Somehow, I just knew Oil Slick Dick Cheney's old company would be in the spotlight.
Maybe they should stick to building mess halls in Iraq?

When will they hold hearings to publicly release data of all oil production data?
(and having it available through some librarian at the Texas Railroad Commission doesn't count)

Data needs to be free, baby, free.

Note the headline of the WSJ article doesn't match the content. If I'm reading that correctly, there was no concrete plug placed at all, let alone a faulty one, because the well blew before they had a chance to do it. For some reason BP decided they wanted to replace the drilling mud with seawater before placing the plug. This was not a simple mixup because they went to MMS for specific permission for this, according to the article.

Were they just trying to save time by dropping the cement through water instead of mud?

Shoot me down please if I don't have the facts or logic straight.
Posting under the influence. Warning: wild speculation follows.

The production casing cementing was a nitrogen job(?).
It tested OK(?).

Was a bond log run before calling it good?

I'm no expert on subsea BOPs, but presumably there would be some way to check for pressure in the annulus (after the production casing cement job) between the production string and the previous one (via the choke line?).
Was this low and (importantly) invariant?
Does the casing hanger assembly in and of itself seal off the inter-casing annulus? and if so to what rated pressure?

If the cement job was a (partial) fail outside the casing, it could still have tested good inside against the plugs(?).

Cement job returns volume tracking is generally somewhat vexacious (with u-tube runaways, catch-ups etc) and nitrified slurries just complicate the picture. I haven't personally seen any behave volumetrically as predicted.

It is possible that the cement job did not seal off the high-pressure producing zone. If the casing hanger assembly was not sealing properly, it may not have been noticed due to the mud hydrostatic (serendipously) closely balancing the formation pressure, so that nothing particularly abnormal was showing on the choke pressure prior to the riser displacement to water.

Displacing the riser to water would have taken roughly 2000psi off the hydrostatic pressure on the well outside the production casing(assuming 16-17ppg mudweight) if there was hydraulic communication through the hanger assembly in the BOP.

If the mud displacement to the ship was continuous (as opposed to doing it on a batch basis-i.e. fill a pit on the rig PRIOR to transferring it to the ship, so the volume could be tracked more precisely) then only the return flow sensor(s) would have picked up any anomaly.

Return flow sensors range from the crude (paddles, level sensors in the possum belly) to the the very precise high-dollar stuff (coriolois, mag-flow, spontaneous potential, which require the flowline to be engineered to be full of fluid at the sensor location, rather than act as a culvert).
As has been pointed out on a previous thread, it is entirely possible that the personnel (likely the mudloggers) charged with monitoring this stuff would have already been released by this stage of the operation (the end of the production casing cement job was the typical release point for mudloggers on any job I've been on).

The cruder sensors will detect big, fast events, possibly too late. If the return flow excess (over and above the flow down the string from the pumps) was significant, it is likely the gas was already in the riser (i.e already past the BOPs, the main line of defense).

The high-dollar gear can pick up more subtle anomalies, but as has already been stated by Rockman and others, someone needs to monitor it, actually know what any sensor/data anomalies mean, and be sufficiently bloody-minded to insist that there is a problem (e.g. mudloggers' opinions are often not particularly well respected).

The above is assuming the displaced volume from the riser was running through the bell-nipple and down the flow-line. If these were somehow by-passed (personally I don't see how, please correct me if otherwise) then there would have been no volume or return flow tracking at all on the rig, and it is understandable that the first warning would have been from the vessel's captain.

Changing the subject, what's the prognosis for Mexico, Jamaica, Cuba and the rest of the Gulf / Carribean if this carries on another 60-80 days (assuming that the relief well will be successful)?
What if the the first relief attempt is delayed or a no-go?

TP,

If you and other readers would kindly excuse the repetition, my understanding of the gist of your post is as follows:

1. The diverter would have by-passed the bell nipple and flow-line.
(I shoulda thought of that).
It is not yet known when returns were directed through the diverter.

2. If the casing was pushed up far enough (seen a lot of that on geothermal jobs due to thermal expansion, usually not super-serious there) into the stack, the shear rams would have been trying to cut through two strings (DP+casing)?

3. It is possible that there was no way to monitor pressure in the inter-casing annulus (Subsea wellheads/BOP are well outside my ken, so I may have misunderstood this).
The stack / wellhead mechanical details, especially potential hydraulic pathways will be key areas of interest(?).

Thanks for the reply.

Probably this has been posted here already but: http://www.youtube.com/watch?v=uG8JHSAVYT0

The leak must be massive and skytruth.org satellite spill estimations are starting to sound much more believable than "mere" 5000 barrels.

This seems to be the most current forum about problems and solutions in the Gulf of Mexico Oil Spill I have some ideas for containing the spill and am hoping for criticism. I hope I'm posting in the right place.
1:Can a blowout preventer type device be fashioned of two or more parts so it can be bolted around the damaged riser without damaging the riser further. If it is possible that the BOP failed to completely seal all piping from the wellhead, could that be because the pressure at this well is just too great. If that is a possibility, I hope any other BOP devices installed generate enough force to seal the pipes containing this great pressure.
2: If the containment dome were raised, thawed and drained, then re-installed, but this time with an outflow pipe attached, evacuated and vented to the surface as it covers the leak. I believe that the crystals formed because the flow was quite restricted throught that narrow outlet as the dome was settling into the mud.The pressure difference of that nozzle at 5000 feet underwater compared to that nozzle connected to the surface would be huge. Is pipe made that is strong enough to lower a mile full of air without crushing?
3;This is my original idea. How large a diameter pipe can be fashioned to run from near the surface to hover above each leak. If the pipe is large enough, each should act as an underwater chimney flue. Somebody mentioned earlier that the pipe on the dome was to act as a flue. A flue that small for a fireplace as big as that dome Wild Well Services built justwouldn't get by the housing inspector. I think a flue has to be around 1/2 or 2/3 as big as the fireplace opening to meet modern codes in the US. If the flues too small the room gets smoky. fast. but anyway. The oil should rise, the gas bubbles expand the water should settle out back to the bottom and exit around the oil as it enters. of course everything will swirl and mix and heat and cool and expand and contract and the pipes have to be big enough to allow this to happen without restricting the oils flow up or increasing it's pressure very much, because increased pressure is good for crystal formation and bad for large diameter pipes. I know I am talking about big, expensive pipes, and they must be strong enough to take some current and pressure and they may be tough to anchor, but in theory, on a calm day, will they work? I have another idea to handle the heavy weather at the surface, but I'm going for a smoke, so if anybody thinks this has promise, or not please let me know and the people in charge.

I added an excerpt from an article from the New Orleans Times Picaune this morning called Gas surge shut well a couple of weeks before Gulf oil spill

This article talks about the presence of methane hydrates and a previous shut down because of excessive natural gas.

"One gas kick that occurred as they got toward the bottom of the hole, approximately 10,000 feet below the sea floor, was such a large gas kick that they had to shut down operations," Bea said. "They were concerned about spark sources (on the rig at the surface) so they had to shut it down, because there was so much gas coming out of the rig and they were afraid of the explosion."

Deposits of oil are not in underground caverns; they ooze in the pores of a sponge-like layer of rock, along with natural gas in both gaseous and the crystallized hydrate forms. But the hydrates also exist throughout the drilled rock formations, and like the oil below, they exert upward pressure when a drilling operation opens a path to the surface.

In the incident that forced Deepwater Horizon to shut down drilling temporarily, workers in the rig's drilling mudroom stabilized the situation by putting a heavier form of "mud," actually a mixture of clay and chemicals, into the drill-pipe as a counter-balance, pushing down against the upward pressure of the gas, Bea said.

'Uh oh'
A transcript Bea collected from a witness says the companies were confident enough they had a lucrative oil source that they decided to convert from an exploratory well to a more permanent production well, a process that requires them to apply a metal and cement casing to the well hole. They chose casing 7 inches in diameter, Bea said, and that was further sealed with cement pumped in by Halliburton. Bea said his sources reported that Halliburton was using a "new" kind of cement for the seal, something the scientist said made him say, "Uh oh."

"The cement is infused with chemicals and nitrogen, and those chemicals and nitrogen form a frothy cement that is like shaving soap sprayed from a can," Bea said. "It was put in there because of the concern about damage or destruction of the seals by methane hydrates."

The crew on the Deepwater Horizon waited 20 hours for the cement job to cure before opening a key valve at the wellhead so they could place a final cement plug about 5,000 feet down the well. Bea gives Halliburton credit for writing "many excellent papers" in the past two years about the challenge of setting cement seals in the presence of large amounts of methane hydrates, which the Deepwater Horizon crew encountered in spades.

"Because of the chemicals they've added, they think the cement can cure rapidly," Bea said.

But Halliburton's awareness of cementing's challenges did not stop the cement from failing in the Deepwater Horizon's well. The chemicals they added for the curing process also create a lot of heat, which can thaw the methane hydrate into the gas that causes dangerous kicks, Bea said.

"I call that 'Uh oh' again," he said.

Haven't been hanging on every word of the hearings (live on C-SPAN), but from what I've seen, both the senators and the witnesses (from BP, Transocean, and Halliburton) seem determined to remain dead serious, with virtually no grandstanding so far from either side. The senators appear to have done their homework; the questions are on a fairly basic level, not nitty-gritty technical, but they've been informed, intelligent questions, and the responses have sounded straightforward.

Caveat: This is from the perspective of a layperson, minimally schooled by the Oil Drum discussions that haven't been way over my head. It's early, but so far, I'm encouraged that the tenor of the proceedings doesn't look to be of the hand-waving kabuki type we see all too often in such hearings. Hopefully some of the experts here are also watching and will provide a smarter view.

Dear Sir/Madam,
the economic and environmental impact of the recent BP oil spill desaster is growing day by day, and the cost for recovery is increasing dramatcially.
I would like to urgently draw your attention to a scientific biotechnoloy solution, developed in Italy, which can help to dramatically reduce the damage in the affected coastal areas: oil eating bacteria.
The technology has been proven to work and we are convinced that it is the best and most reliable solution to the current problem. For full details, please refer to the attached writings by Professor Broglio.
We strongly believe that this solution will be beneficial to all affected parties, and urge you to consider the proposed approach. Please do not hesitate to contact us if you have any questions.
We are looking forwards to hearing from you.
Kind regards,
Giovanni Nardacci

Biocatalytic Technology Important additional notes Premises The Biocatalytic technology for oil spill treatments make use of selected lipophagies, lipolitic and hydrophobic marine bacteria non genetically modified. This means that a natural and biocompatible product is released in the environment.
The bacteria are placed on an organic or inorganic substrate, depending on the desired use. In oil spill situations, the suitable substrate is pure bentonite (a special natural silicate).
The bacteria sprinkled on oil spots in the sea need, for the metabolic process, nitrogen and phosphorous, in order to achieve a balanced and fast growth.
In the sea, this two elements are very scarce: thus, you need to add them in the bacterial blend.
A particular technology has found the way to capsulate micro nutrients, so that in this way they can be mixed with bacteria. Capsulated micro nutrients ( floating ) take action quite gradually: the wax layer melts in hydrocarbon and slowly release nitrogen and phosphorous, allowing a rapid micro-organisms growth. WITHOUT THIS ADDITIONAL TECHNOLOGY ABOVE DESCRIBED, AN ACTION BASED ON BACTERIA ONLY WON’T BE ABLE TO ATTACK CRUDE OIL. The Biocatalytic technology in the United States of America Mr. Oppenheimer and Mr. Blundo have improved this technology, keeping excellent professional and personal cooperative relationship over the years. The capsulated micro nutrients are recognized by Oppenheimer as a perfect fit technology.
Actually, in the United States exist a firm called OBIO, managed by Oppenhaimer’s heirs, who unfortunately don’t have a scientific background but more a sale profile. In this days, Mr. Blundo contacted OBIO (already reached by US Authorities) making a cooperative deal in case of intervention.
CURRENTLY OBIO IS NOT CAPABLE OF PRODUCING CAPSULED MICRO NUTRIENT AND IS EXPERIENCING DIFFICULTIES IN PRODUCING BACTERIA WITH A INORGANIC SUBSTRATE.
The cooperation between the two firms, OBIO and EcoBios, is a great synergic deal considering the fact that EPA granted to OBIO the use of the bacterial blend, and the fact that the firm is an American corporation. What to do
The bacterial blend produced in Italy ( identical to the American product, except for the capsuled micro nutrients) needs to be validated in the United States, and in order to be so, needs to become a OBIO product, since the latter is authorized by EPA in the USA.
Orders may take place directly in the United States ( at least formally, since bacteria are produced in Mexico and in Italy, thus requiring shipment to the USA, which I believe will not be a problem).

NO ANSWER FROM BP........

I'm slightly perturbed by the way the remediation story has been panning out over the last 48 hours or so......

At the weekend we saw the first "coffer dam" box go down, and fail due to buoyancy issues, then get set aside. There were lots of pictures of this unit, schematic diagrams in the media, almost hour-by-hour updates on where it was up to.

This morning the news outlets were reporting that a new, smaller device - referred to as a "Top Hat" would be lowered within the next couple of days. And the absence of detail, hard evidence, etc is in stark contrast. We've been told it's smaller than the earlier box and..... er.... that's all I know at the present time.

Maybe I've missed something - but does anyone know any further details, seen any pics, etc? I'm wondering if this is really a full-blooded attempt to fix the leakage (even if only partially) or a bunch of spin? Anyone?

Regards Chris

Info NOTICE:

"-----Original Message-----
To: NSGIC State Caucus List
Subject: [nsgic_state_caucus_list] FW: Urgent Request: BP is looking for
five experienced ArcGIS Desktop Specialists (UNCLASSIFIED)

FYI please read below. Timing is urgent.

Chris Diller

------------------------------------

Subject: Urgent Request: BP is looking for five experienced ArcGIS
Desktop Specialists

Dear GISCorps Volunteers,

We have been asked to assist in providing five seasoned GIS
professionals to help at the Deepwater Horizon Incident Command Center
in Houma, Louisiana, an hour southwest of New Orleans.

Please note that this is not a regular GISCorps mission since it's a
"PAID"
position. However, if willing, applicants can donate a part of their
stipends back to GISCorps.

The following describes the requirements;

IMPORTANT: if you cannot or do not meet all of these requirements,
please do NOT respond to this request:

The applicants:

- must arrive in Houma, Louisiana TODAY (May 11th) or TOMORROW (May
12th) "at the latest"
- must be able to stay for seven (7) consecutive days and be prepared to
work for long hours
- must pay for their expenses and plan their own logistics to get to the
site; you will be reimbursed for all expenses at a later time (must keep
receipts)
- will be paid a stipend of $500 per day
- Extremely well versed in ArcGIS and all its applications especially
ArcMap
- Having own hard ware and software (ArcGIS version 9.2 and higher) is
preferred
- Experience in emergency response is highly desired

If you are qualified and can meet ALL the above conditions, send an
email along with your latest resume to deepwater@giscorps.org.

If you are seeing this information after May 13, please do not respond.

Please let us know if you end up being selected for this project. We
would love to follow up on the project with you.

Classification: UNCLASSIFIED
Caveats: NONE"

According to the testimony today, the BOP was modified by Transocean at the request of BP and paid for by BP. The Transocean speaker described them as modifying the lower ram as to facilitate testing the BOP without interrupting production. It sounds like they removed the shear tooling and left the cylinders in Place so they could monitor the extend and retract sensors.

The press have picked up on this "Nitrogen Charged Cement", the more common name is "foamed cement".
Haliburton have 20+ different types:
http://www.halliburton.com/ps/default.aspx?navid=204&pageid=98&prodgrpid...

Typically used where there is problems with low fracture pressures.

I think there's some basic science that's being ignored. The worst stress the Blowout Preventer could have taken is the rig ripping away from the riser. It makes sense to me that simply lifting the riser to vertical once again can't nearly be as much force as the rig ripping-off from the riser. To me it is a simple matter of science that lifting the riser carefully can never be nearly as strong a force as the rig ripping-away from the riser. And since the BOP has already withstood this force and isn't showing any damage I assume lifting the riser back to vertical will be within the limits of its already-proven tolerances. Frankly, I don't believe the reasons being told for not trying to get the riser back up.

Too bad there isn't an accident prevention system that could have kept the riser raised.

This one takes the cake for me... I'd be extremely pissed if someone pulled something like this on me.

Rig Workers Made to Sign Statements after Blast: Transocean Asked Traumatized Workers to Disavow "First Hand or Personal Knowledge" of Events, Lawyers Say

Most rigs that I have been associated with have flares. I didn't see a flare on this rig. Why didn't they flare the gas.

Besides surface conductor, there were two strings of casing, is that right?

Is cement usually placed around the hanger where production casing hangs in the upper casing?

How is cement set at the bottom of the hole at TD? Is an extra 5-10 feet of bottom casing filled with cement as the annulus is finished being cemented?

I used to do wireline and have set many a bridge plug and followed with a bailer of cement on top. These other details aren't clear to me.

http://www.youtube.com/watch?v=HUouKYPnI6A

Keith Olberman points out how politicians stories keep changing.

I am no experct on subsea BOPs but have a question some of you might have insight into:
It is my understanding that for activating the BOP there are acculator units (high pressure bottles with lines included in the BOP stack) with enough pressure to allow, e.g. the shear rams to close. With all the trouble to engage the shear rams, also by the means of ROV's; have anyone heard if the BOP was set up to work properly (i.e. is this a failure by design or by operational procedure)?

ABC News claims that they have "breaking news" that production from the well has shifted to a richer NG and less oil mix.

Labeled as "good news".

Also said that it improved the chance of the "junk shot".

Given that they did a graphic the day before showing cumulative spill AT 5,000 B/DAY was less than half the Exxon Valdez, I suspect BP influence.

Alan

ABC News claims that they have "breaking news" that production from the well has shifted to a richer NG and less oil mix.

Labeled as "good news".

Also said that it improved the chance of the "junk shot".

Given that they did a graphic the day before showing cumulative spill AT 5,000 B/DAY was less than half the Exxon Valdez, I suspect BP influence.

Alan

Can someone who has ties to the those in charge of design, construction and implementation of the "top hat" containment funnel, or flue, please suggest injecting the volume with methanol to dissolve the crystallizing methyl hydrates?

I'm a midstream environmental manager, so thanks to all you upstream/production guys for your excellent and informative commentary. I always wondered where that black stuff in my pipeline came from. ;)
I happened across this possible solution this evening http://www.dailykos.com/storyonly/2010/5/11/865491/-Permeable-Cone-Stock...

I'm not advocating or dismissing it, as I simply don't enough to formulate a scientific based answer, but I would be very interested in any possible engineering based reviews of this concept for containing the release. Cheers!

does anyone here have knowledge of the 'junk shot' technique? Does it have a decent probability of achieving the desired effect?

Also, I have started to hear about some effort to collect human hair clippings to stuff into oil-absorbent booms...with such a big spill, if every human on earth sheared all of his/her hair and donated it to this cause, would the result be akin to putting a band-aid on a crack in the dam?

Sea Captain tells of rig blast in gritty detail:

http://www.chron.com/disp/story.mpl/business/7000866.html

KENNER, La. — Hours before the late-night blast on April 20 that engulfed the Deepwater Horizon in flames and killed 11, there were signs of trouble aboard the drilling rig.

Shortly after 5 p.m. that afternoon, the rig unexpectedly stopped pumping drilling mud out of BP's Macondo well to the vessel Damon B. Bankston, parked alongside the rig. This was one of the last steps the rig was taking to secure the well and temporarily abandon it so BP could come back later to extract oil from it.

Hours passed before the rig gave word it would resume the mud transfer, but it never happened. Instead, sometime after 9 p.m., drilling fluid began shooting out of the well, coating his vessel like “black rain,” said Alwin Landry, captain of the Damon B. Bankston.

Then came a loud hiss, what he called a “green flash,” alarms and the start of one of the nation's worst offshore disasters.

Landry and two other crew members of the Damon B. Bankston were among the first witnesses to testify Tuesday before a joint panel of the Coast Guard and U.S. Minerals Management Service investigating the Deepwater Horizon incident.

They gave one of the most detailed public accounts yet of the moments leading to the blast and the dramatic rescue that followed.
................. PLENTY more at the link

cspan vidio of senate hearing:

http://www.c-spanvideo.org/program/293442-2&showFullAbstract=1

offshore oil and gas development oil executives panel may 11,2010.

imo, little of substance, widespread political grandstanding, senatorial finger pointing and industry finger pointing.

Nothing like a dual professional with a law background a professional fireman and an automotive engineers perspectives, if I can seal a racing engines power stroke I can seal that well. That fire that was shown on T.V. was no 2.5 or 137.5 gallon per 60 seconds floe rate those fire boats can throw more water than my standard 1500 gallon per minute fire pumper, like 7500 or so per boat and up??? That fire melted the oil rig. I think there was 6 or 7 boats, no effect??? Its a big leak and that video is also so slowed down that it is not funny, just for starters.I think we need an inflatable saddle valve and that Famous Red guy who has balls to plug this well, some luck and then a good kick in the pants for changing the cement formula to save money, the reasoning can we not try to speed up well drilling NO!!!!!!!! I saw his company drop close off valves on running wells in Iraq 600 or so oh yeah burning too. Get with it get on it and spend freely, B.P. sink or swim just like learning a new job.

Breaking News

BOP had hydraulic leak.

Well failed negative pressure test hours before blowout.

http://hosted.ap.org/dynamic/stories/U/US_GULF_OIL_SPILL_WASHINGTON_LAOL...

Alan

Today's hearings are being live blogged:

http://blogs.ft.com/energy-source/2010/05/12/bp-oil-spill-house-hearings...

This is a great condensation of the hearing, here are a couple of highlights:

• Second, the blow-out preventer had been modified in unexpected ways. One of these modifications was potentially significant, Mr Stupak said. The blow-out preventer has an underwater control panel. BP spent a day trying to use this control panel to activate a variable bore ram on the blow-out preventer, without realizing this would not work because of the modifications, which BP later characterized as “extensive”.

The Cameron official told the subcommittee that the cutting capacity of the blow-out preventer was not enough to cut through the joints in the drill pipe

I am the inventor of Halliburton's Spherelite Cement Additive. I first supplied this additive to Dwight Smith (then VP of R&D) @ Halliburton back in the late 70's (we supplied Spherlite for the GREAT Mexican Blowout in 79') The product is "Cenospheres" derived from coal fired power plants (basically it is Fly Ash) This lightweight Additive has been used very successfully by all the Cementing companies for many years. I know that Nitrogen based Low density Cement is cheaper that using Cenospheres but I wonder if the final cost of using this type of low density cement will truly save money (considering the cost of cleaning up this oil spill). Dwight has passed away now, but I wonder what he would say?
David Lindahl 941-375-8050