the US have been within ten miles of a scooper‐accessible water source10, there is undeniable value to adding Fire Bosses to firefighting arsenals. There will be 19 Fire Bosses available for the 2020 wildfire season.

Smaller, less costly fixed‐wing and rotary assets enable a widely distributed basing strategy in anticipation of dispersed fire starts. SEATs, whether wheeled or on floats like on a Fire Boss, and Type 3 helicopters are much less expensive to contract and operate than LATs/VLATs and Type 1 and 2 helicopters, allowing departments to deploy more aircraft and create “nodes” of resources in fire prone areas. With more nodes of aircraft in more flexible and more fire prone locations, these assets can dramatically improve the speed, effectiveness and reliability of initial response and extended operations throughout a fire‐prone region. With almost 200 of these types of aircraft ready to go, why aren’t we using these aircraft as the Special Operations assets that they are and backing them up with the power and might of the 35 LATs/VLATs available?

IN SUMMARY
Climate change, expansion of the WUI and today’s unhealthy landscapes are combining to create costlier fires that are burning and spreading much more quickly than they did 20‐30 years ago. In the face of this new world order, public entities must bolster rapid and direct initial air attack capability by incorporating a network of numerous smaller, lower cost, initial‐attack aircraft into aerial firefighting arsenals. Doing so will prepare agencies, and the country, to rapidly respond to and contain fire situations in the WUI before small blazes escape and become multi‐acre, multi‐million‐dollar devastations. Only then can we return critical funds to forest management programs that reduce the fuels accumulating in our wildlands and restore the vitality of our nation’s forests.

1 Jewell, Sally, and Thomas J. Vilsack. The National Strategy ‐ The Final Phase in the Development of the National Cohesive Wildland Fire Management Strategy. PDF. Washington D.C.: U.S. Departments of Interior and Agriculture, April 2014.

2 Federal Land Assistance, Management, and Enhancement Act (2009) (enacted).

3 Aerial Firefighting Tutorial.” AHSAFA.org (web log). Accessed February 2018.

4 Keating, Edward G., Andrew R. Morral, Carter C. Price, Dulani Woods, Daniel M. Norton, Christina Panis, Evan Saltzman, and Ricardo Sanchez. “Air Attack Against Wildfires. Report. RAND Corporation.

5 H.R. Rep. No. 08601‐53‐SF (2009).

6 Struzik, Edward. Firestorm. Washington, D.C.: Island Press.

7 Smith, Hugh G., Gary J. Sheridan, Patrick N.j. Lane, Petter Nyman, and Shane Haydon. “Wildfire effects on water quality in forest catchments: A review with implications for water supply.” Journal of Hydrology 396, no. 1‐2 (2011): 170‐92. Accessed March 14, 2018. doi:10.1016/j.jhydrol.2010.10.043.

8 Gabbert, Bill. “Fighting Wildfires During a Pandemic” Fire Aviation (blog), March 19, 2020. Accessed March 25, 2020. 

9 Gabbert, Bill. “Forest Service awards contracts for five exclusive use air tankers” Fire Aviation (blog), March 26, 2020. Accessed March 26, 2020.

10 Keating, Edward G., Andrew R. Morral, Carter C. Price, Dulani Woods, Daniel M. Norton, Christina Panis, Evan Saltzman, and Ricardo Sanchez. “Air Attack Against Wildfires. Report. RAND Corporation.

How 20 smokejumpers were rescued by a 2-passenger helicopter

Author Bill GabbertPosted on Categories Helicopters, SmokejumpersTags , , , , 4 Comments on How 20 smokejumpers were rescued by a 2-passenger helicopter

Higgins Ridge Fire, 1961

Bell 47 helicopter Forest Service
Bell 47 helicopter. Forest Service photo.

Twelve years after 13 smokejumpers were killed on the Mann Gulch Fire 13 miles north-northwest of Helena, Montana, 20 jumpers were entrapped on a fire in northern Idaho 83 miles southwest of Missoula, Montana.

It happened August 4, 1961 on the Higgins Ridge Fire in the Nez Perce National Forest after an eight-man crew from Grangeville, Idaho had jumped in the area, followed by 12 men from the Missoula jumper base, the last arriving at 1 p.m. The fire behavior on the two-acre fire was fairly benign until a passing cold front brought a sudden increase in the wind at 4:15 p.m. which resulted in the fire spreading rapidly. The 20 men took refuge in a previously burned area. As the wind increased to 50 mph the supervisors of the two squads, Dave Perry and Fred “Fritz” Wolfrum, instructed the firefighters to remain calm and to clear an area for themselves in the ashes.

Lightning was bursting from the pyrocumulus cloud over the fire as the men in their newly issued orange fire shirts covered their heads with their arms when the fire burned around them. They helped each other swat out the flames on their clothes during the ember shower.

They did not hear it because of the roar of the fire, but they looked up and saw the red skids of a helicopter. It was a Bell 47B-3 that had seating for three people abreast, with the pilot in the middle.

Below is an excerpt from the April, 1994 edition of “The Static Line” published by the National Smokejumper Association:

…The pilot was Rod Snider of the Johnson Flying Service and he had spotted the men and their orange [fire shirts].

Fritz and Snider quickly organized an evacuation plan. Snider had to drop down vertically and take off the same way because of old snags surrounding the jumpers [a maneuver that requires more power than departing from a ridge]. On the first few trips Rod took out two jumpers on each run, having them ride in the cabin. Then, with the helicopter getting hotter, Rod told them he would take four out on each trip. Two rode in the cabin and two hung on to the [cargo trays]. Rod was able to ferry all 20 jumpers to the Freeman Ridge fire camp. Fritz and Tom were among those on the last trip out.

Some of the jumpers were treated at St. Patricks’s Hospital for smoke-burned eyes. Within several days most of the jumpers who had been on the Higgins Ridge Fire were out jumping on more fires.

Rod Snider and James Van Vleck Nat Museum FS History
L to R: Helicopter pilot Rod Snider with James Van Vleck. Photo by the National Museum of Forest Service History, June, 2019.

In June, 2019 a reunion was held in Missoula for the firefighters that were involved in the Higgins Ridge Fire. Eleven of the jumpers gave oral interviews and participated in a panel discussion at the National Museum of Forest Service History (video of the panel). Mr. Snider made the trip and gave his oral history, but unfortunately had to return home the night before the panel discussion due to a family emergency.

Below are excerpts from an article in The Missoulian, August 2, 2019:

“It was hard to find them,” said Snider, 89, a quiet man who received awards for his heroism but shuns the obvious mantle of hero.

“The wind was really cooking in there and you couldn’t see the heliport all the time to get down. I had to come in high and drop down into it when I could see a little break,” Snider said in an oral history interview before he left town.

What made you risk your life to do it? an interviewer in Missoula asked.

“Oh, it had to be done. It had to be done,” Snider replied. “I don’t know. You just can’t leave guys down in the position that they were in.”

His helicopter, a Bell 47G-3 that Snider christened “Red Legs” for its painted landing skids and support legs, was one of the first with a supercharger. But the overload was nonetheless hard on it, he said.

“I felt a little uneasy, because I knew I’d over-boosted everything, But when they gave an inspection later on they couldn’t find anything wrong with it,” Snider said.

The following year Snider received the Pilot of the Year Award from the Helicopter Association of America in Dallas and the Carnegie Medal for Heroism.

In 1976, the nation’s bicentennial year, Tom Kovalicky, 84, of Grangeville and Stanley, Idaho, successfully nominated Snider for the North American Forest Fire Medal, which was being revived for the first time since 1956. Snider and his wife were flown to New Orleans for the presentation that October. And in 2002 he was inducted into the Museum of Mountain Flying Hall of Fame.

An article about the fire dated February 21, 2003 at the National Smokejumper Association’s website was written by a firefighter who was on the Higgins Ridge Fire a year before he became a smokejumper.

Higgins Ridge Fire
by Gary Shaw

The year was 1961 when cumulus clouds built up every afternoon promising rain, but delivering isolated dry lightning storms. This was the year before I became a smokejumper. It was my second year to work on the Moose Creek District of the Nezperce National Forest. The preceding summer I had spent as a lookout fireman on top of Bailey Mountain. This year I had been working trail crew for a couple of months until the sky erupted at the end of July and left fires all over the district.

My trail partner (Ron) and I had been cutting a trail from the Selway River to Big Rock Mountain and were currently holed up in a cabin there when a helicopter picked us up to transport us to a small fire on Higgins Ridge. We were to meet a crew walking in from Elbow Bend on East Moose Creek. We saw smokejumpers parachute into the fire area on our way to the fire. We landed on the uphill side of the fire, grabbed our shovels and pulaskis and started for the fire. We could see the jumpers’ orange shirts through the smoke.

Before we could get to the fire a large cumulous cloud covered the sun and the wind picked up to 25 or 30 m.p.h. The fire blew up in our faces, and we were forced to retreat back into a large rockslide.

The jumpers weren’t so lucky. They were trapped in the middle of it with no escape route. They dug in, buried their faces in wet bandanas in the dirt, and tried to find air to breath as the fire roared from a manageable 2 acres to a 1280 acre holocaust. It was late evening, and the fire was beautiful to watch. It was crowning, and trees several hundred feet ahead of the fire would begin to tremble and then burst into flame like a fireworks display.

The fire was so hot that canteens of water near the jumpers started exploding. When things looked at their bleakest, the cavalry arrived in the form of Rod Snider(NCSB-51) in a Bell 47G-3B helicopter from Johnson’s Flying Service in Missoula. It was getting dark when he flew into the middle of the fire and started bringing Jumpers out four at a time, which is two more than the maximum the copter was supposed to carry. He had two guys on the seat and two more on the runners. He made five trips into the fire and rescued twenty jumpers. The manifold pressure on the copter engine was 200% above maximum, and when the engine was torn down later, two pistons fell apart. I heard that “Crash” received 20 cases of beer the next week.

My trail partner and I stayed on the fire through mop-up. The other crew arrived without tools, which were to be dropped in by air. Unfortunately, communications left something to be desired. We kept requesting tools and instead received three separate drops of sleeping bags. Each person had a half dozen sleeping bags, but Ron and I were the only ones who had a shovel and pulaski to work on the fire. So we did.

When the tools finally arrived and we got the fire under control, I walked down to the area where the jumpers had been trapped. I found exploded water cans, unexploded gasoline cans (go figure), and a personal gear bag with all their cameras melted together. I could see Minolta, Canon, and Nikon logos on the fused metal and glass. I sent the lot back to Missoula. The fire had been so hot that there were no snags, just pointed stumps and ashes over a foot deep.

I remember two of the rescued jumpers departed the chopper and immediately asked for a cigarette. Now that’s a habit!

I’ve always wondered what that fire looked like from the other side. If anyone reads this that remembers, let me know.

The group that organized the oral history and panel about the Higgins Ridge Fire was organized by the National Museum of Forest Service History. Wildfire Today first wrote about the museum in 2009 five years after they began their effort to raise $10.6 million to build a national museum to commemorate the 100+ year history of the U. S. Forest Service. Their vision began in 1994 when they obtained 36 acres west of the Missoula airport where they hope to build a 30,000 square-foot building.

National Museum of Forest Service History
An architect’s concept of the future National Museum of Forest Service History.

The museum’s fund drive received a significant boost this month when it received a $2 million contribution from the estate of Bill Cannon, a Forest Service retiree.

From the Ravalli Republic:

…Cannon spent most of his Forest Service years in California and Oregon, with an interlude in Hawaii where he was assigned to state and private forestry work. He finished his career in Washington, D.C., where he worked on program planning for the Forest Service’s state and private programs.

Meanwhile, according to a press release announcing his gift, he used his avocation of studying financial markets to become an adept investor.

Cannon became impressed with the National Museum of Forest Service History on a field trip to the site while in Missoula for the 2000 U.S. Forest Service retiree reunion.

Thanks and a tip of the hat go out to Kelly. Typos or errors, report them HERE.

Forest Service awards contracts for five exclusive use air tankers

Author Bill GabbertPosted on Categories Contracting, Fixed wing10 Comments on Forest Service awards contracts for five exclusive use air tankers

Next-Generation 3.0 contract

air Tanker 163 an RJ85
Aero Flite’s Tanker 163, an RJ85, at Rapid City December 2, 2017 while working the Legion Lake Fire. Photo by Bill Gabbert.

Today the U.S. Forest Service announced contract awards for five large exclusive (EU) use air tankers. Three companies received contracts — Erickson Aero Tanker for two tankers, Aero Flite for two, and Coulson for one.

The tankers operated by the companies include MD-87s by Erickson Aero Tanker and RJ85s by Aero Flite. Coulson flies C-130s and B737s but this contract is for Tanker 137, a B737. The estimated total value of the contracts are, Erickson Aero Tanker $70.5 M, Aero Flite $80.4 M, and Coulson $41.5 M.

The solicitation for the Next Generation 3.0 air tankers was first posted 494 days ago on November 19, 2018. There are approximately three seasons left for the six aircraft on the Next Gen 1.0 contract, so the Forest Service should begin today working on Next Gen 4.0.

These 5 large EU air tankers will be added to the existing fleet of 13 (see the chart below published March 11), to bring the total up to 18. Earlier the Forest Service said they would have “up to 18” on EU contract this year. There are 17 large air tankers left on call when needed (CWN) contracts that can be activated, but at hourly and daily rates much higher than those on EU. At the time of the CWN award in December some of those tankers only existed on paper.

Schedule large air tankers on USFS exclusive use contracts 2020
Schedule for large air tankers that are on USFS exclusive use contracts, updated March 11, 2020 by USFS.

Since 2013 the number of large air tankers on Forest Service EU contracts at the beginning of each fire season varied from 9 in 2013 to 21 in 2016 and 2017. From 2000 to 2002 there were 40 to 44.

Usage of large air tankers, 2000-2019
Usage of large air tankers, 2000-2019. Revised 2-24-2020. Fire Aviation.
air tankers Durango MD87
Erickson Aero Air’s T101 and T103, MD87s, at Durango, CO May 28, 2018. Photo by Dave Herdman.
coulson 737 air tanker dropping
Coulson 737 air tanker.

U.S. Air Force provides MAFFS training in Colombia, South America

Author Bill GabbertPosted on Categories Fixed wingTags , , 1 Comment on U.S. Air Force provides MAFFS training in Colombia, South America
MAFFS C-130 Columbian Air Force
File photo. A Colombian Air Force C-130 makes a demonstration drop with a MAFFS unit. March 29, 2017. Photo by Bill Gabbert.

U.S. Air Force personnel from four bases in the United States travelled to South America to work with the Colombian armed forces as part of a mobile training team from February 11 through March 11 at two air bases in Colombia.

The team was comprised of 15 air advisors from the 571st MSAS at Travis Air Force Base, California, and six total force instructors from three other U.S. Air Force units. The training covered a variety of areas of cooperation between the U.S. and Colombia. It aimed at supporting Colombia in their pursuit to counter transnational and transregional threat networksm aerial firefighting, and to enhance the capability of the Fuerza Aerea Colombiana, their air force also known as the FAC.

Additionally, the 571st MSAS team provided ground training to the Colombian air force on Modular Airborne Fire Fighting Systems, or MAFFS, a system loaded into the back of a C-130 aircraft that drops fire retardant to aid in stopping the spread of wildfires.

The Columbian government purchased a MAFFS unit in 2017 from MAFFS Joint Venture, a private company in California.

MAFFS training Columbia
U.S. Air Force Lt. Col. Richard Pantusa, 731st Airlift Squadron Modular Airborne Fire Fighting Systems instructor pilot from Peterson Air Force Base, Colorado, demonstrates the effectiveness of fire retardant in combating forest fires to members from the Fuerza Aerea Colombiana in Columbia, March 4, 2020. Employing an aerial firefighting capability will help the FAC in combatting wild fires, both internally and internationally. The specialized training, provided by the U.S. Air Force Reserve Command personnel, was a stepping stone to future work with the FAC on further enhancing this capability. (Courtesy photo)

Aerial firefighting capability will help the FAC in combatting wildfires, both internally and internationally. The specialized training provided by the U.S. Air Force Reserve Command personnel was a stepping stone to future work with the FAC on further enhancing this capability.

“While a very effective fire-fighting tool, this specific mission set requires consistent practice,” said U.S. Air Force Lt. Col. Richard Pantusa, 731st Airlift Squadron MAFFS instructor pilot from Peterson Air Force Base, Colorado. “It is inherently a dangerous mission — flying low over mountainous terrain that is on fire. The FAC has a new MAFFS program that includes highly motivated and knowledgeable C-130 operators who are attempting to grow their MAFFS program.”

While training on the diverse capabilities of the C-130 was the main focus of the mission, the 571st MSAS air advisors also took the opportunity to support additional U.S. Southern Command lines of effort by continuing to develop interoperability between the U.S. and Colombia.

More photos from the delivery of the MAFFS unit in Colombia, March 29, 2017.

Response from a reader about the use of firefighting aircraft during a pandemic

Author Bill GabbertPosted on Categories Fixed wing, HelicoptersTags , 3 Comments on Response from a reader about the use of firefighting aircraft during a pandemic
air tanker 103 Thomas Fire drops California
Tanker 103, an MD-87, drops on the Thomas Fire in Ventura County, California December 13, 2017. USFS photo by Kari Greer.

We received the text below in an email from one of our regular readers, Bean, who gave us permission to use it here. He wrote in response to the article, “During a pandemic aircraft may need to be used on wildfires more aggressively”, when it first appeared on Wildfiretoday.com.

Well done!  In the military we would have classified what you are asking for as a “force multiplier”.

Since your article on the Foxton Fire in JEFFCO, CO the Elk Creek FD Chief shut down our wildfire module. One member of the team came down with a cough, fever, and headache after the first day of the fire. The Chief sent them all home to self isolate for two weeks instead of allowing a possible infection to spread to the rest of the department. So right now the good news is that we just had a heavy snowstorm. The bad news is that we [Elk Creek] have no wildfire module for two weeks. No word on the sick firefighter yet.

I realize you write about fire fighting but another issue causing concern is that most small rural districts, ours included, also run the local EMS and ambulance service and as a result, our firefighter paramedics and EMT’s are even more at risk of exposure to CV.

In the small districts up here we are already short of fire fighters [paid full time and volunteers] and it is the small districts that provide most of the IA capability in Colorado.  If we define IA using your Rx for controlling fire size, we need a maximum effort in minimum time. We need the one resource that is not available … more people. The impact of the CV is to further reduce our most scarce fire fighting resource and if the CV impact is significant, Colorado is in trouble later this year when it warms up and dries out. Air support can increase the effectiveness of our available people.

So that gets us to where your article comes in, if we can’t get more firefighters, we have to fight smarter not harder using our available firefighters.  Enough air support can make a significant impact on the efficiency of our available firefighters and can offset the shortage of firefighters. The only problem is that most of the fixed wing type 1 air resources aren’t really capable of immediate response and providing direct close air support to the ground attack on the fire. I submit that for the maximum effectiveness, in this situation that the air resources required to augment fast IA are probably rotary wing. They can operate closer and drop with higher accuracy in direct support of ground personnel with relative safety compared to Type-1 fixed wing and their reload-return cycle is much quicker especially for dippers. Of course we cannot know this for a fact since the US Forest Service AFUE study has been a year out for several years and evidence is anecdotal except for the excellent Australian study on air tanker effectiveness that underscores the requirement for air support and immediate IA.

CWN contracts are useless for rapid IA support so what seems to be required to offset the impact of CV on personnel availability at least in our neck of the woods is to focus on EU contracts for rotary wing support in significant numbers to provide immediate augmentation of IA personnel and fixed wing Type 1’s to back up the IA effort if indirect attack is required.

During a pandemic aircraft may need to be used on wildfires more aggressively

Author Bill GabbertPosted on Categories Fixed wing, HelicoptersTags , 2 Comments on During a pandemic aircraft may need to be used on wildfires more aggressively
747 air tanker Kincade Fire Sonoma County California October 2019
A 747 air tanker drops on the Kincade Fire in Sonoma County California, October 26, 2019. Kari Greer photo.

This article was first published on Wildfire Today, March 19, 2020.

Fighting wildland fires as we have known it is likely to go through a transformation during the next 6 to 18 months. As the COVID-19 pandemic begins to reach into more segments of the daily human existence the way we suppress wildfires may have to be modified.

Obstacles to firefighting

At a White House briefing on March 16 the President and Dr. Anthony Fauci said people should not assemble in groups larger than 10 and recommended “Social distancing”–  spacing between individuals needs to be at least 6 feet. Being near any infected person, even if it is just one person, runs the risk that droplets expelled from their mouth or nose, or viruses on their face, hands, or clothing could be transferred to others. Without widespread testing, it is impossible to know if someone is infected without being symptomatic. The symptoms, if they occur at all, may not develop for days.

firefighters Kincade Fire Sonoma County California October 2019
A hand crew of firefighters on the Kincade Fire in Sonoma County California, October 26, 2019. Kari Greer photo.

Social distancing would be extremely difficult to maintain while traveling to or extinguishing a fire. Wildland firefighters are trained to never work alone, and are always in groups ranging from 2 on a small Type 6 engine, 20 on a hand crew, and hundreds or thousands while assigned to a large fire. On Tuesday multiple engine crews battled three fires that burned 50 acres near Foxton in Jefferson County, Colorado about 20 miles southwest of Denver. On March 6, 286 firefighters responded to a 20-acre fire in the Cleveland National Forest near Lakeland Village in southern California. In 2017 more than 8,500 firefighters were assigned to the Thomas Fire in Ventura and Santa Barbara Counties in southern California.

Time

This is not like dealing with climate change that over years and decades has slowly caused fires to grow larger. A rapidly growing pandemic that kills approximately 0.7 to 3.0 percent of those infected means we don’t have the luxury of time to come up with solutions. A new scientific report warns that without action by the government and individuals to slow the spread and suppress new cases, 2.2 million people in the United States could die.

The March 1 outlook for wildland fire potential predicted higher than average fire activity during March and April in the coastal areas of Central and Southern California.

WHAT NEEDS TO BE DONE

Prevent fires

It is possible that with social isolation the number of human-caused ignitions will decrease. Or, will campfires in the woods increase when folks get cabin fever and have more time on their hands? Fire prevention efforts have to increase, with more public service announcements and prevention officers in the field.

Reduce the number of fires that escape initial attack

The fewer large fires we have that require hundreds or thousands of firefighters to work together, the safer firefighters will be from additional virus exposure. This would also reduce evacuations that can result in refugees assembling in large numbers. An infected person forced to leave their self-quarantine to fend around for housing is a danger to society.

How to keep fires from becoming large

There is no silver bullet that can guarantee a fire will not escape initial attack, but the most effective tactic is:

Rapid initial attack with overwhelming force using both ground and air resources, arriving within the first 10 to 30 minutes when possible.

This means, if there is a report of a fire, don’t just send one unit out to verify unless you have a very good reason to suspect it is a false alarm.  Dispatch overwhelming force — engines, crews, helicopters, and air tankers. This is not inexpensive, but can save millions of dollars if it keeps a fire from growing large.

The need for more firefighting resources

Congress is considering a proposal to spend $1 trillion dollars on a stimulus package to combat the economic effects of the coronavirus pandemic, according to a proposal obtained by NBC News. A trillion is a number that is nearly impossible for me to comprehend. It is a thousand billion. A billion is a thousand million.

If more firefighters were hired it could make it possible to have healthy forces in reserve when 20-person crews or 5-person engines have to be quarantined when one crew member tests positive for the virus or if they are exposed while fighting a fire. It could also enhance the ability to attack new fires with overwhelming force.

Since firefighters assembling in groups to suppress a fire can put them at risk of spreading COVID-19, we need to rethink our tactics. This could include making far greater use of aerial firefighting. It should become standard operating procedure to have multiple large air tankers and helicopters safely and quickly attacking a new fire from the air, far from any people on the ground infected with the virus.

firefighter Kincade Fire Sonoma County California October 2019
A firefighter on the Kincade Fire in Sonoma County California, October 25, 2019. Kari Greer photo.

In 2002 there were 44 large air tankers on federal exclusive use (EU) contracts. Last year and at the beginning of this year there are only 13. That is a ridiculous number even in a slow fire season like last year when 20 percent of the requests for large air tankers were unfilled. The number of acres burned in the lower 48 states in 2019 was the least since 2004.

There are so few large airtankers on EU contracts that dispatchers have to guess where fires will erupt and move the aircraft around, like whack-a-mole.

The U.S. Forest Service says they can have “up to” 18 large air tankers on EU contract, but that will only be possible if and when they finally make awards based on the Next-Generation 3.0 exclusive use air tanker solicitation that was first published November 19, 2018. There are an additional 17 large air tankers on call when needed (CWN) contracts that can be activated, but at hourly and daily rates much higher than those on EU.

If multiple large air tankers and helicopters could attack new fires within 20 to 30 minutes we would have fewer large fires.

Congress needs to appropriate enough funding to have 40 large air tankers on exclusive use contracts. Until that takes place and the aircraft are sitting on ramps at air tanker bases, all 17 of the large air tankers on call when needed contracts need to be activated this summer. Right now, only one large air tanker is working.

Several years ago the number of the largest helicopters on EU contracts, Type 1, were cut from 36 to 28. This number needs to be increased to 50. Until that happens 22 CWN Type 1 helicopters should be activated this summer.

“Air tankers don’t put out fires”

We often say, “air tankers don’t put out fires”, but under ideal conditions they can slow the spread which allows firefighters on the ground the opportunity to move in and suppress the fire in that area. During these unprecedented circumstances, we may at times need to rely much more on aerial firefighting than in the past.

All firefighters need to be tested for the virus at regular intervals

If firefighting crews have to isolated and put on the sidelines because one member develops COVID-19 symptoms, it is likely that they had already been shedding the virus for days, possibly infecting others.

firefighters Kincade Fire Sonoma County California October 2019
Firefighters on the Kincade Fire in Sonoma County California, October 27, 2019. Kari Greer photo.

The small town of Vò in northern Italy where the first COVID-19 death occurred in the country, has become a case study that demonstrates how scientists might neutralize the spread of the disease. On March 6 they began a program to test all 3,300 inhabitants of the town twice, including asymptomatic people. Those without symptoms that tested positive were isolated, as were those with symptoms of course, and since then there have been no new cases.

This lesson is being learned. San Miguel County in Colorado, the location of Telluride, will be the first county in the U.S. to test every resident.

If we expect to maintain wildland firefighting capability, every firefighter must be tested on a regular basis. This can greatly reduce the risk when they gather in large numbers to suppress a fire.

Other key members of the wildland firefighting community must also be tested in order to maintain the viability of the system. This would include pilots, aircraft mechanics, air tanker base crews, helitack crews, dispatchers, members of Incident Management Teams, and contractors that supply firefighting equipment and services, especially caterers.

Should we still manage “limited suppression” fires?

In the last 10 years we have seen more wildfires allowed to spread with only limited suppression. These fires can persist for months while they are being baby sat by firefighters. Yes, there are benefits to the natural resources to allow fire to run its natural course. Fewer personnel are used early in the fire, but the amount of time involved results in them being tied up for an extended period. And if a month or two into it, after it has grown large and has to be suppressed, then you will need a huge commitment of forces. If firefighting resources are extremely limited by the effects of the pandemic, the second and third order effects of this strategy need to be thoroughly examined by smart managers before they decide to not aggressively attack a new fire.

Area Command Teams activated

Three Area Command Teams  (ACT) have been activated in the United States to assist in the response to the COVID-19 pandemic. The delegation of authority directs them to coordinate with Federal, State, local, and Tribal officials to identify issues related to COVID-19 and wildland fire response. They will develop fire response plans for maintaining dispatching, initial attack, and extended attack capability. The ACTs will also develop procedures or protocols for mitigating exposure to COVID-19 during an incident, and for responding in areas with known exposure to COVID-19.

This is an important and necessary step. We are in uncharted territory, and no one has ever fought wildland fires under these conditions, at least in the United States.

Table top exercises or simulations

They may already exist, but if not, table top exercises could be very useful for Regional and National Multi-Agency Coordinating Groups to work through the steps of allocating firefighting resources that in a worst case scenario could become scarce on an unprecedented scale. Maybe a billionaire or video game designer will develop a computer-based simulation for this purpose.

Yes, this is a lot — 40 EU large air tankers, 50 EU Type 1 helicopters, initial attack with overwhelming force, and testing for everyone involved in firefighting.

We need to be in this for the long haul. No one knows for sure, but scientists are thinking that this new virus will ebb and flow. The spread may peak every few weeks and it may or may not slow in the summer, but will most likely peak again in the fall and winter well into 2021. There is no known cure and it will be at least 12 to 18 months before a vaccine is available.

But what is the alternative? If our firefighters are isolated, quarantined, or deceased, there could be a lot of smoke in the skies this year that will exacerbate respiratory diseases being suffered by many.

Report released on crash of firefighting helicopter in Queensland

Author Bill GabbertPosted on Categories HelicoptersTags , , , , , Leave a comment on Report released on crash of firefighting helicopter in Queensland

The Bell 214B crashed while on a water-dropping mission Nov. 13, 2019

B214 helicopter crash Queensland November 13 2019
Bell 214, Queensland, Australia, November 13, 2020. Photo by operator.

The Australian Transport Safety Bureau has released an Occurrence Brief regarding the Bell 214B that crashed while it was on a water dropping mission near Pechey, Queensland, Australia November 13, 2019.

The pilot suffered minor injuries and was flown to a hospital by another helicopter.

Below is the complete text of the Brief. (We added the photo taken by 9News):

Occurrence Briefs are concise reports that detail the facts surrounding a transport safety occurrence, as received in the initial notification and any follow-up enquiries. They provide an opportunity to share safety messages in the absence of an investigation.

What happened
On 13 November 2019, a Bell 214B helicopter was water bombing during fire control operations near Pechey, Queensland. At 1344 Eastern Standard Time, the helicopter approached the bushfire downwind and down hill from the north-west at about 60 knots, and made a descending right-hand turn back into wind over the fire.

The descent was continued towards the drop zone. The airspeed was further slowed and the height was reduced to about 150 feet above ground level (50 feet above treetop level). The pilot then released the load of water before departing the drop area into rising terrain. The pilot heard the low rotor RPM warning and had insufficient altitude and clearance from obstacles to recover the rotor RPM and continue flying. He was concerned that further actions required to recover the rotor RPM would result in the helicopter possibly striking trees or ending up in the actively burning fire.

Helicopter Down crash Queensland Australia
Bell 412B crashed while working on a fire near Pechey, Queensland, Australia November 13, 2019. Photo by 9News

In maintaining the climb to avoid rising ground, trees and fire, the rotor RPM appeared to decay further. As the helicopter cleared the trees, it began to descend, yawed to the right and the left-hand skid collided with the ground. The helicopter rolled onto its left side resulting in substantial damage. The pilot was able to turn off the fuel to stop the engine and exited the helicopter via the overhead window with minor injuries. Neither the g-force activated ELT beacon or flight tracking alarm were triggered.

The distance from the last water drop to the impact point was less than 100 metres and the recovered aircraft showed little evidence of damage from forward moment.

B214 helicopter crash Queensland November 13 2019
Bell 214, Queensland, Australia, November 13, 2020. Photo by operator.

Operator’s investigation and comments
Based on the pilot’s account of the accident and assessment of the recovered aircraft, mechanical malfunctions were ruled out as a contributing factor. The operator determined that the accident was most likely the result of a loss of rotor RPM that the pilot was unable to recover, due to a downwind descending turn, low altitude for the water drop, and a departure into rising terrain. The pilot had to make a decision between putting the helicopter into tall trees and active bushfire or climbing over the trees to clear ground. In choosing the latter, the rotor RPM decayed further and the helicopter contacted the ground.

The operator stated that the helicopter type is renowned for its ‘hot and high’ performance making it a very effective firefighting platform. Firefighting combines a number of factors which result in flying that is close to the performance limits of the aircraft – high gross weights, low airspeeds, low altitude, close quarters manoeuvring, high work rate environment and adverse weather conditions. In this case the combination of factors immediately leading up to the accident resulted in the helicopter operating outside its performance envelope without having enough space and height to recover.

Safety action
As a result of this occurrence, the aircraft operator has advised the ATSB that they are taking the following safety actions:

The operator has provided a briefing to all of their pilots on the circumstances and the outcome of this accident. The pilot involved in this accident will be involved in future training and checking to enable the recognition and avoidance of the circumstances that saw the limitations and flight envelope exceeded. This training will become part of the operator’s annual training for all pilots conducting fire control operations.

Safety message
Fire control flying operations can involve challenges and complexities that require crews to maintain a heightened awareness of their aircraft’s operating limits and the environmental conditions. Flying within operating limits can ensure pilots have a performance margin to react to unforeseen circumstances.

About this report
Decisions regarding whether to conduct an investigation, and the scope of an investigation, are based on many factors, including the level of safety benefit likely to be obtained from an investigation. For this occurrence, no investigation has been conducted and the ATSB did not verify the accuracy of the information. A brief description has been written using information supplied in the notification and any follow-up information in order to produce a short summary report, and allow for greater industry awareness of potential safety issues and possible safety actions.

Schedule released for large air tankers

Author Bill GabbertPosted on Categories ContractingTags 2 Comments on Schedule released for large air tankers

Only 13 are on exclusive use U.S. Forest Service contracts

Schedule large air tankers on USFS exclusive use contracts 2020
Schedule for large air tankers that are on USFS exclusive use contracts, updated March 11, 2020 by USFS.

The U.S. Forest Service has released a days off schedule for the 13 large air tankers that are under exclusive use contracts as we begin to move into the 2020 wildfire season.

The contracts and companies supplying the aircraft are the same as last year but the schedule confirms the administrative bases and the days off. The locations do not mean the air tanker will spend a certain amount of time at that base. Only one of the 13 tankers is identified on the list, Tanker 101, an Aero Air MD-87 with an administrative base at Medford, Oregon that began its Mandatory Availability Period March 12.

Usage of large air tankers, 2000-2019
Usage of large air tankers, 2000-2019. Revised 2-24-2020. Fire Aviation.

There are so few large airtankers on exclusive use contracts that dispatchers have to guess where fires will erupt and move the aircraft around, like whack-a-mole. None of the tankers this year will be staffed seven days a week, and the DC-10s will have two days off each week. In 2019, 20 percent of the requests for large air tankers were unfilled during a year in which the number of acres burned in the lower 48-states was the least since 2004.

2019 US acres burned wildfires
2019 US acres burned, except Alaska. Stats by NICC. Numbers prior to 1983 may not be reliable. Processed by Wildfire Today.

The hourly and daily rates were redacted on the document that the Forest Service released. On the image at the top of the article I cropped off those blank columns to make the remaining information that was not censored more readable.

The Next-Generation 3.0 exclusive use air tanker solicitation that was first published November 19, 2018 has still not been awarded.

New Call When Needed contracts for large air tankers were awarded in December, 2019.

Thanks and a tip of the hat go out to Robert. Typos or errors, report them HERE.