Your search keyword '"waste injection"' showing total 6 results

1. Geomechanical Risk Assessment for Subsurface Fluid Disposal Operations.

Author

Burghardt, J.

Subjects

*RISK assessment, *GEOLOGY, *FLUID dynamics, *CARBON sequestration, *THERMAL oil recovery

Abstract

Numerical models are commonly used to estimate the state of stress in the subsurface for various engineering applications. These estimates are subject to considerable uncertainty, and yet, the estimates are almost always deterministic, yielding no information about the certainty of the prediction. For some applications, unquantified uncertainties in stress are often acceptable, because the risks related to geomechanics may be of low relative importance compared to other risks (e.g., recoverable resource volume), for which uncertainties are often quantified. Furthermore, many geomechanics-related risks in the petroleum industry are relatively short-lived (e.g., well bore stability) and decrease in importance with time. In contrast, for wastewater injection or geologic carbon sequestration (GCS), geomechanics-related risks (e.g., seal integrity, induced seismicity) are on par with resource-related risks and are of long-term concern, with the risk generally increasing in importance for a significant period of time. For these reasons, the deterministic stress estimation and risk analysis approaches generally applied in the petroleum industry are insufficient for GCS applications. This paper describes a Bayesian approach to geomechanical uncertainty quantification and risk assessment. The method is demonstrated using data from an active enhanced oil recovery/geologic carbon sequestration field as a case study. [ABSTRACT FROM AUTHOR]

Published

2018

2. Industrial waste injection feasibility in North Dakota.

Author

Mohamed, I.M., Block, G., Abou-Sayed, O., and Abou-Sayed, A.S.

Subjects

*INDUSTRIAL waste management, *PETROLEUM refining, *OIL field brines, *FLUID mechanics, *HAZARDOUS wastes

Abstract

Class I and Class II waste re-injection are the most important methods for disposing of fluid in North Dakota: in 2007, more than 96% of produced water were disposed of using underground injection, and by 2012 all produced water was being managed by underground injection. While Class II injection covers waste produced from most Exploration & Production (E&P) activities, Class I injection wells are used for disposing of a special class of industrial wastes, including waste generated by petroleum refining, metal production, chemical production, pharmaceutical production, commercial disposal, and food production. Non-hazardous industrial waste and Naturally Occurring Radioactive Materials (NORM) not associated with E&P can also be injected using Class I wells. In all cases, the primary concern for permitting and safe operations is to (1) predict the movement of the injected waste to ensure that it stays within pre-defined formations, and (2) ensure that pore-pressure increases caused by injection do not impact neighboring offset wells. Results from a geochemical study of the feasibility of disposal into the Dakota Sands (Inyan Kara formation) in North Dakota is being presented. Analyses were made using a compositional reservoir simulation (REVEAL) to predict the pore-pressure distribution, direction and movement of the injected fluid, as well as chemical reactions between formation brine/waste/formation rocks and the effect of these chemical reactions on formation injectivity and cap rock integrity. Forecasts indicate that for over 50 years of injection, the injected wastes will be completely trapped within the Dakota Sands (no fluid flow is expected to penetrate through the cap rock) and injection pressures are expected to remain well below the estimated fracture pressure. While the Inyan Kara formation is therefore a reasonable storage trap for industrial wastes, carbonate and sulfate scales may cause near wellbore formation damage and rising wellhead pressures which operators will need to address. [ABSTRACT FROM AUTHOR]

Published

2017

3. Alternative technology of deep geological disposal of waste

Author

Bratko, Tomislav, Veinović, Želimir, Vulin, Domagoj, and Dobrilović, Mario

Subjects

utiskivanje otpada, opasni otpad, radioaktivni otpad, hazardous waste, radioactive waste, waste injection

Abstract

U diplomskom radu objašnjena je tehnologija zbrinjavanja otpada utiskivanjem, današnja iskustva u zbrinjavanju, radioaktivnog i ostalih vrsta otpada u Republici Hrvatskoj i u svijetu. Opisano je postrojenje za zbrinjavanje tehnološkog fluida Kalinovac-6, te su dane i mogućnosti za unaprijeđenje tehnologije utiskivanja. U radu je također detaljno opisan koncept odlaganja visoko radioaktivnog otpada u duboke bušotine. Opisan je pojam, transport, obrada i utiskivanje opasnog otpada u svijetu., The master's thesis discussed the waste management technology by injecting, contemporary experience in waste management of radioactive and other types of waste in Croatia and around the world. It described the facility for disposal of technological fluid Kalinovac-6, and the options for improving the injection technology. As well as the detail concept of high level radioactivity waste disposal in deep boreholes. It also described the transport, treatment and injection of hazardous waste around the world.

Published

2016

4. Waste injection in petroleum industry

Author

Marinić, Maja, Gaurina-Međimurec, Nediljka, Pašić, Borivoje, and Hrnčević, Lidia

Subjects

slurry waste, utiskivanje otpada, kašasti otpad, krhotine stijena, pukotina, fracture, cuttings, waste injection

Abstract

U radu su opisani procesi i načini utiskivanja otpada u podzemlje. Otpad je moguće utiskivati kroz tubing ili kroz prstenasti prostor i perforacije u utisnu formaciju. U utisne formacije je moguće utiskivati fluide bez čvrstih čestica ili sa čvrstim česticama, takvi fluidi se još nazivaju i otpadne kaše. Osim u iscrpljena ležišta, otpad je moguće utiskivati u kaverne izrađene u ležištima soli. Problemi kod utiskivanja javljaju se neadekvatnog sastava otpadne kaše te loše odabranih tlakova i brzina utiskivanja. Da bi se ti problemi izbjegli potrebno je pratiti proces utiskivanja. Metode praćenja proces također su opisane u radu. Za uspješno i sigurno odlaganje otpada potrebno je precizno odabrati geološku formaciju, u kojoj uvjeti pogoduju utiskivanju kaše. Utiskivanjem otpadne kaše u iscrpljeno ležište ugljikovodika, isti se vraća u područje gdje je nastao. Utiskivanje otpada u bušotine ima široku primjenu u svijetu, pa i kod nas. Najveći broj utisnih bušotina ima Aljaska a to je 129 bušotina, a slijede ju Meksički zaljev i Sjeverno more., This thesis describes processes and methods of waste injection. Waste can me injected into injection formation through tubing or annular.. It is possible to inject into formation fluids without solids or fluids withs solids, these fluids are also known as the waste slurrys. Except deplated wells, it is possible to inject oil waste into caverns in salt deposites. Because of inadequate composition of slurry, and incorrect selected pressures and velocitys during injection problems may occure. It is necessary to monitor the process of injection to avoid that problems. Monitoring methods are also describes in this thesis. For sucessful and safe waste disposal is necessary to accurately select formation for waste injection. Waste injection is widely used worldwide and in Croatia. Alaska takes first place in a number of the injection wells with total of 129 wells, followed by Gulf of Mexico and North Sea.

Published

2016

5. Waste Disposal Methods in Petroleum Engineering

Author

Gaurina-Međimurec, Nediljka

Subjects

drilling fluid, waste, subsurface disposal methods, waste injection

Abstract

In the petroleum engineering there are several main operations: drilling, well completion, workover, oil and natural gas production, and well stimulation (acidizing, hydraulic fracturing). During these operations a significant volume of wastes (drilling fluids, produced waters, workower and completion fluids, spent acids, produced sand, tank bottoms, separator sludge, and etc.) is generated. No matter how effective a waste management plan or waste treatment program may be, some waste will remain that must be dispose of. The paper describes current waste disposal methods, particulary subsurface injection, and disposal practice apllied in Croatia.

Published

2002

6. Waste injection into Stratified Groundwater Bodies

Author

Wheatcraft, Stephen W., Heutmaker, Duane L., and Peterson, Frank L.

Published

1977