File: OilProduction.txt Date: 21 Jun 2008 To view this file, right click -> View source, then use Notepad to Format -> Word Wrap Increasing Productivity for Cold Oil Wells. I heard of an effort to increase the drilling for oil to increase the supply of oil to offset the high oil prices. I have heard that the oil is sometimes too cold to come out and the injection of steam, to get the oil to flow is not cost effective. Have people tried to put clean water or better yet clean water vapor down such oil wells or even better yet use say the EdenPure heaters (or a suitable low cost substitute) to heat/inject so heated moisture vapor down into a few unproductive cold oil wells and see if that can help their productivity in a cost effective manner? AEP - 20-21 June 2008 Maybe a large diameter thermally insulated hose of some sort could gently send heated moist air deep down into an unproductive cold oil well. A hose might not be needed if there is another nearby connected hole for return of matter. If the gravitons can, by the Bessler principle, cause the water molecules (and/or nuclei) to rotate about horizontal axes there might be enough of them to fight against the cold and increase the productivity of such an oil well. Heat from translation motion of steam (water molecules) might be quickly diluted by the cold environments down in the cold oil wells, whereas getting extra help from gravitons might prove beneficial. Any heater should to be designed with selectively enhancing of the rotations of molecular/nuclear ground states about horizontal axes (according to the Bessler principle). It may need to operate at a high enough temperature. AEP - 20-21 June 2008 The heating of the water vapor may be made more effective if it is done under the condition of having a horizontal magnetic field. Another option is to add some clean water/vapor and lower a horizontal magnetic field and small heater into the oil well for more local heating. I don't now what method would be most cost effective but these are just some ideas that if they have not been tried might be worth trying. One might need to be careful to avoid explosions, what with electricity and chemically explosive vapors. I don't know if there could be any explosions due to nuclear ground-states rapidly rotating about horizontal axes. If there is too much local heating so that the surroundings are not rotationally cool, there could potentially be a problem. AEP - 20-21 June 2008 If the above graviton heated approaches are not cost effective for increasing production of cold oil wells, then maybe just add come clean water and cap some such oil wells off and just wait. The water, heavier than oil, may seep into crevices and on a tiny scale act as a miniature salt dome and the water (especially if the magnetic fields down below are horizontal) pick up energy from gravitons and over time cause more oil to be released. Clean natural water containing a certain amount of natural deuterium should be used. Deuterium has a magnetic moment. I would expect that vapors would be more effective for gravitons encouraging the rotation of molecular ground states about horizontal axes than confined liquids. Salt domes collect gas in them which gas molecules may allow rotating molecular ground states to rotate rapidly about horizontal axes and so gravitons may assist in maintaining or increasing such rotations. This would generate much heat. Given that situation, the lowest cost approach to increasing the production of cold unproductive oil wells might be to pump much of the liquid out of them (if dry, put in some clean water in them so that there is water vapor in them), cap them off so that the vapor/gravitons can heat the vapors in the wells, and wait for the warm vapors to help oil to come out of the surrounding materials. AEP - 20-21 June 2008 Oil from Coal and Oil Shale. If this technique works for oil wells, modifications of the process might be useful for extracting oil out of coal and oil shale. Maybe much higher temperatures will be needed for these various processes. AEP - 20-21 June 2008 Temporary Production Increases. It would probably be better to switch to more modern sources of energy, but until we wean our industries off of oil and fossil fuels, we may need to increase such fuel production in the short run. That doesn't mean that we can't use modern energy methods and understandings to help solve temporary shortfalls. If we understand how modern methods can help out, maybe we might understand that the modern methods could be used directly and save untapped carbon-hydrogen materials for other more important uses. AEP - 21 June 2008 ---------- Use Back on browser to return to Main or go to http://www1.iwvisp.com/LA4Park/ or http://mysite.verizon.net/aldlin/ (all after exiting, if in "View source" mode).