Visibility!

Working on a report today for a recent dive job in Cali, I came across this shot of me taken by backup diver. I don't believe I've dove water this clear in 10 years - the visibility is a bit shocking. I really like the shot... almost erie looking. Definitely one for the kids and grandkids someday.

Goin back to Cali

Had an oppurtunity to come back to the LA Long Beach area for a dive job. NYC project is delayed and family is not relocated yet, so it worked out. I was here a few years ago with the fam for my wife's tradeshow, when Dylan was only 4 and Gavin was still swimming round Tiff's belly. Nice area, especially Long Beach. Finally have a down day today to see the place during the daytime again! Anyway, job is going well... 6 hrs in the water yesterday, so recovering from a nice wetsuit rash today. All is well.

Week 1 in The City

Just a few pics from week long inspection of nearly century old wharf on the East River in Manhattan. Good to be back diving in The City!

Winter's coming - some ice engineering thoughts

For an ice engineering overview as it pertains to waterfront structures, check out this Marine Dockage article:

Thank you Beastie Boys

Just wanted to thank the Beastie Boys for helping me through this pile of inspection reports...  Mike D, if you're out there and read this - thanks.  Sabotage at full blast over and over will get me through it!

http://www.youtube.com/watch?v=z5rRZdiu1UE

iPad for inspection field data collection

Started using the first generation iPad without the 4G wireless for bridge inspection and general field work.  Here’s some notes on what I’ve found so far:

-          Extremely light and handy for climbing around bridges and embankments, although I need a waterproof case such as Otterbox or similar

-          Generally very fast and intuitive… I handed it to assistant and he took off with it with very little orientation

-          Camera is good enough quality for typical inspection reports; video/audio is good quality too (although can’t figure out a timestamp feature)

-          Screen is excellent for outdoor use, in direct sun it’s readable, but really great under bridge or in shade

-          Used the app “DocsToGo” to put about 70 empty reports on it, fill them in as we went, and then synched them back to office PC on our return – worked slick

-          used the built-in notepad to do photo logs and misc notes – very fast and easy compared to laptop or gps-type device

-          Tons of memory for storing maps, past reports, inspection manuals, etc.. anything you could possibly need on hand

-          Able to check in on email if wifi was in range, typically at lunch or breaks near civilization

-          Touch keyboard is very easy to use and fast, and it has the auto-fill feature which is handy for repetitive entries

-          Video with audio was very handy for ‘notes to self’

-          Used a rack mount in the vehicle for finishing/typing in between bridges – cost about $35 I think

-          Tons of other useful apps such as weather channel, mapping, sketch on photos, etc… with solid internet, the uses are endless

All in all, it is an excellent field tool that I feel blows the laptop, thinkpad, tablet pc, gps handheld, etc out of the water – I’ll be looking to use it more and more in the future; however, I will likely upgrade to the iPad 2 and would recommend you go that route as well – it really needs to have the solid, full-time internet access to be fully functional and used to its full potential.  Then you can be uploading inspection reports into bridge management systems as you go, which a lot of agencies are going toward – cloud service type approach.  It also has a Facetime app that is similar to Skype but much faster and streamlined that can be used for onsite videoconferencing if you’ve got the 4G wireless going on.  It has a cool feature for that also – push a button and it switches from the front facing to rear facing camera, so you can be talking and then show them what you’re looking at, then go back to conversation.

Interesting "green" erosion control

Saw this interesting old-school erosion control/wave dissapation in the Upper Penninsula area of Michigan on my last bridge inspeciton trip.  It appreared to be recycled dock planking from the old lumber mill structures that used to line the waterfront in the area, laid a a consistent angled manner along the manmade-fill shorelines and channel banks throughout the area.  Laid is multiple courses, with vegetation and gravel/sand/clay matrix holding it togetehr and infilling it rather well - seemed very stable.  The timbers remain durable but flexible - ran the boat up on it at one point and they flexed rather than breaking.  I bet this system has been in place for more than a half a century or more.

Watch out for traps (literally)!

I stumbled upon this one up in the Upper Penn of Michigan last week - not very recent installation, but a good reminder when climbing around these structures, especially in rural areas and water crossings..

Some "different" type inspection photos using iPad built-in photo processor

I had high hopes for experimenting with the "thermal" camera, thinking it might work for picking up road deck delaminations, but not impressed.  I suspect it's actually just picking up light relection.

Underwater Inspection - It's not all cracks and rebar

"Underwater bridge inspection - It's not all cracks and rebar"

As I write this, I am returning from North Dakota after performing underwater bridge inspections on the Red River.  What made this inspection trip different from any other, and pertinent to this blog, is that two of the three dive team members are hydraulic engineers.  More accurately, I am an ex-structural guy who now concentrates on water resources projects; therefore, perhaps rather than a hydraulic engineer, I am 'hyraulically inclined'.  At any rate, the hydraulic slant to our team makeup helped to shine a unique light on bridge inspection work, illuminating areas that are perhaps less emphasized or closely observed by the traditional structural crew.

With something like two thirds of bridge failures being due to foundation undermining and scour, it stands to reason that underwater inspections are critical to public safety.  While routine abovewater biennial inspections often include assessment and rating of channel conditions, the real investigation into the health of the bridge substructure and river at the crossing occurs during the underwater inspection.  While most bridges with submerged substructure elements are on a routine five year cycle for underwater inspection, post-flood inspections are typically performed following major flow events to detect scour problems that may have arisen.  An effective underwater inspection team will have not only expertise in material condition and deterioration, but an understanding of stream stability and bridge hydraulics.

As a hydraulically inclined bridge inspector and PE-Diver entrusted with safeguarding the traveling public, my primary focus is on the major threats to foundation stability such bridge scour.  Here are some of the critical checks I make and items I focus on:

- Channel cross-sections.  A very experienced NHI instructor once taught me that for any inspection of a bridge over water, if you can only make one single observation or measurement to assess its health, it should be the cross-sections.  A scour hole may be too large in diameter for a diver to observe or detect in near zero visibility, but the cross-section soundings should pick up such changes in the streambed elevation.

- Footing, tremie seal and pile exposure.  Exposure of the tops and sides of a footing and/or tremie seal is recorded and tracked, especially if the piers are known to be on spread footings.  Exposure of support piles under the seal is cause for more immediate concern, and may instigate more structural analysis and remediation.  Bear in mind most piles installed under grade are not coated or treated to protect against the corrosive and abrasive effects of exposure to streamflow.

- Bottom probes.  The streambed condition around bridge piers is very important to observe and record, both for assessing current health and aiding future analysis efforts. Local scour holes around piers in a channel with an active bed during high flow events may fill themselves in with softer material as the flow subsides; therefore, the inspection diver should be probing with a rod around channel piers and looking for changes in the bottom material.  A relatively flat sandy streambed with swaths of deep silt around the piers is a good indication of past scour, even if no depression is observable.  

- Riprap.  Designers need to know the type, size and extents of any riprap or scour countermeasures present.  In developing scour protection designs and plans of action for scour crticial and unknown foundation bridges, it is helpful to know what protection is there and how it is performing.

- Floodplain piers.  Underwater inspections crews often end their investigation at the highwater line, which during normal flow periods means only the channel piers are being assessed.  Flood flows or a meandering stream can expose normally high and dry piers to scouring flows.  Piers above the channel banks and in the floodplain typically have more shallow foundations and are not shaped or oriented well for handling flows.  Hopping out of the boat and hiking up the banks may reveal large scour holes at piers and abutments that did not fill themselves in when the water receded.  In fact, an attentive underwater inspection team may find themselves diving into a local swimming hole hundreds of feet from the river bank to find an undermined abutment.

- Stage, velocity and attack angle.  The water level and peak velocity at the time of inspection can be very helpful to designers pouring through bridge inspection reports to develop scour monitoring programs and bridge closure triggers, since this information can be tied to nearby USGS gage stations.  While flow direction is typically noted in underwater bridge inspection reports, it is similarly helpful to designers if attack angles are noted at each pier in sketches.

There is a whole lot more to effective underwater bridge inspections than cracks and rebar.  When nearly two-thirds of failures are due to foundation undermining from scour, the bridge-river interaction is just as important as material deterioration.  While the abovewater bridge inspection scene can oftentimes seem more about generating maintenance lists for local agencies, underwater inspections are undoubtedly aimed at avoiding catastrophic failures.  The truly effective dive team, and dive inspector, will have a strong balance of structural and hydraulic expertise.

Even the little guys need attention too...

Some pics from the field, checking out minor bridges, culverts and tunnels in Denver this week.  Mr. Hitchman, resident Aussie, is an avid snake breeder/buyer/seller/protector and knows what he's doing... and this bull snake is non-poisonous.  Needless to say, I let the Aussie James go first.

Following up on the digital oranges...

A previous blog entry discussed the use of a cast-and-retrieve watertight GPS unit to track streamflow data through a bridge opening, and mentioned a comparison of modeling results to come.  The applicable project involved 1D hydraulic modeling of the tidal estuary and bridge using HECRAS.  Without going into the limitations of this modeling approach too much (compared to 2D), here is a short summary the effort.  The peak velocities for each track were extracted and reduced by 20% to convert from surface data to an approximate depth-averaged velocity.  Peak velocity predictions from the applicable tide cycle in the model were extracted for comparison per location along the crossing.  In most cases, the GPS recorded up to 2-3 times faster peak velocities than the model predicted.  This bust is primarily due to two issues with the 1D approach:  the model is not capturing the convergent (2D aspects) flow characteristics through the crossing (significant at this site), and the streamtube approach of the model is smoothing/averaging the data, removing the peaks.  A 2D model such as RMA2 would better capture those localized peaks around the substructure, as well as angles of attack.  Pulling the tracks into google earth and doing a simple averaging of the velocities between start and finish points confirmed the logging was good and gave velocities much closer to the model predictions.  Luckily, model calibtration was accomplished via on-site tide gage data.  In short, I look forward to using this field method on a future 2D estuary flow project and comparing ... oranges to oranges... exuce me - had to say it.

"north country hydrosurvey"... this is how we do it up hyinder in the woods..

"north country hydrosurvey"... this is how we do it up hyinder in the woods..

Holdin onto the dream!

http://www.youtube.com/watch?v=T-aZTi8bY3Q

Record flooding of Lake Champlain

Pics of flooded ferry dock back home. Lake Champlain is way above the past record stage set in the 1800's. Vermont filing for federal disaster assistance for first time since early 1990's.

Scuba inspection hints and gadgetry

I just came off of some underwater bridge inspections in Florida using the SCUBA approach.  I don't go scoobie-doo for work very often, but it works well for the small bridge spans and slow-moving clear waters of the Florida intercoastal and canals.  Thanks go out to the Florida dive crew that brought me up to speed on safe practices down there.  Besides the established safety guidelines and recommendations out there (see OSHA, ADCI and USACE) regarding manning and communications, here are some helpful tips and gadgetry to make this inspection method go more smoothly and safely. 

1.  Underwater slate - works very well for short term note-taking between surfacing to relay to topside crew.  It's a good idea to take photos of the notes prior to erasing, in case later reference is needed.

2.  Pony bottle (20 cu. ft.) with dedicated regulators for back up emergency air supply - this is now part of OSHA dive regs and seems to be becoming common place among recreational divers as well.  The 2nd stage for this bottle can be bungeed around the neck like cave-divers do, or just clipped on the BC close to your face like I did.  Of course, with the octopus I had 3 mouthpieces clipped close to my face, so make sure you know which one you're breathing off of!

3.  Helmet - I started donning my climbing helmet after a few bridges just to provide a mount for my video camera (see next item), but quickly grew attached to having it on.  Being a hardhat diver, the climbing helmet gave me a safe and reassuring feeling to have something on my skull besides a swim cap.  I thought it would be unfortable underwater, but in fact I hardly even noticed it was there and inadvertantly banged it off piles frequently.  It's not an industry requirement to wear head protection when on SCUBA, but I think I'm going to incorporate it into my normal gear.  A colleague in another company lost a good friend who was inspecting an outfall pipe on SCUBA in a pond with zero viz.  He dropped the camera on ascent, and upon descent to retrieve it, hit his head hard on the pipe end, lost consciousness, spit out the regulator and drowned.

4.  GoPro Helmet Camera - this was a birthday present a few year back to capture fun footage of mountain rides on my motobike.  I've never used it for that, but it's come in handy for work above and below water.  It attaches easily to my climbing helmet, and you can't even feel it's there underwater.  The housing is waterproof to 100 ft, and the camera is wide angle HD, capable of stills and video with audio.  Downsides are that it has no zoom function, needs relatively clear water and lots of light, and there is no instant playback.  It has a habit of shutting off prematurely if the batteries aren't absolutely fresh and new as well, which can be frustrating when you don't have time to stop and check it constantly.  I wouldn't use it as my primary underwater video if it's a required deliverable for the job, but it's good for a record - it holds about an hour of video at a time.  I use it alot above water without the housing as a sort of visual voice recorder for important items during inspections, and the footage for climbing inspections is awesome.  Short sample underwater video clip is found at http://www.youtube.com/watch?v=kdk7sQZm-rs

Google 'GoPro Helmet Camera' to find out more.

Be Safe out there!

Car-armoring?

A river geomorphologist I work with, Bill Spitz, sent this around - pretty crazy - the Japan tsunami has stacked these cars up in the same fashion as cobbles in river bed armoring...

Experimenting with animated slideshows for work - Death to PowerPoint!!!

http://tripwow.tripadvisor.com/tripwow/ta-010e-ec6a-28a1?ln

Tossing digital oranges into the river..

I've just returned from a site visit to a coastal bridge in New Jersey, making observations and collecting data necessary for tidal modeling efforts.  With a budget too tight for extended tide data collection using our usual suite of bubbler pots and acoustic doppler velocimeters, I was faced with the prospect of using the age-old technique of tossing oranges in the water to assess streamflow.  I don't mind going old-school to get the job done, but with an absence of NOAA tide data in the vicinity, I really didn't want to calibrate my highly advanced models with floating fruit, no matter how sustainable and earth-friendly the approach may be.  I needed an equally advanced but inexpensive and quick method to gage stream velocity and angles of attack.  What I came up with was basically a reusable, electronic orange - a sort of digital streamflow tracer.  Here's how it worked:  Borrowing an outrigger real from the survey locker and mounting it onto a Home Depot purchased aluminum rod, I created a rugged casting reel.  Also borrowed from the survey guys was a water-resistant Garmin Rhino GPS/walk-talk handheld unit, which I placed in a waterproof low-profile plastic pouch with external anchor point, purchased from West Marine.  Visiting the bridge at a full moon spring tide cycle, I repeatedly cast the unit into the oncoming tidal stream and allowed it to float freely under the bridge and around the piers before retrieving.  The Garmin unit was set to provide track data at 1 second intervals, including lat/long position, distance traveled per leg, velocity, heading, elevation and time/date.  Using mapping software on my field laptop, I was able to periodically download and check the data visually as it was acquired.  Post-processing of the data shows very few data fall-outs as the unit passed beneath the bridge, with very clean-looking lines of track data obtained after a little trimming of the toss and retrieve periods.  Samples of the streamflow tracers are attached.  Surface velocities will later be converted to depth-averaged velocities using open-channel flow principles, and used in model calibration at periods of peak flood and ebb tides.  Angles of attack will be used in pier scour predictions.  I will post more later on the results of this effort.  Some additional notes if you try this technique:  Don't bother with ziplock bags - they leak no matter how many times you double and triple bag and tape them up!  Get a real ocean casting rod and reel with 20 lb filament test if you can.  My homemade unit did not cast well - I ended up letting out a couple of bridge widths worth of slack and tossing the unit by hand.  Squeeze as much air as you can out of the pouch while still allowing floatation - you don't want the wind catching it at all during the drift.  The low-profile West Marine pouch shown lay flat on the water and worked very well.  Lastly, have a witty retort memorized and ready for use when the local fisherman ask "what the heck are you fishing for??"

Happy casting!

Marina Design: Fixed vs. Floating Dock Systems

Recent article written for Marina Dockage magazine discussing the pros and cons of various dock system types used in marinas and small craft harbor settings.  Enjoy, SZ

Loveland WWII Diver

Interesting article about local lovelander who was diver in WWII.  He took the sink or swim training route, literally, as I suppose many folks had to do in that period.  And I though I was the only hard hat guy in northern Colorado.

Old School bridge inspector doing his stuff... looks like Manhattan Bridge

http://www.liveleak.com/view?i=fb7_1293681765&comment_order=newest_first