M.M. Sipple-Srinivasan scite author profile

M.M. Sipple-Srinivasan

3Publications

21Citation Statements Received

0Citation Statements Given

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Affiliations

GeoMechanics Technologies (United States), OG Technologies (United States)

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Field Experiences With Oilfield Waste Disposal Through Slurry Fracture Injection

Sipple-Srinivasan

Bruno

Bilak

et al. 1997

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More than 100 years of extensive oil production in the U.S. and Canada has resulted in the generation of large volumes of oilfield waste, including produced oily sands and tank bottoms, drilling muds and cuttings, and crude contaminated surface soils. Much of this oilfield waste is the result of previous practices in which drilling muds and even produced oil were impounded in unlined storage pits. Many areas have also been contaminated due to spillage around well cellars, tank farms, and pipe yards. The Los Angeles Basin alone contains more than 10 giant oil fields (100MM bbls or larger) which together are estimated to have created more than 2 million cubic meters of crude contaminated soils. In addition to this pre-existing source of oilfield waste, ongoing production operations continue to produce oily sands. A significant portion of the pre-existing and annually generated oilfield waste material is currently being stored on-site until operators are forced to deal with the wastes whether due to regulatory pressure or in order to convert the property to other uses. An economic and environmentally sound technique to dispose of these produced oilfield wastes is to re-inject them back into the subsurface. The Slurry Fracture Injection (SFI) process involves slurrification of oilfield wastes with produced water and re-injection at fracture pressures into appropriate formations at the oil field where the waste was generated. On-site disposal of oilfield wastes provides four major advantages to the oilfield operator. These are:An environmentally attractive permanent disposal solution.Little impairment of surface land use.Reduction of long-term liability to waste generator.Reduction transportation and disposal costs. Terralog Technologies is currently managing slurry fracture injection projects at several sites in the US and Canada, disposing of produced sands, pit sludges, tank bottoms, and crude contaminated surface soils. Typical disposal volumes are on the order of 4,000 to 8000 bbls of slurry waste per day, per well. This paper presents a summary of slurry fracture injection facilities, technical design considerations and monitoring techniques, and regulatory issues in the US and Canada. Two field examples are presented and described in detail. Introduction Permanent, low-risk disposal of Non-hazardous Oilfield Waste (NOW) can be achieved through injection of a slurry comprised of waste material and produced water into deep permeable geologic formations. Waste generated at an oilfield location can often be re-injected at fracture pressure through existing wells into the same subsurface formations from which the wastes originated. The process of Slurry Fracture Injection (SFI) is a means to dispose of accumulated oilfield wastes by deep well injection. This process yields considerable advantages to the operator over conventional disposal methods. SFI provides an environmentally attractive and permanent disposal solution for considerable volumes of NOW waste, and has minimal impact on surface land use. In addition, it affords a significant reduction of long-term liability to the operator while reducing transportation and disposal costs. Traditional alternatives to SFI disposal include road spreading, surface disposal or landfills, incineration, soil washing, and disposal into salt caverns. These methods are generally more costly and leave the operator susceptible to future environmental and other liability concerns.

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Field Experiences With Oilfield Waste Disposal Through Slurry Fracture Injection

Sipple-Srinivasan¹,

Bruno²,

Bilak³

et al. 1997

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Disposal of Crude Contaminated Soil Through Slurry Fracture Injection at the West Coyote Field in California

Sipple-Srinivasan

Bruno

Hejl

et al. 1998

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Thw papeYWE, selected for pr~eiitation b~an-SPEPrcgram Ccmmltee fdlowmg revmw of mfcmnation contained m an abstract sutmitted by the author(s) Contenk of the paper, as presented, have not been reviewed by the Socmty of Petroleum Engineers and are subject to correction by the author(s) The material, as presented, does not ncassarily reflect any posibon of the Scclety of Petroleum Engineer% Its offtcers, or members Papers presented at SPE meebngs are subject to publtcabon review by Edltonal Cunmittess of the Society of Petroleum Engmee!s Electromc reprodudaon, distrh.tion, or storage of any pa!t of this paper for ccfnmeraal purposes wthout the Vmtten mn$ent of the .%aety of Petroleum Engineers is proh!bked Penmsslon to reproduce m print is restricted to an abstract C4 not more than 3X words, Illustrabons may not be copied The abstract must contain conspicuous acknr?++fedgment of where and by whom the paper was presented Write Llbranan, SPE PO Box 833836, Richardson, W 75063-3636, U S A , fax 01.972-952-9435

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