[continued from previous message]

well, this one requires major factual depth, or possibly just hype. viewing drilling logs, a distance of ten ot twent feet apparently can affect production a lot as a result of distance to the main depoit, although it might affect liters per minute more
than recoverable yield. some of those chats showed fairly narrow sweet spots as to channel location. so thats the factual depth, or possibly hype. now, when I looked at some graphs they uses conductivity to measure permeability as well as other
things so it occured to me that having more sensors, specifically two or three at opposite diameter along with a vertical could describe conductance variation through a few mere nches, yet from a software perspective if the permeability variability was
like .000001 as compared with .01 the software could tell the model that the extreme heterogenity of the petroleum formation suggested a different streering or path opportunity. so this is seeing variability, to make say a different number of laterals
or the like


well, basically this one just requires a person to say, yowza, (slight "wow thats a lot of new tech applied to a simple application", yet mild enthusiasm)
magnetic refrigeration works with atomic spin cooling, its an actual published thing, yet the amount of energy is teeny. to catalyze ch4 to longer hydrocarbons cheaply would make liquid fuel about 7 times cheaper (15$ same numbers of BTUs as 100$ of
oil) as well as permitting huge reserves of ch4 to be transported as liquid fuels, so i will describe this anyway. if you pass ch4 through Big Magnets(tm) or shine Groovy lasers(tm) at it will spin polarize, possibly very cheaply from many permanent
magnets at narrow apertures. Now here is the thing, other people have suggested catalytic processes using actual catalyst surfaces or particles to make ch4 be longer hydrocarbons so the idea is actually spin polarizing a microfine powder (nanopowder)
so that it is hyperreactive when it meets the ch4. I havent read about spin polarizing microsolids yet I think it is possible. so whats the largest spin polarizable molecule you can spin polarize cheaply, like with a NIB magnet with aerosol flow
apetures. It could be that something like PVDF linked to a metal atom, possibly Fe or Co has spin polarizability with long duration as well as high energy as a result of the fluorine bunching up all the electrons on one side of the molecule. so, if you
like hype, this is a high field concentration electret of polarized spin, that just happens to have a known catalyst metal like Co (or ni or fe or Mg) as part of its structure. its possible that accumulation of potential energies will make catalyzing
ch4 to longer alkanes functional at lower tempoeratures as well as lower pressures. (nifty) a fairly simple research would be to see if spin polarized hydrogen attaches to other molecules differently. if it does, then you could use similar effects at a
variety of chemical reactions

I heard something about near polar regions being an area of greater hydrocarbon exploration these are polar or near polar region petroleum geology technologies
these ideas also go better with greater factual depth or possibly hype. the concept that stands out is that artic surface hydrocarbon wells really value reliability, the effort to move, repair, or even diagnose them mechanically is greater at -100 F
than at say 77F many machines as a result of slight thermal variations shift tolerances, if its -100 on part of an oil rig yet -30 at another part, or even a balmy 20 degrees the mechanical stresses as well as eccentricities are going to affect
reliability as well as wear so this is a way to regularize the temperatures throughout an oil rig to make it more reliable as well as run more predictably. Its a slightly new kind of snow blanket researchers have described a water shedding shape known
as a negative contact angle, this causes water falling on things to stay dry, so I think artificial ice crystals made with negative contact angles will actually repel as well as shed liquid water. a snow blanket of this might have warm spots without
slush I also think a custom blend of ice crystals might have less slumping or liftability from high winds so this is actually a suggestion that artic oil rigs have a temperature regulation blanket of custom crystal engineered structural ice crystals
placed on their containment buildings
the idea is its as cheap to make as artificial ski resort snow, is highly durable, while it regularlizes temperatures at an oil rig building


visualize a nested pipe ( o) the little pipe is actually a waveguide, a microwave energy pathway of engineered shape much like 1970s communications waveguides. having a plurality of temperature sensors as well as varying the microwave frequency
slightly could move standing wave blobs of microwaves anywhee along the pipe, keeping it warm to specifications or possible warning the hydrocarbon a little. a funner way to look at this is a neon advertising tube with a weird transformer, a little
lengthof travelling light blobs appears, you could move them from place to place if you varied the transformer so that a visual version, this just does that with any area along a microwave waveguide that is part of a nested pipe, it permits spot
warming anywhere without valves or conduits, it also provides spot warming to keep everyplace at the temperature the software suggests

I think that oil at polar or near polar regions might be kind of goopy from the cool, it is possible that a peristaltic pump o|8 could actually work on a woven flexible, actually porous (the leak is kind of the plug as it its targoop) cause its moving
tube of woven metal, sort of like a radial tire metal mesh tube between rollers more effeciently than heating the goop to liquid, then using liquid contact pumps on it.

apparently I think theres some way to rapidly make olivine more porous so as to mak hydrocarbons flow more rapidly, I think though trhat except when they migrate, which is something they do, hydrocaerbons are found at a completely different sedimentary
mineral. anyway the idea appears to that some hydrocarbons have sulfur, which makes making h2so4 from near area material simple, then using that to affect the porosity of a mineral formation. basically noting that pressure njected situ wells actually
create areas of moving fluid, whats the cheapest mineral reactive fluid that ncreases porosity, it might be ph adjusted water from area sulfur h2so4 also noting that carbonates are highly dissolveable at low pH using h2so4 at some oil wells could
strongly improve fluid movement with the creation of larger channels or dissolving microblocks between voids

I read a thing that said situ hydrocarbons from oil shale were about a third cheaper than hydrocarbons from surface prepared oil shale, it could be that surface prepared oil shale would be cheaper with a gigantic automotional heap. making the giant
heap is comparatively cheap, then using gravity to feed the entire process reduces movement energy movement machinery as well as simplifies things. Bessemer kind of had a similar idea. anyway the giant heap has obvios spillways, that, perhaps, when the
material slides along sorts them on chunk size (this is a waterless process yet similar effects are seen at nature as well as water) huge solar concentration mirrors, which are cheap n stationary, warm up the mineral chunks givinbg much of the
thermoprocess temperature. then, depending on season, cool water is used to hyperfracture the warmed rock. that might make little chunks of oily watery shale cheaply enough as a surface process to be competitive with situ approaches. then my notes
suggest a technology i have previously suggested which is combining dissimilar particle size 0o0.O that when compressed create a higher pctage of tinier chunks then you send the right sized cunks to the actual petrochemical reactor or fluidized bed, now
the thing that made me think this is economically valuable is that basically when a huge heap autosorts into heaps of different sizes, possibly petroleumcontentness, that the oil nstallation can just run whatever start material the going rate of oil
justifies. if oil is cheap, only the microparticles n oily water skimmant are cheap enough to make to fuel, at more moderate valuations of petroleum then the machinery to actual make it faster is acquired, if petroleum demand is very high then the sysem
naturally converges towards any existing system (like the ones a third more than situ processing) because, really, its mostly just a big heap of mineral chunks. also some situ oil shale process I have read about have a lead time while the oil is
transforming at the situ area, its possible a flexible autofeeding heap is immediately functional as well as rapidly responsive to fuel valuation fluctuations

heres a wild one, I may have previously described this. if carbon antennas are functional, then you just spray images like >>>>>>>>>> out of conductive paint, made at the site from carbon on mineral chunks, then microwave them, the antennas get really
high temperature, yet the microwave generator is just part of process temperature generation anyway, it could possibly cause mineral disintegration a little better

I feel I may have previously described this yet its not at the immediate notes a blob of butter floats on butter oil, now lets think about a situ oil shale hydrocarbon process, the liquified hydrocarbons naturally sort, at least some, depending on permeability as well as channel size, so that to some extent, they are a little like
a lighter liquid part as well as possibly a goopy thick. now think about old jello, it naturally forms rivulets of water with high fluidity, where the jello protein has skipped absorbing water. so is there a way to cheaply create high fluidity rivulets
at the part of the naturally semisorted hydrocarbon that cause much faster movement along channels

ive previously described changing the number of waters of hydration on dolomite as an approach to modifying the volume of a mineral which is kinda iffy, as dolomite is absent waters of hydration


well not at my notes yet possibly meaningful, clays, possibly oil shale, are slightly gooey as a result of the basicicity of alumuna containing gelid goop. clay is slippery because of aluminum hydroxidish gel, these gels actually change volume slighlty
as a result of ph, so looking at the permeability or percolationality of ordinary clay (like if a person were doing an actual lab activity it would be like clay granuales, slight spaced so as to at least have a flow rate to start with) at different phs
could describe different flow rates from expanding or shrinking gels thus if you treat each kind of chemical at a mineral as an equation series like
amount of available permeability changeability = dolomite (shink or grow) with alumina (shink or grow) with silica (um, perhaps shink or grow) with various treatmeants

its possible that the opposite of activated charcoal, that is where a percolation gradient very rapidly aquires a few orders of magnitude more surface area (carbon, then crystallize CaChloride to make ultramicrotexture) could suddenly (less than 24
hours) remove viscosity producing surface area from a sedimentary mineral, if the mineral was oppositeofactivatedcarbonificated then fluid movement would be much more rapid. dolomites as well as carbonates are easily surface etched, or preferabbly
hypersmoothed with chemistry so a new kind of chemical polisher could actually strongly improve petroleum yields. Its possible that rather than just saying h2so4, there might be a nonntuitive solution like h2so4with sodium meta silicate "smoothing
version" that actually oppositeofactivatedcarbonificates a carbonate petroleum well cheaply

if ferric materials, or magnesium chemicals at oil shale are reduced to metal, electrochemically, does the "clayspace" shrink slightly ncreasing porosity thus slightly, which might be an exponential hydrocarbon goop travel benefit



(nift) that 1 trillion bbl of oil shale is layered with volcanic debris is just superb that suggests there are microlayers that are actually highly porous as a result of the kind of spewed volcanic material at a distance radius. just locate the
prehistoric volcano then the porosity banding of green name oil shale is actrually graded at different distances like microfine 200Km from ancient volcano, chunkier 100 Km, silty 300 KM, then the banding effect suggests that a centimeter aware drilling
technology could actually localize of lateralizations (planes) to different eruption times. this is like a geomap of what the spongy volanic layer is at, depending on the distance from the volcano, along with a way to estimate microbanding region
hydrocarbon content, like a wide band far between eruptions would be software database accumulated as having a certain meaning, like say, richer at a particular kind of kerogen.

so its almost like


fmri of aesthetic beauty
visualize a person facing a beautiful image walking towards it. mentally, there is a prerecognition stage where the person has yet to note it is a human form, a little near the general shape is visible, nearer yet possibly gesture or arm or position
as well as figure then face visibility then walking nearer highest resolution image awareness, then even hiher resolution typically at the face as well as upper body. Now think of an fmri of this sequence displayedto a viewer, who presses a key when
they feel aesthetic pleasure. This technique shows the parts of the brain that detect meaning connected to beauty as well as map the attentional sift to the awareness of beauty This maps beauty perception more fully, giving people an opportunity to
amplify as well as create art around each of the effect areas as well as creating a map of brain regions to genetically improve to improve as well as amplify humans pleasurable sensation of beauty

It would be nifty to see if nonhuman mammals had similar activation cascades, then people or computers could make aesthetic beauty that appealed to other creatures as well

physics of hydrides as a an area where quantum states might be of greater latitude. when you think of a contour map of electron location likeliness as well as the amplitude of the effect


It actually says I am to make a video of this

hey you

I have a few hairs that go from white back to original color. I think thats likely a regular thing among many people. Its likely the mRNA as well as cytokines (chemicals) there could be modified to create youthifying drugs. so the thing is, is this
happening other places? how could we tell, well, tomographic scanning to first autolocate structures (software is published) then see what older versions look like (more software) then make even more software to then see if any old structures revert.
Medical centers are libraries of thousands, possibly millions of tomographic images, which are amenable to automatic searching to find youthful reversions at a tissue level, just like the obvious youthful reversionings these hair images show. People
that have youthful reversionings may have genes that promote healing or longevity, as well as directing the way to tissue specific healing pharmaceuticals. fortunately the software does all the comparing





--- SoupGate-Win32 v1.05
* Origin: fsxNet Usenet Gateway (21:1/5)