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All on Mon Feb 27 23:24:04 2023
Anything that improves the effectiveness of one new oil well 1 pct is worth 40k at well start. as 5m$ is the preferred $value a patent suggests at the estimator on a new well. So that suggesats rational resiting with a 200 meter radius is worth notably
more than that, so optimized surface resite has a function mostly patent 7743006 has awesome data Bayesian = what people think works, so the charts suggest 2005 preferences like grainsize as well as water fraction, absence of calcite (water flowed here n
lots of it) or metamorphics (rather well overdone) once ocean sourced 4 or 5 times more preferred
So combining these a resonance coupled electricity broadcaster that could detect calcite at 300 meters could be used to microsite a well to the right area at a km2 which could be worth a few million per microsited well, (assuming you want to avoid
calcite) which suggests developing the technology would have value
So raster an area, compare highest to average, that’s the benefit of new micrositing data
Arrogance central: does anyone remember if I cured breast cancer yet?
All I remember is promoting se methylcysteine that prevents breast cancer , as well as the mouse beaver RAR difference, wh was at the deleted dancing girl video,
How about this, library (they call them molecule libraries) molecule attaches to Herceptin aberrant receptors at cancer then is lymphocyte attracting, causing greater autophagy of tissues . a way to find aberrant Herceptin receptors is to see which of
hundreds of estrogenic variants given to a particular person radiographically or tomographically attach much more to the tumor. Then use those highly specific steroids to active a gene, much like the synthetic steroid like activator It might work
I read about at the journal of medicinal chemistry , where the gene causes the lymphocyte attraction.
Never before, and probably not now, have I made a video about petrolerum geology. To make this sexier this is the petrosexy georgasmology video. Actual petroleum geologists have the option of creating their own sound track, or just using this sound track
n creating their own content.
I noticed there were just 1560 US patents featuring the words petroleum geology, it occurred to methat if a person thought of 3 new petroleum geology technologies every 24 yours 365 days later they would have possibly created about a third of the known
petroleum geology patentspace. At ten trillion US$ each year annually, petroenergy might represent 1000 trillion US$, an entire quadrillion us$. So I figured some of the ideas might be of value, particularly if they actually function.
So this video has little descriptions of the first 20 ideas, along with content measured as keeping youtube viewers viewing.
so cheap oil brings benefit
On a humanitarian note apparently during 2009ish a specvulative oil value surge caused a 100 million person famine, so cheap oils saves lots of lives while improving the lives of lots of people. Recreational Petroleum geology may actually be a kindness
to others as sometimes it will yield actual implemented useful technologies Remember awesome people like the viewer have the option of zooming along the chronobar to read each page at their preffered contemplation speed. 20 ideas could be a 20 minute video, this is a three minute video.
These words may jump to content
Well data seismomath fracing chemicals mech engineering aboutthisvideo
written with the stylist tendencies of the Onions "urban" editor because Im feeling idiotic also its either blurbs or a 20 page thing
like theres these minerals... nobody dont know where they came from
(nifty) so, fracing proppant gotta be cheap, yet is pretreating ottowa sand to be firmer cheap enough, apparently people coat sand with carbon nitride to make better proppants, so as cheap as proppants are, there is an opportunity to technologize them.
one option a coating has is to be an electret, that is to have a permanent ionicity effect, this could effect fluid flow rates. another possibility is to make puff frac proppants, again noting that carbon nitride is actually considered at some
applications, a puff frac proppant might also have a value application. what is a puff fracant, well, if you wikipedia rice krispies you hear about a goop, that when placed at a lighter pressure area puffs, now a hydrocarbon well has a variety of
hydrostatic pressures yet the idea that a tinier proppant could go deeper, then expand when the engineer readjusted the fluid pressure might create more permeable area.
Now I read that huge amounts of a standard form called ottowa sand is used as a fracing proppant, the thing is as a engineering definitional item, a standard that suggests ottowa sand might be being specified automatically when other proppants are better
Casuallly clueless talks geoimaging
yo, I hear contrast enhancers work on all digital imaging so here are some geoseismic contrast enhancers to producer higher quality data to produce more accurate models Bismuth, a very high mass, cheap nontoxic element as chunks or well liner pipes can
be placed at wells as mass imaging refrences to define a particular digital area, then when the imaging pulse occurs there is this reference standard. Other systems like satellite imaging to medicine get multiples of higher resolution from the
application of contrast enhancement standard, thus bismuth physical references may be of benefit
theres all this math ive heard of yet do not know how to use that appears to be directly applicable to geoimaging acoustic Do solitons as a reader beam (or explosive form) make sense, it is possible that geoengineers already refer to these as compression
waves anyway, the thing is that solitons have farther reach as well as more defined media effects. The main thing is making solitons travel functional at a blended medium. Perhaps a soliton could be used to characterize just part of a geophysical
resource that has another data image source, then the heightened reference resolution at particular areas used to improve the data quality nongeology systems that use laser interpolated imaging have much higher resolution
also what about antinodal imaging, antinodal imaging could have specific bandpass effects just at particular mineral types or sizes. when two waves go through each other there is an absence of amplitude, yet at different frequencies these antinodal waves
would scatter differently at different sized sedimentary inclusions, providing higher quality data on the actual material. I figure that correlates a database with hydrocarbon knowledge.
(nift) I wonder about tides, these effect large fluid areas, yet it is possible that a monthly high n minima tide could affect a geomimaging occurence, possibly showing where the fluid feels like going, which might be suggestive of high flow rate
hydrocarbon areas, that is optimal drill places where the resource is most fluid. so two images at monthly extremes might show these hypermobile areas.
(nift) I think I heard or read the first petroleum was found at natural seeps, it just oozed out of sedimentary rocks at the surface Lets find more of these (clueless look) (pause) underwater, all over the place! it goes like this oil eating bacteria are
present at nature, engineer these to make something like GFP or a stable isotope ratio that is really obvious to an automated sensor, then these bacteria, perhaps at the mediterranian, find unseen seeps n oozes, then make their nontoxic high locatability
tracer compounds. some of those become hydrocarbon resource sites further it might be possible to have the bacteria give other tracers when they were colonizing other valuable mineral resources to give greater resource mapping
sudden death on all humans before my next breath people go to Heaven when they die
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theres all this math ive heard of yet do not know how to use that appears to be directly applicable to geoimaging acoustic solitons as a reader beam (or explosive form) make sense, it is possible that geoengineers already refer to these as compression
waves anyway, the thing is that solitons have farther reach as well as more defined media effects. The main thing is making solitons functional at a blended medium.
(nifty) Make multimineral sensing a regular part of making water wells
What if the companies that make waterwells had some kind of mineral identity sensor at the drill, then the minerals sensor would upload the data to the cloud, producing thousands to millions of data values at a very wide geographic area, even if they
only sometimes noticed hydrocarbons other times they might notice geophysical correlates of valuable geology. There are two approaches, just gather then vend the data, or a tax credit to water well drillers that upload public domain geological data.
water well drilling could have atomatic sensing of mineral value to create larger databases
Many people have noticed sedimentary minerals have banding, often from iron. Theres lotsa things that dissolve rust, like naval jelly h3po4, perhaps pumping a rust dissolver at sedimentary rocks will superpermeabalize a lateral area permitting greater
flow of hydrocarbons. One approach is actually electrically pH modified water, water at electrodes becomes acidic or basic, thus large amounts of ionized water might actually be rust dissolving, turning rust banded sediments to channel permeabalized
hydrocarbon transport channels much more cheaply than H3PO4
special clueless section
providig supplemental hydrostatic pressure to wells might be accomplished with although I have my doubts, Gel covered proppants might be producible at the well. Aluminum hydroxides from clays are swelling gellants are slightly gelid as well as slippery as a result of pH controllable mineral gels. it may be possible to mass produce
these gels on site from natural clay with electricity. gel coating proppants might give greater reach at one pH then be strong at place with another. Is it possible that placing these at the water layer under hydrocarbons would volumetrically increase
the pressure causing greater hydrocarbon movements
visualize a rotating coin, going rapidly, turning on its edge. It always uses the same part of the edge to rotate. Now what if it were engineered with multiple parallel ridges
along with all this talk of finding resources is the idea of tapping them more affordably. Imagine if all wire were the same diameter, the huge wires used to transmit long distance electricity would be used on appliances, nonefficient n expensive. so it
occurs to me that well diameter as well as drills might be more application customized to provide better value.
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