PropertyValue
rdfs:label
  • OILIX
  • OILIX
rdfs:comment
  • Dr. Marv accidentally developed OILIX through genetic modification of the naturally occurring planktonic microalgae Botryococcus braunii. The altered algae thrived in warm, arid environments, and used photosynthesis to consume biological materials, producing a substance indistinguishable from naturally occurring high-quality petroleum as a by-product. OILIX thus enabled commonly available biomass to be processed into massive quantities of oil in any suitable environment. As this permitted 96 octane gasoline and even aviation fuel to be produced at relatively little cost, as well as little use of machinery and manpower, OILIX became a sign of hope during the severe energy crisis at the turn of the 20th century. Each kilogram of algae yields 800 grams of crude oil. About 70% of this crude ca
  • Dr. Marv accidentally developed OILIX through genetic modification of the naturally occurring planktonic microalgae Botryococcus braunii. The altered algae thrived in warm, arid environments, and used photosynthesis to consume biological materials, producing a substance indistinguishable from naturally occurring high-quality petroleum as a by-product. OILIX thus enabled commonly available biomass to be processed into massive quantities of oil in any suitable environment. As this permitted 96 octane gasoline and even aviation fuel to be produced at relatively little cost, as well as little use of machinery and manpower, OILIX became a sign of hope during the severe energy crisis at the turn of the 20th century. Each kilogram of algae yields 800 grams of crude oil. About 70% of this crude ca
dcterms:subject
dbkwik:es.metalgear/property/wikiPageUsesTemplate
dbkwik:metalgear/property/wikiPageUsesTemplate
abstract
  • Dr. Marv accidentally developed OILIX through genetic modification of the naturally occurring planktonic microalgae Botryococcus braunii. The altered algae thrived in warm, arid environments, and used photosynthesis to consume biological materials, producing a substance indistinguishable from naturally occurring high-quality petroleum as a by-product. OILIX thus enabled commonly available biomass to be processed into massive quantities of oil in any suitable environment. As this permitted 96 octane gasoline and even aviation fuel to be produced at relatively little cost, as well as little use of machinery and manpower, OILIX became a sign of hope during the severe energy crisis at the turn of the 20th century. Each kilogram of algae yields 800 grams of crude oil. About 70% of this crude can be converted to gasoline, and about 25% into aviation fuel. The resulting gasoline has an octane rating of 96. For each hectare, 85 kilograms of OILIX can be produced per day. It was thus seen as a more economic alternative to other substitutes for mineral oil such as automobile methanol, sand oil, shale oil, and bio-mass rectification.
  • Dr. Marv accidentally developed OILIX through genetic modification of the naturally occurring planktonic microalgae Botryococcus braunii. The altered algae thrived in warm, arid environments, and used photosynthesis to consume biological materials, producing a substance indistinguishable from naturally occurring high-quality petroleum as a by-product. OILIX thus enabled commonly available biomass to be processed into massive quantities of oil in any suitable environment. As this permitted 96 octane gasoline and even aviation fuel to be produced at relatively little cost, as well as little use of machinery and manpower, OILIX became a sign of hope during the severe energy crisis at the turn of the 20th century. Each kilogram of algae yields 800 grams of crude oil. About 70% of this crude can be converted to gasoline, and about 25% into aviation fuel. The resulting gasoline has an octane rating of 96. For each hectare, 85 kilograms of OILIX can be produced per day. It was thus seen as a more economic alternative to other substitutes for mineral oil such as automobile methanol, sand oil, shale oil, and bio-mass rectification. On his way to reveal OILIX at the 1999 World Energy Conference in Prague, Zanzibar Land agents hijacked Dr. Marv's plane and kidnapped him in an attempt to secure the OILIX formula, thus increasing Zanzibar Land's global influence. Knowing that the desert nation was an optimal location for OILIX production, Zanzibar Land's leader Big Boss planned to dominate the global oil market and thus the economies of practically every developed and developing nation. Dr. Drago Pettrovich Madnar, a willing citizen of Zanzibar Land, posed as a prisoner in an attempt to retrieve the formula from Marv, but ultimately killed him without locating it. Unbeknownst to Zanzibar Land, Marv, a video game fanatic, had hidden the OILIX formula inside an MSX cartridge. Ex-FOXHOUND agent Solid Snake managed to retrieve the MSX cartridge and successfully escape Zanzibar Land with the OILIX structural plans.