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All on Mon Feb 27 23:22:18 2023
thinking about where organic goop comes from It seems like rain at upper lattitudes causes water courses that then run towards the drier areas. at north america this caused lots of goop deltas along the gulf coast. This theory would predict a fairly
narrow area of less than a tenth the continental area to look for hydrocarbons, which suggests predictive value. so does it work at other continents. do patagonian rivers flowing towards the planets middle create deltas of goop, where petrochemicals
might be found More meaningfully all the undersea riverbeds from when they were above water may have a direction of travel, thus suggesting a narrow area of delta goops that are now undersea petroleum resources this is an approach to finding oceanic
petroleum resources
water passing through material causes chromotographic effect, water stains cause material to visibly migrate then band. I think that at sedimentary materials the gradual migration of water as well as petrochemicals leaves a chromatographic image on the
sediment. thus even at test wells along with previously nonproducing wells there may be valuable chomatographicish hydrocarbon traces suggesting Petrochemicals of a particular kind migrated this direction, thus a person making anew well would have a
preferred directionality of seeking hydrocarbons, particularly if the cores show multiple chomatographic petrotravels towards a particular direction
(nifty) I think the drillstring could have hoberman like ridges that keep the sides particularly tidy permitting much higher hydrocarbon movement
previous ideas
sticky tape on cores makes geodata cassette a mass throughput approach to mineral characterization This described more fully at halfbakery.com
hydrocarbon as well as fluid minerals may respond to tides. There are orbital source gravitometric images now. from the satellite perspective an orbiting gravitometer could actually easily detect what would ordinarily be monthly peak or trough tides
several times each 24 hours to find where liquid minerals were most mobile as well as most concentrated. a terrestrial petroleum geologist might make two tidelike measurements a month yet an orbiting gravitometer could characterize the entire planets
moving fluid resources several times every 24 hours. you could even make two satellites, one always in front of the moon, one opposite, the difference between their data would always be a high contrast gravitometric image of fluid resources. Further as a
contrast enhancer, there may be a gravitometric standard object to creater higher quality imaging. It is possible the three gorges hydro project contains a precisely known hydrovolume that may be used as a data reference to improve imaging
situ transformation of hydrocarbons with chlorine from nacl water, grignard reaction, chlorine
I think the first time I thought about this had to do with making liquid fuel with coal use massive amounts of epsom saltys (natural) with chlorine from nacl water to make MgCl then chjange the size of hydrocarbons all you use is minerals near each other
(at least where Mgso4 is) or mgso4 which is cheap. so its coal or oil or kerogen, nacl water, electricity from geowarmth, or noting that they have numerous situ patents on warmth transformation of site minerals what those companies think is a value
effective chemistry warmer
silly idea stomatolites may have created hyper deep hydrocarbons, notably some petrochemicals are paleozoic, so stromatolites are waaaaaay before that noting that stromatolites were the main form of earth living tissue during an entire 2 billion years n
they created an oxygen atmosphere There Must Be a Lot of What They Turned into which is a silly theory, yet it is not even described on the first page with a blog like "so, where is the stromatolite oil, coal or gas then"
one reply would be that mineralized stromatolites suggest that silification rather than hydrocarnon migration occured yet silication takes vastly longer, so if there are deep stromatolites there might actually be hydrocarbons migrated upward of them
apparently alabama has stromatolites with dolomite so thats ancient rotting vegetation with high permeability minerals of course thats silly because the dolomite is actually more organisms layered on the stromatolites when they were near the surface, so
that particular area would have had the stromatolite products long outgassed divided pipe hvac software at buildings HVAC software says it saves 20 pt or more energy, yet what it does is just balace pump ait volume with zonal temperature as well as specified cfm rates. so if there were a well with like high pressure gas above a
liquid hydrocarbon, the liquid hydrocarbon might use 20 pt less pumping energy, if the divided pipe kept it away from the gas pressure area, or its possible thatsometimes say gas is worth 1 while oil is worth one. a few months later oil is woth 1.3 while
gas is worth .8 a divided pipe hvac like software could adjust to bring the higher fiscal value product per hour to the transport system at the top of the well so well HVAC could be a nimble financial strategy as well as a mere efficiency effect.
stacking proppants
paint on glass oil on a mineral is a little like paint on glass, is there some chemical or object that will ted to nestle between them, then permit the oil to move. when you think about paint peeling, the paint gets slightly curved while it rigidifies,
the curve as well as reduced stickiness causes detachment then it moves away from gravity. so is there a way like cool water, with an ionic fluid, that might make petrogoo detach, firm up, then peel off. follow that with warm geofluid to remelt then move
the liquid hydrocarbon. (possibly detergents have come between mineral surface n hydrocarbon as well) also detegents go between mineral n oil possibly carboates are hydrophilic while oil is lipophilic, the detergent goes between them. It may also be
possible to find a way to get dissolved gas, nitrogen or possibly argon, to go from eentsy compressed at fracing pressures to bubble sized between oil n mineral.
dissolved gas nucleation sites between oil n mineral
a new detergent that films on one mineral while beads up another, thus drawing fluid together
halogenated fracing detegents (fracing already uses detergents, are they halogenated yet
like that MIT person that light a few hundred watt light a few hundred meters away with resonance coupled nduction power a microdigging robot to sample a wider area at any movement direction also if the energy is sufficient have the microdigger robot go
to mineralized water areas then electrolize to make hydrogen oxygen gas this has well pressurization benefit it may also combine with gas to detonate causing microfractures that cause greater hardocarbon permeability with higher yield
use resonance coupled nduction to power capacitors which then hyperenergize a one use electromagnetic coil like at the coin squisher magnets that vaporize the coil. the purpose is to create a very high power brief electromagnetic mapping pulse that
travels two or three orders of magnitude further through minerals to do mapping. the two or three orders of magnitude is compared to the em metal detector coil I saw at the petroleum museum image online. a vaporizing coil mapper could see at much greater
depth through minerals as the em amplitude is vastly larger.
little standing waves (like same as it ever was video) at a sedimentary mineral or sponge that also has a high amplitude gradual wave may vibrate fluids towards larger gap areas making them more transportable with the big wave or pressure fronts passing.
kind like vibrate the fluid to the most traversable sponge chambers then gradually press the sponge.
situ hydraulic velocitization with area if you view a stream, then put a fabric at part of it, the fabric will accumulate gunk, as a result the remaining area of the stream will move faster, thuis it is possible to use area specific gunking up to create
higher velocity. Thus it may be that putting reversible antiproppants at a frac actually creates higher gas travel velocity, which makes the rest of the well pumpless or cheaper.
foraging theory math foraging theory sometimes compares a person walking along looking with a glance to find a treat once every few meters with another person that walks a hundred meters between areas, then at each widely spaced area makes a bunch of
micro trips.
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I think that if you look at producing wells you can make a foraging theory math graph that overlays producing wells, then you use a correlative computer program to suggest places to make wells based on far enough away to be sipping different resource
pools, foraging success graph extrapolations, The groovy thing, is that if you develop thid model without looking at the underlaying geology, then it predicts adequate new well places at new (yet verified production area data sets) areas at a particular
financial rate of success (better than breakeven) then you have a mechanism that successfully puts wells at places not predicted with geology, which When Geologically Characterized Describe New Productive Geologies(!) so its math wildcattng that teaches
what new oil finding geology looks like, which can then be used the usual way to find oil based on geology maps English version: theres an oil or gas well at Pa as well as LA, so we make a well between them, because we specified better than breakeven at
our foraging theory location data, we get an arkansas well, about three of those gives a producing well, which also teaches us about a completely unexpected geostructure that has petroresources.
nitogen trichloride explosive fracing mousse from ait as well as naCl water electrolysis I think that an oil water blend known as a mousse could contain nonreactive nitrogentrichloride where the nitrogen trichloride is made on site from nacl water as
well as atmospheric nitrogen which I read is actually made now with membrane systems. nonexplosive as a solution nitrogen trichloride or tribromide is made to be an oil water mousse, then pumped at frac sites. the mousse decombobulates (separates) after
a few minutes or hours causing autodetonation nitrogentriiodide is stable at solution, then when it dries on paper it explodes, so its possible when an oil water mousse separates the nitrogen trichloride is less dislloved thus explodes.
ammonia with hydrogen peroxide from air water electrolysis creates hairbleach chemical that surfactants as well as widens permeability at fracs
thats like 20 petroleum geology ideas to go on the next video which would be better with more anime girls
catalytic reforming of hydrocarbons may be improved with the use of resonance coupled nductive structures The electricity at a distance phenomena permits the refinery to warm specific areas as well as cuastom produce hydrocarbon movements. thinking of
packing trays at a catalytic reformer, these can be custom warmed or vibrated, possibly where acoustic resonance effects cause a particular kind of liquid hydrocarbon blob size at a distance
turning nastural gas to liquid hydrocarbons is sometimes accomplished with a catalyst I think that the effectiveness of catalysts may be improved with changing the duration of the transitional molecular form the intermediate. noting the phosphorescent
materials maintain modified energy levels minutes or hours I think that a cataltyst metal linked to a phosphorescent materal like aluminum styrontiate could shopw varied lerngth on ntramolecular dynasmics with photonic activation of the phosphorescence
modified state Further many compounds are phosphorescent with radioactivity, that is a high energy radiographic photon causes minutes or hours of averaged reemission length thus a radioactive phosphorescent catalyst, possibly something as simple as UCo
or UAlSrCo could have tunable catalytic ntramolecular dynamics where all of the stimulation energy was from mild natural radioactivirty. that is of benefit at thick or deep systems rather than planar light stimulated p[hosphorescent systems.
it would be marvelous if ch4 could be turned to c8h16 with a catalyst at the hydrocarbon well site large amounts of oceanic gas hydrocarbon reserves are known, the thing is cheap transport of the material.
environmentally milder approaches to getting hydrocarbon resources could be related to the pH of fracing fluid as well as the form of mineral accumulations. electrolysis of water produces hydroxyl or "proton" rich water of varied pH perhaps running this
fluid at a layer near the surface would cause the fracing fluid "leachates" to strongly precipitate different chemicals although I do not know if alkalinized well water fluid or acidified well water fluid or pH neutral well water fluid would have fewer
naughty solutes, one of the three is likely to be better than the others thus pH modification near the pregroundwater surface layert may be of environmental benefit The primary purpose of the electrolyzed water woulf be to improve mineral permeability of
fracing effects, the thermal energy from nonelectrical output of electricirty output could be used as process energy liker cogen. Also, it is possible the form of tailings may contribute to leachate. My perception was that during the 20th century they
would gather as resource, then cover everything with clay. It is possible that during the processing, layering or sizing the afteruse minerals creates a heap form that has milder leachates or autocompensating lerachates (dolomite (oh) on sulfur (h)
causes pH neutrality, with grainy parts between clay.
with fracing it seems like fracing at a sweep angle, similar to a person spray cleaning a driveway could of benefit
angle rinse, then proppant, would shift all the microsilt to just one side, I think based on patents that the presence of microsilk may be a soft materia proppants compress nto, which reduces the width of the nerw permeability channel. also a grapgic I
saw of fracing suggested 40 minutes of simultaneous fluid with proppant activity rather than, a sweep clean to one side, then proppant approach which could keep the new micropermeability wider longer noting these frac widths have sizes that are teeny, it
is actually possibly that electrolized water as a surface prep could microetch or otherwise improve the effectiveness of proppants. as usual the process waermth generated from electrolysis (most likely from ch4 generating eletricity) could be used as
part of the resourge getting process
a new kind of electricity atoms have s d pi orbitals Noting that quantum effects work on entire atoms I think it ios possible to send hydrogen or larger atoms through a double slit apparatus then observe only their orbital area of type s, d or pi, that
causes the quantum observation requirement to be electrons at a particular place. If the atom has a d or pi orbital detected, then a linked particle also has this orbital energized with an electron. now with previous version of electricity it was
desceribed as surplus of electrons always at outermost orbital Now we have quantity of electrons, always at s d or pi location as a beam of occurence. when attaching molecules tio each other, modifying a near core electron or speaking diectly to a pi
orbital makes a tremendous difference thus this is kind of like a new kind of electrocombination or electrolysis beam likely to be a catalytic beam as well.
noting that digital watches during the 20th century had a quartz crystal -|[]|- that vibrated at a precise frequency based on shape n mass whemn stimulated with electricity it may be that the micrograins of sio2 or crystal mineral sand may vibrate
slighty at just the right electrical field. It is possible that a drill head or surface might actually drill more effectively if the micrograins were electrovibrated with a mild current
making oceanic petroleum getting more environmentally mild may go with more effective precise construction. I heard that the BP deep horizons thing made a mess because when constructed it was noticeably misaligned at construction. placing small radio or
acoustic digital location desceribers on major parts of undersea wells, then noting their location to each other could describe to engineers how true to specification the actual parts were from each other. I do not think gps works underwater otherwise
precision locating everything would be a gps activity. It is possible that a gps at water surface, with a network of "radiosondes" or acoustic beacons could preciselty locate the entire data set though.
I saw a graphic that noted the active volume of oil was just 100 to 200 million barrels. slight deviations of beta caused valuation amplification effects, I think changing the active volume would reduce valuation volatility Thus I suggest that the
Chinese, the US, as well as Norway each create a 200 million bbl active reserve with big pools opf surface reservoir petroleum, possibly coated with a cm of silicone oil to keep it from volatalizing to the environment. Noting that oil value fluictuations
from 70 to 110 a bbl during 200 to 2009 caused gloabal security variations, as well as 100 million person famine I think Norway, which like Sweden devotes an entire 1 pct of its revenue to global social charity could fund an oil valuation stabilization
reservoir. the construction might be a few hundred million US$ yet it would prevent vast famimnes as well as civil unrest globally. The US would also build a surface petroleum reservoir noting that the trillion dollar middle east wars may have something
to do with oil security, as well as political reactions to oil security. Thus a few hundred million to reduce resource as well as political psychological volatility is a highly effecrtive defense nvestment. China faces a similar political stability
opportunity. Petroleum resource disruption could affect the chinese economy similar to the US during the 1970s. Russian oil is plentiful yet frequently politically nterrupted. creating a 200 million bbl reserve of oil pipelined from russia would largely
nsulate chinas economy from petroleum volatility. Noting that China was willing to do the yellow river project to improve society the vastly smaller cheaper petroleum reserve may be a thoughtful value to improving asd well as maintaining chinese economic
stability.
Thinking about the location of oil a petroleum geologist could view paleoweather direction as well as mineral type. Thinking of large near land water areas like sounds or bays it is possible to predict from the weather which areas will tend to accumulate
organic material. weather sheltered coves or the leeward (downwind) sides of big water are calmer thus have a higher likelihood of accumulated organics. so if a person has just a few core samples that say "organics" then they could look to see if a
slightly different part of the same core had ripples or high or minimal hydroerosion, thuis suiggesting which of a few test cores was most likely to be on the leeward organic accumating side of a previous bigwater area.
electrolysis of CH4 or rather dielectric disintegration of ch4 at argon presumably gives C, H, H2, as well as possibly a few longer hydrocarbons like c2h6. If there were a hydrocarbon resource with lots of ch4 as well as a use of chemical process warmth,
possibly shale or tar sands, then lots of ch4 could be dielectric disintegrated, producing useful hydrogen, with the warmth completely useable as process warming energy.
although it may not be a petroleum gelogy technology, it might be, If the worlds cheapest catalyst has a use at hydrocarbons then it does. The worlds cheapest catalyst is to dry seawater, electrlize to make Chlorine gas as well as "material" then run
water through material, mostly creating soluble NaOH as well as KoH, MgOH, having removed these dissolvable hydroxides some material remains. That material, mostly blended metals is the catalyst. what does it do? I do not know, yet if you try it on a
variety of reactions, if it does something beneficial its very cheap n plentiful.
The nernst equation says that the same chemical at different concentrations placed at different electrodes creates electrical potential. Thus 300 1/10 ml crevices, each with its own carbon electrode, at ionic water, might generate as much as 60 volts! I
think a millifiore bead like fracing proppant could be made. when experiencing moving ionic fluids the electricity producing microbead proppant could electrolize water to produce hydrogen as well as oxygen gas. this could be used to pressurize an air to
promote fluid movement, or to explode, creating creater permeability or a useful pressure wave.
I read that some hydrocarbon wells actually produce mousse , thickish goop, from water oil simultaneouties I think situ mousse could be made to autochannelize kind of like runny pudding with certain chemicals. I wonder what chemicalas I meant theres a
possibility that halogenated detergents would be super hydrophilic theres also a possibility that oil water colloids change goopiness at different ph which suggests the previously described cheap electro pH modified water Maybe it was rust, the fe203
fe3o2 cycle that autopuffs fe might actually mess with oil water blends while being cheap.
Regardless of their actual quality, coming up with three new petroleum geology petroleum enfgineering ideas each 24 hours seems to be possible. Thus I suggest a tax credit to companies that use oil technologies patented during the must recent half decade.
This would cause large numbers of people to think of new petroleum geology petroleum wengineering ideas then patent them while omitting direct regulation. Prior to my effort about 40 new petroleum geology patents occured each year, this recent month has
produced more technologies than that although obviously of varying quality with a complete absence of protyping. a tax credit would multiply my efforts hundreds or thousands of times while creating a much higher amount of quality control. The tax risk to
the government is minimal, perhaps a few hundred million dollars, to create orders of magnitude more petroleum geology technology. Thus it is possible trillions of dollars of economic as well as military risk reduction occur as a result of few hundred
million dollars of tax risk I urge the Chinese to take this approach as well. Even if only one of every million Chinese felt like creating a new petroleum geology technology idea each year, (rather than 3 every 24 hours) those 1400 new petroleum geology
ideas each year would nearly equal the entire previous patented work. This woulsd bring tremendous reduction of risk to China. Notably Chinas economy is linked to the value of the dollar, thus creating large surpluses of cheap hydrocarbons benefits both
the production as well as product accumulating, as well as currency value of chinese interests. also, its kind of mentally pleasant to try to think of new technologies. aside from all this risk reduction, state, duty, persuasion, the actual figuriong out
the new technologies is frequently nifty.
I wonder if drill pipe can be standardized as longer resulting as fewer steps per drill string to create cheaper well making
if you think of a coin rotating on edge, it always contacts at the same area, yet a coin with a wider edge with also a slight wobble would trace a minutely different path with each rotation. applying this to a drill head, it is possible a slight wobble
with differently shaped drill head could cause the mineral meeting the drillhead to usually meet a millimeterness fresh area of drillhead this would create longer durability sharpness as well as reduce thermal softening or repetitive metal smooshing.
That could permit highe drillhead velocity or fewer drillhead changes making wellmaking cheaper
Noting that two opposite rotating disks -] [- create fluid or gas movement patterns -]||| | ∲ | |||[- with noticeable layering (∲ is turbulent flow area) It seems possible there are siome catalysis circumstances where rather than a completely
dissolved catalyasts, or a completely surface active plated catalyst a thin layer mildly oscillated catalyst could be more effective. thus moving a blend of liquid ch4 with a fluid layered catalyst between opposite rotating disks could have the high
catalyst concentration, oscillation(surface refreshing), thermal optimization to turn ch4 to liquid hydrocarbons then when the hydrocarbon fluids with gas were foofed, that is evaporated, the physical; catalyst particles could be recovered as powder,
regenerated if necessay, then reused to catalyze more gas to fluid hydrocarbons preferably this process would be possible at the well head or oceanic hydrocarbon areas. after use some catalysts passivate, it is possible that this effects their mass
sortation tendencies, so its possible that at a opposite rotating disk passivated catalyst particles might move to a different area of the system
(hilsh vortex tube ) -> more active catalyst particles -> (flow normalizer) -> opposite rotating disks -> some of the multigas particle whooshness then is refed to the hilsch vortex tube to concentrate or maintain the pct of active catalyst particles
I think it may be possible to create a detergent that films on one mineral while beading on another detergents are used at fracing now, the idea here is that hydrocarbon clumping moves hydrocarbons differently than making a film like if you were
spraycleaning a driveway, a detergent that caused oil to bead, while water filmed, under a certain pressure spray would tend to concentrate the oil from push susceptibility Notably nitrogen from air is available thus electrolisis of N2 with hydrogen may
make some high pH (basic) ammoniaish gunk that may emulsify vheaply
like ^ ^ ^ ^ ^ ^ ^^ ^ each peak of earth crumple has a different height, so each ^ has a different hydrocarbon gas fluid pressure, so you can "tranch" these at a horizontal drilling map to get higher volume as well as effectiveness at a certain length of
transverse well
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