{"id":4037,"date":"2017-05-29T13:42:26","date_gmt":"2017-05-29T10:12:26","guid":{"rendered":"http:\/\/gilsoniteco.com\/?p=4037"},"modified":"2017-08-19T16:00:37","modified_gmt":"2017-08-19T12:30:37","slug":"fluid-loss-control-flc","status":"publish","type":"post","link":"http:\/\/gilsoniteco.com\/?p=4037","title":{"rendered":"Drilling Gilsonite \u2013 Fluid Loss Control (FLC)"},"content":{"rendered":"

Fluid Loss Control (FLC)<\/p>\n

\"Fluid<\/p>\n

Drilling Gilsonite \u2013 Fluid Loss Control (FLC)<\/h2>\n

What Is Gilsonite<\/h3>\n

Gilsonite is mined in underground shafts and resembles shiny, black substance similar in appearance as the mineral Obsidian It is brittle and usually micronized into dark brown powder. It is mainly composed of asphaltenes; thus, Gilsonite Is classified as a Natural Asphalt and also known as uintaite or uintahite. Discovered in the 1860<\/span>s, it was first marketed as a lacquer, electrical insulator, and waterproofing compound. This unique mineral is used in more than 160<\/span> products, primarily in dark-colored printing inks and paints, oil well drilling muds and cement, asphalt modifiers, foundry sand additives, and a wide variety of chemical products.<\/p>\n

What are Asphaltenes<\/h3>\n

Asphaltenes are molecular substances that are found in crude oil, along with resins, aromatic hydrocarbons, and alkanes (i.e., saturated hydrocarbons). The word \u201casphaltene\u201d was coined by Boussingault in 1837<\/span> when he noticed that the distillation residue of some bitumen had asphalt like properties. Asphaltenes in the form of distillation products from oil refineries are used as \u201ctar-mats\u201d on roads. Asphaltenes consist primarily of carbon, hydrogen, nitrogen, oxygen, and sulfur, as well as trace amounts of vanadium and nickel. The C:H ratio is approximately 1:1.2, depending on the asphaltene source. Asphaltenes are defined operationally as the n-heptane (C7<\/span>H16<\/span>)-insoluble, toluene (C6H5<\/span>CH3<\/span>)- soluble component of a carbonaceous material such as crude oil, bitumen or coal. Asphaltenes have been shown to have a distribution of molecular masses in the range of 400<\/span> u to 1500<\/span> u with a maximum around 750<\/span> u.<\/p>\n

Fluid Loss Control (FLC) –\u00a0Gilsonite use in Drilling sector<\/h2>\n

\"Drilling<\/p>\n

Gilsonite is used in drilling fluid loss control (FLC)<\/strong>\u00a0and oil well cementing<\/a>. Gilsonite, in a range of softening points and particle sizes, is a standard ingredient in oil-based drilling muds used in shale and other difficult geological formations. The addition of specially-treated Gilsonite to water-based drilling fluids<\/a> helps minimize hole washout by stabilizing troublesome shale and seals off highly permeable sands while reducing torque and drag. The addition of Gilsonite to oil well cement reduces slurry weight without loss of compressive strength and acts as an effective bridging and plugging agent to seal fractures in weak formations while cementing The maintenance of circulation of the drilling fluid<\/span> is essential to successful drilling by the rotary method. The drilling fluid loss control or mud is supplied at the surface of the well in large earthen pits or metal tanks and is pumped from these into the borehole through the drill pipe and the drill bit to the bottom of the hole. The mud returns to the surface between the drill pipe and the borehole wall, bringing with it the drill cuttings. The circulation of the mud serves not only to carry the cuttings to the surface but also to cool and lubricate the drill bit, thus making possible the further effective penetration of the bit into deeper geological strata. In conventional drilling operation a drilling mud based on bentonite or other materials such cane fiber, ground walnut hulls, sawdust etc. is commonly used, but The solid organic materials used are difficult to keep suspended in the drilling fluid, being of a higher specific gravity than the fluid, while materials such as expanded perlite, though easily to suspend, become compressed to a specific gravity higher than that of the fluid under the bore hole. Furthermore, the commonly used materials lack adhesive power and are insoluble, and they have been known to become lodged in the wall of the borehole so as to obstruct or seal off a producing oil or gas zone, thus causing a costly or even a complete loss of production. To prevent Lost Circulation is needed a material with following specifications:<\/p>\n