tag:blogger.com,1999:blog-2100054477013501859.post597371403001813345..comments2023-10-29T06:33:26.576-07:00Comments on Oil Is Mastery: Drilling Deep And Flying HighOilIsMasteryhttp://www.blogger.com/profile/13457713647671999890noreply@blogger.comBlogger2125tag:blogger.com,1999:blog-2100054477013501859.post-77445155660269305352008-07-15T09:50:00.000-07:002008-07-15T09:50:00.000-07:00Thanks Anaconda, great stuff as usual...=)Thanks Anaconda, great stuff as usual...=)OilIsMasteryhttps://www.blogger.com/profile/13457713647671999890noreply@blogger.comtag:blogger.com,1999:blog-2100054477013501859.post-89901676551444913612008-07-14T15:50:00.000-07:002008-07-14T15:50:00.000-07:00THE CONTINENTAL MARGIN: THE NEW "FRONTIER" The Bra...THE CONTINENTAL MARGIN: THE NEW "FRONTIER" <BR/><BR/>The Brazilian oil discoveries are an example of the potential for oil exploration & discovery on the continental margin.<BR/><BR/>This is an area that is just beginning to be explored and already the results are "turning heads" in the oil industry and in the financial community as well.<BR/><BR/>A good article to review is Tectonic and deep crustal structures along the Norwegian volcanic margin: Implications for the “Mantle Plume or Not?” debate<BR/>(available at the side-bar under ICP-MS & Mantle Plumes, listed as Norwegian Volcanic Margin).<BR/><BR/>This article has graphics as well as discussion on the mechanics of continental margin systems.<BR/><BR/>There maybe some debate whether the Norwegian margin is analogous to the continental margin off the coast of Brazil, but the piece of evidence which ties the two together in my opinion is that dolomite formations are known to be found in association with the oil deposits in the newly discovered Corioca field off the coast of Brazil.<BR/><BR/>Conventional geology holds that dolomite is primarily the result of sedimentary action. But there is evidence that dolomite is an ultramafic mineral.<BR/><BR/>See the following article: Ultramafic-Rock-Hosted Vein Sepiolite Occurrences in the Ankara Ophiolitic Mélange, Central Anatolia, Turkey.<BR/><BR/>(partial) Abstract:<BR/><BR/>A 2 m thick brecciated zone containing magnesian minerals is present at the contact of tectonites and cumulates. Tectonites below this zone comprise serpentinized orthopyroxenite and serpentinite. An alteration zone with vein-type bedding comprises four different levels; from bottom to top they are: (1) green-brown serpentinite with dolomite (0.9 m), (2) light greenish-white dolomite with serpentine (0.5 m), (3) white dolomite with sepiolite (0.4 m), and (4) greenish-white dolomite with smectite-chlorite (0.2 m). <BR/><BR/>Remember a whole mountain chain in Italy is called the Dolomites because it's made up primarily of dolomite.<BR/><BR/>The temperature and pressure required to produce the alkane series of hydrocarbons (petroleum) as reported by Jack F. Kenney in his scientific paper puts oil in the ultramafic mineral category.<BR/><BR/>Ultramafics form under ultra high pressure and temperature, and are relatively rare at the surface of the crust.<BR/><BR/>Per Wikipedia:<BR/>Komatiites are ultramafic mantle-derived volcanic rocks. They have low SiO2, low K2O, low Al2O3, and high to extremely high MgO.<BR/><BR/>Dolomite chemical formula is CaMg(CO3)2, both dolomite and komtiites have magnesium and oxygen and add this piece of evidence per Wikipedia:<BR/><BR/>True komatiites are very rare and essentially restricted to rocks of Archaean age and most are greater than two billion years old, restricted in distribution to the Archaean shield areas. Komatiites occur with other ultramafic and high-magnesian mafic volcanic rocks in Archaean greenstone belts.<BR/><BR/>"[H]igh-magnesian mafic volcanic rocks..."<BR/><BR/>One of dolomite's main chemical elements is magnesium.<BR/><BR/>Petrology:<BR/>Magmas of komatiite compositions have a very high melting point with calculated eruption temperatures in excess of 1600 °C. Basaltic lavas normally have eruption temperatures of about 1100 °C to 1250°C. <BR/><BR/>Dolomite also has a very high melting point. <BR/><BR/>Why would petroleum be common in the crustal environment when most ultramafics are rare?<BR/><BR/>Let me suggest because of petroleum's extreme buoyancy and unique property of having a liquid state in relation to the other ultramafics which are generally solid, so that petroleum "jumps to the front of the line" for transport from the upper mantle to the bottom of the crust. Dolomite, also, is transported to the crust with petroleum because when it is melted it has a very low viscousity so shares a similar property as oil.<BR/><BR/>Also, dolomite maybe a heat catalyst for hydrocarbon formation in the upper mantle.<BR/><BR/>It's known that oil companies studied dolomite in the '50s because of the strong association of oil and dolomite.<BR/><BR/>Anyway, getting back to the continental magin, this is an area where the Earth literally pulled apart in a "rifting" process allowing mantle material including petroleum to travel towards the surface.<BR/><BR/>One exciting concept, if the Brazilian oil deposits in the continental margin are, indeed, products of vocanic/mantle interactions, would be that oil producing deposits maybe located in procession out toward the mid-ocean ridges because oil's formation and transport on the "flank" of mantle plumes and hotspots, would mean that oil is constantly being formed on the flank of "rifting" formations and other hot spots. <BR/><BR/>As well, as oil existing as "older" deposits from when "rifting" was occurring in a particular region.<BR/><BR/>Ultra-deepwater, deep-drilling should be able to give us answers to these tantalizing questions.<BR/><BR/>And, Petrobras is at the heart of this new "frontier" on the continental margin.Anacondahttps://www.blogger.com/profile/05522474791573134808noreply@blogger.com