rescue

All posts tagged rescue

Well…it’s Carbon Monoxide (CO), so there isn’t a smell. But there is something interesting going on with the hose lines in this Supplied Air Breathing Apparatus system.

Air Line CO

115 PPM of CO !

 

While scouring the internet for all things pertinent to Rescue work, our newest member, Jimbo H, found an interesting after action report from LA County. Apparently, two firefighters entered a tank using SCBA to make a rescue of a downed worker. After about 15 minutes the firefighters switched from SCBA to Supplied Air; 3 minutes after the switch is when things started going downhill for them. An attentive  person working the communications kit noticed the firefighters breathing funny and started the process to get them out.

 

I’m not sure how they switched from SCBA to SABA. It’s possible they switched out their entire system while in the space, which seems like a bad idea. Or, they could have been using their SCBA and then just hooked up to their EBSS or URC from a remote source. If that were the case, the air from the remote source would seem to be the problem.

 

I’m not sure that the level of CO present in our hoses and in that small of a volume would cause the same problem as experienced in LA County, but it’s interesting to note that bad air can exist in the hoses.

LA County Blue Sheet

 

 

 

 

We repost this every year on the anniversary of Mark Falkenhan’s death because we feel very strongly that we don’t want to lose the lesson about closing the door while searching. Mark’s death is a very graphic example of how much more tenable rooms can be by simply closing the door.

 

falkenhan

If you’ve not read about this LODD, please take a minute to read some of our thoughts on it as well as the NIOSH report. There are also several fire models done by the ATF that show how the fire progressed. One interesting note: A sharp eyed reader of this website noticed a PPV fan in one of the pictures while the fire was still going on. He had asked if that had any bearing on the rapid fire spread. After reaching out to the ATF agent who did the modeling, he replied that the fan was never turned on and thus had no bearing on the fire spread.

We want to thank you, the readers, for picking up on stuff like this as well as the ATF for responding so quickly and candidly.

A link to our original article:

Close the Door Please, I’m Busy in Here

NIOSH report:

http://www.cdc.gov/niosh/fire/reports/face201102.html

Check out this video sent to us by Francisco Palacios, owner of Ascendere SAS in Cali, Columbia. There seems to be a slight disagreement between the firemen and police on the scene of this training. What they are arguing over brings itself to light around the 00:46 mark.

There seems to be much debate about how to properly load the pulley on the track line. Ultimately the law does win, but they certainly are not right.

 

 

While there is great debate about whether the mirrored Two Tensioned Rope System (TTRS) using CMC Rescue Multi-Purpose Devices (MPDs) should or shouldn’t be the way to go, one argument seems to be more popular than others regarding it: If one of the lines should fail and the person operating the second MPD fails to let go, the load will have a catastrophic fall. This is a simplified statement that I feel sums up the majority of what the argument seem to be about.

 

Mirrored system run off the head of an Appalachian Doortex:

IMG_1008

What I find most interesting with this argument is that we now want to account for a SECOND point of failure i our system. What if: one rope is cut, one anchor blows out, etc… AND what if the belayer doesn’t let go, doesn’t realize the first line is compromised, etc…

No other system rope rescue system is viewed in this perspective despite the fact that any belay system can be overridden by an inattentive belay operator. So if we want to assume a second point of failure, do we need a third rope? Of course not; we need a fourth in case the third one goes. I’m kidding, of course.

The arguments seem to hinge on whether or not failure one causes failure two and if the nebulous “human factors” can be accounted for. It’s an acceptable thought, but again, we don’t apply this anywhere else in our rigging process. Otherwise we would have tertiary anchors and ropes for every main anchor and change of direction. While human factors that can affect performance and safety are certainly worth looking at, I find it difficult to see how they can be applied equally to ALL systems.

What I think this segues into is a topic of the BCCTR BCDT (or more correctly ASTM F2436-05) criteria and whether or not it needs to be changed. The MPD meets the BCDT criteria. So does a T3WP and a 540. Both of these can be overridden when in use, but meet the BCDT criteria. How do we apply an equal rule about not letting go (human factor) of a device during a belay event? I don’t think there is one. By simply doing what ever you can to make a device fail while operating it during a belay test will only lead to a witch hunt against whatever device you don’t like.

 

The pessimist in me wants to do a presentation at ITRS entitled “They all Suck. A look at modern belay Devices” Now of course I don’t believe that, but I think this is the area that you will get to if you try and account for human factors in a test. As a fireman, I’ve seen lots of ways people have gotten themselves in trouble and I am positive that the rope world is not ready to account for human ignorance as part of a test method. I think the line has to be drawn somewhere. To quote the great author Douglas Adams: “A common mistake that people make when trying to design something completely foolproof is to underestimate the ingenuity of complete fools.” A better idea, and one already in NFPA 1006 (make of that what you will), is to have people pass a competency test to operate a belay system.

But do we really need another test? We’ve got the BCDT to determine if the device is capable. We’ve got the “whistle test” to test our rigging if everybody were to let go. These two tests can be equally applied to a traditional main and belay system as well as a TTRS. Is there a way to devise a test that can be equally applied to every system? If there isn’t, then maybe now is the time to figure it out. If not then I think the arguments, while not pointless, will probably not be solved. I can stand on one side of the argument and talk until I am blue in the face that the the TTRS with MPDs meets all of our current criteria and somebody else can stand on the other side and talk about what will happen when somebody doesn’t let go of the handle.

Here is a suggestion for one (expensive) way to solve this problem:

 

2016-02-06 08.37.22

While the Petzl ASAP and L57 Absorbica are rated for two person loads for what Petzl calls “Accompanied Descent”, it is not shown in the instruction manual that you can attach it to the anchor to be used in the way shown in the picture above. I am extrapolating that it can be used that way. I have not tested this method yet, so I am only guessing as to its effectiveness. It is merely a possible solution to a problem that people have with an MPD based TTRS.

We get all off the benefits the TTRS has to offer as well as being protected from a runaway belay in the event of an inattentive operator.

 

Is an MPD based TTRS the be all, end all of rope rescue? Maybe, maybe not. But I do think it solves more problems than it causes. It also allows people who are required to perform rope rescue but don’t like it a safe way to operate, while at the same time allowing some unique options for the geek that a traditional slack belay system doesn’t allow.

There’s a ton of different ways to attach your travel restriction to your anchor; some right, some wrong. One of the easiest ways to make it happen is also one of the worst. Simply wrapping you  carabiner and rope around the anchor and clipping it back to itself is not an entirely uncommon sight.

Take a look at the videos below that were taken by Richard Delaney of Rope Lab and  Rope Test Lab on Facebook. They show what can happen if you actually took a fall on this type of tie off. This type of demonstration should be enough proof for the doubters that you should actually pay attention to how you tie off. It’s obviously an issue of training to make sure it always gets done correctly. Sometimes it can be the littlest attention to details that can have the biggest effect.

 

 

The wrong way:

IMG_1653

Better ways to tie off are to use either a clove hitch or Italian (Munter) hitch:IMG_1654IMG_1652

 

 

There was a rescue from the Paulinskill Viaduct in New Jersey earlier this week. A young female injured her ankle while apparently climbing around under the viaduct, a popular place to do some urban exploring. The viaduct is listed a seeing 125′ above the creek below.

 

Reading the article linked below and looking at some of the pictures, a few things jumped out at me. The first was that just because you can access somebody on foot, in this case climbing down the manhole, doesn’t mean it’s the easiest way to remove them. It looks like the rescuers entered down the manhole on foot and came up the side of the viaduct as an attendant on the side of the stokes basket.

viaduct entrance viaduct edge transition

 

A couple of things I noticed: Great use of the tools at hand to construct a high directional. I do think, however, that it was leaned out a bit too far. If you watch the video in the link, you can see the difficulty in trying to bring the basket up and over the rail while the attendant is still attached. Not a huge difficulty, but probably frustrating.

 

Four quick thoughts on fixing that, from guy who wasn’t there and is Monday morning quarterbacking it.  First, don’t have an attendant. There didn’t look to be many obstructions on the way up.  Attendants are popular because it looks cool and we often times do it in training, but they are not needed as often as we put them on.

Second, have the attendant get on terra firma as soon as possible. This will cause  the edge crew to only have to haul a single person load out of plumb and up over the rail. This means that the attendant needs to EASILY be able to move up and down the rope; either be great at ascending and descending quickly or use something like an AZTEK kit for the attendant’s line.

Third, don’t lean the bipod over so far. It’s nice to not have any rope touching the edge anywhere, but it makes it a tremendous pain in the butt to try and get back up over the edge because you are trying to pull a load a couple of feet in on a short rope. Difficult, to say the least.viaduct distance

Fourth, make gravity work for you. I’m not sure if it was possible or not, but why not just lower all the way to the ground? Have the Gator at the train the bottom and move them up to the ambulance on that, perhaps? Again, I wasn’t there, but options like this one should always be considered during the size up.

 

http://www.lehighvalleylive.com/warren-county/index.ssf/2016/01/pair_cited_after_rescue_at_pau.html

 

Thank you to everybody for all of the interest! After filling up all of the spots in our first class in record time, we opened up a second class right after the first one. That class has now filled, too! Keep an eye out on the website for our upcoming classes. We will most likely have the next one in March. You can sign up for our mailing list in the column on the righthand side of the web page.

 

 

After many months and many requests, we are once again offering open enrollment for our popular Modern Technologies in Rope Rescue class. Come join us in Lancaster, PA on Oct 17 and 18 to learn how much more efficient your rescues can be with a few pieces of modern gear and a whole lot of practical applications learned from real world experiences. Here is your chance to keep up on the latest equipment and trends in the rope rescue world.

 

After filling up the Oct 17, 18 class in record 5 days (!!!) we have decided to run a second class the following 2 days. The registration is currently open for the Oct 19, 20 class. The link at the bottom of this page will register you for the second class.

 

Topics this time around include:

Use of the AZTEK kit to pass knots, perform a pickoff, basket attending, and a whole lot more.

In depth discussion and use of the Two Tension Rope System utilizing the MPD.

Use of  the Arizona Vortex  high directional in the urban environment.

The Rescue 2 Training original: The Appalachian Doortex! For urban anchoring and elevator rescue. High Directional? Anchor? Both!?… Come find out!

3 dimensional anchoring with the UFO.

The Skyhook capstan winch.

…And much more.

The cost of this two day, 16 hour class is $295 per person. Just bring a harness, helmet, and any ideas or equipment you would like to see used.

Please contact Kelly Byrne at 240-462-6610 or kelly@rescue2training.com with any questions.

 

 

IMG_0903IMG_0631IMG_1011IMG_0437IMG_1243azorp gin pole

 

 

The title of a “The Greatest Highline Ever” is being given to a group of people who probably knew very little about rope rescue as we know it and also probably wish they never had to set up this highline.

 

On May 11, 1945 an aircraft carrier called the USS Bunker Hill was near Okinawa, Japan supporting the invasion of Okinawa when it was struck by two kamikaze planes in quick succession. The ship was heavily damaged and the crew suffered massive casualties. 346 sailors and airmen were killed, 43 were lost at sea and never found, and 264 were wounded.

 

A light cruiser named the USS Wilkes Barre was one of several ships that came to the rescue. The Wilkes Barre was brought alongside Bunker Hill, with the Wilkes-Barre‍ ’​s bow placed hard against the Bunker Hill’s starboard quarter. The cruiser played 10 streams of water on the persistent fires, while 40 men, trapped astern in Bunker Hill scrambled to safety. Additionally, the injured were ferried to safety from one ship to another utilizing a highline. The title of “Greatest Highline Ever” goes to the “Greatest Generation”. Take a look at the pictures below and see if you agree.  Additionally, take 3 minutes to watch the Youtube video below. There is some really compelling footage of the actual attack as well as some pretty gruesome pictures of the aftermath. Let’s not forget the sacrifice these guys made.

bunker hill highline

 

Bunker Hill 2

 

Wounded Yorktown Crewman Transferred Via Breeches Buoy

 

https://www.youtube.com/watch?v=n3k60lUzM6c

It seems that despite the lack of American popularity, the technique of the “Kickoff Pickoff” is pretty widely used throughout the rest of the world. Take the video below, sent to us by Will Paces from NIPSTA, as an example. It’s the latest in a line of this “unique” style of rescue that we have presented here. Looks like a fun drill to practice at work! I don’t think I’d want to be the victim though.

https://www.youtube.com/watch?v=YC4U63ygxds&feature=youtu.be

 

Judging by the results of the technique, it would appear that speed and power are a vital part of making the “Kickoff Pickoff” technique work properly. Witness what happens when you pussyfoot around with the technique (I’m not sure why I can’t get the video to embed, but it is definitely worth watching):

 

 https://www.youtube.com/watch?v=2_Wsy_EF_JY

 

Not quite as high speed, but certainly just as interesting is this awesome pickoff grab of a guy who was caught midair and wrestled back over the railing. Quick acting by all parties involved!

 

 

 

 

You may have heard of it as many different names, but if you want to learn practical, well researched information on suspension trauma than you have before, take an hour and watch the video below. In it, Dr. Roger Mortimer, gives his take on what is actually happening to people who are hanging in a harness and why he thinks they sometimes die because of it. I had the pleasure of seeing Dr Mortimer present this at the International Technical Rescue Symposium. He’s a great great presenter without any qualification. As a doctor explaining medical stuff to a lay crowd, he’s surely the best in the business. He’s also a cave rescue guy and has spent his share of time in a harness.

Someone who was left hanging:

 

high five fail

The readers digest version of the big points:

– Death from hanging in a harness is caused by lack of victim movement, not the amount of time they are hanging.     Have the victim move their legs if they are able.

– Tell the hospital the victim has rhabdomyolysis and to prepare to treat them for that. It will save a lot of time and confusion on both sides.

– It’s okay to lay the victim down after they have been removed from rope.

Here is a link to the paper published in the Wilderness Medical Society Journal:

http://www.wemjournal.org/article/S1080-6032%2810%2900320-0/fulltext