Relevant bibliographies by topics / Drilling waste

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Drilling waste'

Author: Grafiati
Published: 4 June 2021
Last updated: 30 May 2022

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Journal articles on the topic "Drilling waste"

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Wang, Fei, Zheng Liang, and Xiong Deng. "Management of Drilling Waste in an Environment and Economic Acceptable Manner." Advanced Materials Research 518-523 (May 2012): 3396–402. http://dx.doi.org/10.4028/www.scientific.net/amr.518-523.3396.

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In upstream petroleum industry, one of the major operations that can potentially impact the environment is drilling. A major component of the wastes generated during drilling are the rock cuttings and the drilling fluids. The drilling fluids can have different chemical composition and various additives. Spilled or improperly disposed drilling wastes have the potential to harm plants and animals, and it should be managed to minimize risk to human health and the environment. The increasing environmental legislation surrounding drilling operations has led to a rapid rise in drilling waste management spending by operators. Managing wastes to minimize their harm potential to health and environment is the international concern and requires efficient management of wastes to reduce the environmental impacts. The management and control of waste which develops from the strategy can also have the beneficial effect of reducing the number of health related issues.This paper presents the waste management including recognizing the waste sources and methods which are used to minimize the impaction to environment and human health from drilling waste. This paper also reviews the strategy of drilling waste management which could reduce the number of health related issues as well as environment pollution.
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Kotwica, Łukasz, Wojciech Wons, Grzegorz Malata, Paweł Murzyn, Aleksandra Jamrozik, and Andrzej Gonet. "Utilisation of drilling waste muds from drilling waste dump." AGH Drilling, Oil, Gas 32, no. 3 (2015): 623. http://dx.doi.org/10.7494/drill.2015.32.3.623.

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Galitskova, Yulia. "Use of Drilling Muds for Remediation." MATEC Web of Conferences 196 (2018): 03001. http://dx.doi.org/10.1051/matecconf/201819603001.

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Drilling wells is an ecologically dangerous type of work accompanied by contamination of soil, subsurface and surface waters, pollution of open air with drilling and technological wastes. Throughout the drilling process, drilling waste is generated, such as drilling muds, return drilling muds, drilling waste water. The resulting waste is usually disposed of at landfills, which ensure minimal environmental impact. The use of drilling muds in other spheres is hindered by the complex composition of oily waste. Samples of liquids and solids in drilling wastes, picked at three locations, were subjects for analysis. The waste sample was analyzed for moisture content, organic substances, oil products, silicon, iron and other substances. Based on the studies performed, the authors propose additional introduction of substances possessing high sorption capacity into drilling mud to improve its properties. The most effective way should be using a sorbent capable of retaining organic and heavy metals. The resultant homogeneous soil-like mixture possesses the necessary and sufficient properties to be used as a mineral base for remediation after performing construction work in urban areas.
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Bybee, Karen. "Drilling Waste Management." Journal of Petroleum Technology 54, no. 11 (November 1, 2002): 50–52. http://dx.doi.org/10.2118/1102-0050-jpt.

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Gajec, Monika, Ewa Kukulska-Zając, and Anna Król. "Optimization of Silver Nanoparticle Separation Method from Drilling Waste Matrices." Energies 14, no. 7 (April 1, 2021): 1950. http://dx.doi.org/10.3390/en14071950.

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Significant amounts of produced water, spent drilling fluid, and drill cuttings, which differ in composition and characteristics in each drilling operation, are generated in the oil and gas industry. Moreover, the oil and gas industry faces many technological development challenges to guarantee a safe and clean environment and to meet strict environmental standards in the field of processing and disposal of drilling waste. Due to increasing application of nanomaterials in the oil and gas industry, drilling wastes may also contain nanometer-scale materials. It is therefore necessary to characterize drilling waste in terms of nanomaterial content and to optimize effective methods for their determination, including a key separation step. The purpose of this study is to select the appropriate method of separation and pre-concentration of silver nanoparticles (AgNPs) from drilling wastewater samples and to determine their size distribution along with the state of aggregation using single-particle inductively coupled plasma mass spectrometry (spICP-MS). Two AgNP separation methods were compared: centrifugation and cloud point extraction. The first known use of spICP-MS for drilling waste matrices following mentioned separation methods is presented.
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Rozhkova, O. V., M. T. Yermekov, Ye T. Tolysbayev, S. G. Maryinsky, and A. V. Vetyugov. "PROBLEMS OF STORAGE, REFINERY AND DISPOSING OF DRILLING WASTE OF THE EXPLORATION AND PRODUCTION SECTOR OF KAZAKHSTAN. ARRANGEMENT AND OPERATION FEATURES OF SLUDGE COLLECTORS AND OIL STORAGE PITS." Series of Geology and Technical Sciences 2, no. 446 (April 15, 2021): 151–58. http://dx.doi.org/10.32014/2021.2518-170x.47.

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A lot of drilling wastes with various content of oil products is formed annually during production of hydrocarbons in the result of accidents at the facilities of transportation and oil production, soil is polluted. So, main contaminants of the environment are drilling wastes such as drilling, drilling waste water, waste drilling fluid and places of their disposition - sludge pits. Total amount of the oil slurry annually formed at enterprises of the oil sector of Kazakhstan is about 100 thousand ton, and resources of these wastes are estimated in more than 40 mln. ton. The wastes are placed in special sludge pits equipped with watertight screen. However, in spite of the available modern technologies for arrangement of waterproof finish of the drilling waste disposal facilities, high level of soil pollution is still observed. As a rule, pollutions are related to violation of the requirements of the standards during construction and operation of sludge pits, products pipelines, tailing dumps, sludge collectors and temporary storages. Therefore it is necessary to build reliable storages for temporary placement of the formed wastes until their delivery for recovery or disposing, during operation of which there will be no migration of pollutants to the environment. It is suggested to use bentonitic mats as waterproof finish of such facilities - this is innovative by properties, multifunctional composite material, which is combination of textile materials with the layer of the natural self- recovering mineral component - bentonite.
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Prantera, M. T., C. A. Mauro, and M. D. M. Marins. "Landfarming of Drilling Wastes." Water Science and Technology 24, no. 12 (December 1, 1991): 177–82. http://dx.doi.org/10.2166/wst.1991.0382.

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Use of the soil as a receptor in the biodegradation of oily wastes is a widespread practice in the petroleum industry. Generated during drilling, these oily wastes may have intrinsic properties that inhibit microbial soil activity. CENPES, the Petrobrás research centre, has been studying disposal of these wastes. The results of physical and chemical analyses were used to select factors that may limit the application of these wastes in soil. High salinity and high baritine (BaSO4) contents, as well as substantial concentrations of some heavy metals, have been studied with the aim of ascertaining the maximum concentration of each at which degradation is still observed. Microbiological assays indicated maximum oil application rates varying from 1 to 20%, suggesting that each waste tested displays a different toxicity.
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Shu, Chang, and JiChuan Zhang. "Application of Computer Simulation Optimization Algorithm in Waste Treatment of Drilling Engineering." Complexity 2021 (April 28, 2021): 1–10. http://dx.doi.org/10.1155/2021/9927438.

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The existing computer technology is used to conduct an in-depth study and analysis of drilling waste treatment, and the results are analyzed by computer simulation optimization algorithms. Based on the system theory, we define the research system, combine the unique characteristics of the technological innovation mechanism of drilling waste treatment, and use the internal and external factors affecting the technological innovation dynamics of drilling waste treatment, such as drilling waste treatment capacity, from the current actual situation. On this basis, factor analysis is used to analyze the factors affecting technological innovation dynamics from both internal and external aspects of the system, establish a system model of technological innovation dynamics of drilling waste disposal, and give the initial values of the simulation model. This will reduce the pollution of the environment and enhance the competitiveness of enterprises. Drilling waste treatment technology is getting increased attention, but at this stage, there is no suitable technology innovation mechanism for drilling waste treatment. Through the simulation trend chart obtained by sensitivity analysis, the key factors in the system are found, and the innovation power mechanism of drilling waste treatment technology is constructed, which provides a basis for the formulation of enterprise technological innovation strategies and the development of technological innovation activities. Research on the dynamic mechanism of drilling waste treatment technology innovation explores a waste treatment mechanism suitable for the drilling industry, so as to promote the steady development of the drilling industry and at the same time provide theoretical support for the treatment of drilling engineering waste.
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Żurek, Roman, Aleksandra Jamrozik, and Andrzej Gonet. "Toxicity evaluation of spent drilling mud and drilling waste." AGH Drilling, Oil, Gas 34, no. 1 (2017): 243. http://dx.doi.org/10.7494/drill.2017.34.1.243.

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Ikram, Rabia, Badrul Mohamed Jan, Akhmal Sidek, and George Kenanakis. "Utilization of Eco-Friendly Waste Generated Nanomaterials in Water-Based Drilling Fluids; State of the Art Review." Materials 14, no. 15 (July 27, 2021): 4171. http://dx.doi.org/10.3390/ma14154171.

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An important aspect of hydrocarbon drilling is the usage of drilling fluids, which remove drill cuttings and stabilize the wellbore to provide better filtration. To stabilize these properties, several additives are used in drilling fluids that provide satisfactory rheological and filtration properties. However, commonly used additives are environmentally hazardous; when drilling fluids are disposed after drilling operations, they are discarded with the drill cuttings and additives into water sources and causes unwanted pollution. Therefore, these additives should be substituted with additives that are environmental friendly and provide superior performance. In this regard, biodegradable additives are required for future research. This review investigates the role of various bio-wastes as potential additives to be used in water-based drilling fluids. Furthermore, utilization of these waste-derived nanomaterials is summarized for rheology and lubricity tests. Finally, sufficient rheological and filtration examinations were carried out on water-based drilling fluids to evaluate the effect of wastes as additives on the performance of drilling fluids.
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Dissertations / Theses on the topic "Drilling waste"

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Niu, Haibo. "Flocculation and settling properties of discharged drilling waste /." Internet access available to MUN users only, 2003. http://collections.mun.ca/u?/theses,159920.

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Junin, Radzuan bin. "Downhole disposal of oil-rig drill cuttings." Thesis, University of Nottingham, 1996. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.339712.

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AMARO, THAYS PAES CABRAL. "INDUSTRIAL WASTE MANAGEMENT OF EXPLORATORY MARITIME DRILLING ACTIVITY ON THE COAST OF BAHIA STATE: CASE STUDY OF BLOCK BM-J-2." PONTIFÍCIA UNIVERSIDADE CATÓLICA DO RIO DE JANEIRO, 2016. http://www.maxwell.vrac.puc-rio.br/Busca_etds.php?strSecao=resultado&nrSeq=32442@1.

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A análise e comparação dos dados de geração, transporte, tratamento e destinação final dos resíduos sólidos gerados durante as duas campanhas (2011 e 2013) da atividade de perfuração marítima exploratória no Bloco BM-J-2, sem e com a utilização de uma área de armazenamento temporário de resíduos exclusiva para esta operação teve como objetivo verificar a aplicabilidade dessas duas alternativas de operacionalização do gerenciamento de resíduos em regiões onde a indústria de exploração e produção de petróleo e gás não está consolidada. O atendimento aos requisitos legais brasileiros, com a implementação do Projeto de Controle da Poluição para atendimento às orientações da Nota Técnica CGPEG/DILIC/IBAMA numéro 01/11, permitiu que os dados gerados durante as duas campanhas de perfuração pudessem ser comparados, ainda que gerados em momentos operacionais distintos. A similaridade do perfil de geração de resíduos nos dois períodos de operação e os resultados das diferentes estratégias de gerenciamento adotadas, permitiu definir a utilização da área de armazenamento temporário, ainda que exclusiva e construída para atendimento à operação, como melhor estratégia de gerenciamento também para regiões em que a indústria de EeP ainda não está consolidada, com incremento qualitativo das formas de tratamento e disposição final adotadas e melhoria de indicadores quantitativos, como redução do número de eventos de transporte.
The analysis and comparison of generation, transportation, treatment and final disposal data of the solid waste, generated during two campaigns (2011 and 2013) of exploratory offshore drilling activity in Block BM-J-2, with and without the use of a waste temporary storage exclusive area for this operation aimed to verify the applicability of these two waste management operational alternatives in regions where the oil and gas exploration and production industry is not consolidated. The compliance with Brazilian legal requirements, with the implementation of Pollution Control Project according to Technical Note CGPEG / DILIC / IBAMA number 01/11 guideline, allowed the comparision of data generated during the two drilling campaigns, even though they have been generated in different moments. The similarity of waste generation profiles of both operational periods and the results of different management strategies adopted, allowed to define the use of the temporary storage area, even if exclusive and built for the operation, as the best management strategy for regions where the EeP industry still not consolidated, with qualitative increase of treatment and disposal methods adopted and quantitative indicators improvement, as reduction of transport events.
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Mukhtasor. "Hydrodynamic modeling and ecological risk-based design of produced water discharge from an offshore platform." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 2001. http://www.collectionscanada.ca/obj/s4/f2/dsk3/ftp04/NQ62454.pdf.

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Micheli, Paola. "Assessment of available technologies for treatment of drilling cuttings considering economical and geographical conditions." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2017.

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The aim of the thesis is to outline why hydrocarbons still so important nowadays and how to manage the environmental impact in a sustainable way, in particular the management and disposal of the waste stream of drilling cuttings. The paper present the importance of the Oil and Gas sector, the petroleum generation, the Oil and Gas exploitation and production and the waste stream generated by it with a particular focus on drilling muds and drilling cuttings. An analysis among the different types drilling muds (i.e. drilling fluids) in particular on the oil-based (OBM) one has been performed because of the important environmental impact and the consequently waste management needed. Among the different possible technologies have been analyzed in detail the more reliable one according with the economical, legal and environmental constrains. The chosen technologies are Solidification/Stabilization (S/S), Composting (bio-pile technology), Thermal desorption, Cement Plant AFR (Alternative Fuels and Raw Materials and Eko/grid technology. A business plan has been implemented to understand which one between those technologies is the more suitable in some possible different scenarios where the main driver take in account are local actual economical, social and political situation, law limits, logistic and duration of the project Ten different cases have been studied, two different scenarios for each of the five chosen technologies. The two different chosen scenarios are Europe and North Africa The results presented shall be taken as an exercise the demonstrate how to approach a new business in the field of Drilling Waste Management (DWM) and calculate a DWM Company start-up costs and finance required and a basic P&L (Profit & Loss). The business plan model in the way has been implemented can be used to assess quickly the convenience of one technology with respect another for a Start Up company or can be a tool used for assessing a new investment linked to a project.
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Stone, Gregory M. "Beneficial Reuse of Corrugated Paperboard in Civil Engineering Applications." DigitalCommons@CalPoly, 2012. https://digitalcommons.calpoly.edu/theses/691.

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Abstract Beneficial Reuse of Corrugated Paperboard in Civil Engineering Applications Gregory Michael Stone An investigation was conducted to explore the potential for reuse of corrugated paperboard. Corrugated paperboard represents a large fraction of the municipal solid waste generated and discarded in the United States. Alternative applications for reuse can provide a significant benefit by reducing the volume of waste being disposed and by reducing the use of raw materials. Four civil engineering applications were examined for potential beneficial reuse of corrugated paperboard: slurry trench construction, vertical drilling, directional drilling, and controlled low strength materials (CLSM). For the purpose of this project, corrugated paperboard was pulped and added to bentonite slurry or CLSM mixtures. Bentonite slurry mixtures were tested for viscosity, density, filtrate loss, and permeability. The behavior of the bentonite slurries was greatly influenced by interaction and interlocking of corrugate fibers; in general resulting in increased viscosity, filtrate loss, and permeability and decreased density. CLSM mixtures were tested for flow consistency, unit weight, air content, and compressive strength. CLSM mixtures prepared with corrugated paperboard showed an increased water demand due to high absorption of the corrugate. The higher water content was a significant factor contributing to decreased unit weight and compressive strength. CLSM mixtures containing corrugated paperboard also exhibited increased air contents, possibly due to entrapment of air within the corrugate pulp. Corrugated paperboard was used to successfully replace up to 27% of bentonite for slurry trench applications, 60% of bentonite for vertical drilling applications, and 59% of bentonite for directional drilling applications while maintaining acceptable engineering properties. For CLSM mixtures up to 1% of fine aggregate was replaced with corrugated paperboard while maintaining satisfactory engineering properties. Incorporation of corrugated paper board into bentonite slurry, CLSM, and drilling fluid applications provides a viable option for beneficial reuse.
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Silva, Italo Guimaraes Medeiros da. "POLYMERIC MATERIALS FOR ENVIRONMENTAL APPLICATIONS IN THE OIL AND GAS INDUSTRY." Case Western Reserve University School of Graduate Studies / OhioLINK, 2021. http://rave.ohiolink.edu/etdc/view?acc_num=case160709776258431.

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Holm, Rochelle Hales. "Comparison of three drilling technologies to characterize the vadose zone, Hanford Site." Online access for everyone, 2007. http://www.dissertations.wsu.edu/Thesis/Summer2007/r_holm_062107.pdf.

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Дригулич, П. Г. "Еколого-геологічний моніторинг забруднення довкілля об'єктами нафтогазового комплексу." Thesis, Івано-Франківський національний технічний університет нафти і газу, 2008. http://elar.nung.edu.ua/handle/123456789/4250.

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Дисертація присвячена еколого-геологічному моніторингу та розробленню технічних засобів і технологічних рішень, спрямованих на підвищення екологічної безпеки досліджуваних об’єктів НГК. Зокрема, виявлено джерела та агенти забруднення довкілля об’єктами НГК, проведено аналіз сучасного стану еколого-геофізичних досліджень на об’єктах НГК, установлено наявність локальних температурних аномалій у приповерхневих шарах у межах зон забруднення нафтою і нафтопродуктами. Теоретично обґрунтовано природу виявлених аномалій. Розроблено комплексну методику еколого-геологічного моніторингу під час проведення бурових робіт, розміщення відходів буріння та експлуатації ПСГ. Методику апробовано в межах Бориславського та Полтавського нафтогазопромислових районів. Запропоновано техніко-технологічні засоби та рішення, що дали змогу суттєво покращити екологічний стан досліджуваних територій під час проведення бурових робіт і захоронення відходів буріння.
Диссертация посвящена эколого-геологическому мониторингу, разработке технических средств и технологических решений, направленных на обеспечение экологической безопасности объектов НТК. Поскольку разработанная методика экологического мониторинга базируется на определении параметров загрязнения приповерхностных слоев как объектов загрязнения и на определении техногенных и природных источников загрязнения, рассмотрены физико-географические условия и минералогический состав приповерхностных слоев, геологическое строение месторождений углеводородов. С целью определения ранга экологического мониторинга окружающей среды на основании анализа публикаций теоретических и фактических материалов разработана классификация экогеофизических методов. Согласно этой классификации они подразделяются на дистанционные, поверхностные и приповерхностные, скважинные. Автором впервые предложен и обоснован эффективный комплекс методов качественной и количественной оценки загрязнения окружающей среды объектами НГК на основе совокупного анализа геологических, геофизических и геохимических материалов, который позволяет дать экспрессную оценку экологической ситуации и детализировать ее в дальнейшем. Общепринятые геохимические методы исследования требуют значительных материальных затрат и времени для проведения полевых работ и лабораторных анализов. Кроме того, не всегда точки отбора проб совпадают с наиболее загрязненными участками. Поэтому сначала на участках возможного загрязнения производятся геофизические исследования (геотермия и метод естественного электрического поля), выделяются локальные температурные аномалии и направление движения грунтовых вод. На определенных геофизическими методами точках производится отбор проб для количественных геохимических исследований, определяются источники загрязнения и пути миграции загрязнителей. Разрабатываются и внедряются на практике природоохранные мероприятия на стадии проектирования, строительства и эксплуатации объектов НГК. Теоретически обоснована природа локальных температурных аномалий на загрязненных нефтью и нефтепродуктами участках, которые возникают в результате жизнедеятельности микроорганизмов. Показана возможность расчета величины температурной аномалии, при наличии информации о химическом составе нефтепродуктов, соотношении масс загрязнителя и почвы, а также масштабах загрязнения. При апробации разработанной методики выявлены источники загрязнения окружающей среды объектами НГК и установлено наличие локальных температурных аномалий в приповерхностных слоях в пределах зон загрязнения нефтью и нефтепродуктами. Апробация разработанного комплекса экологогеологических методов мониторинга загрязнения окружающей среды на Верхнемасловецком нефтяном и Андрияшевском газоконденсатном месторождениях, Угерском подземном хранилище газа, шламонакопителе отходов бурения показала возможность его использования на других техногенноопасных объектах НГК. На основании проведенных эколого-геологических исследований предложены технические средства и технологические решения, позволяющие существенно улучшить экологическое состояние исследуемых территорий при проведении буровых работ и захоронении отходов бурения. Впервые решено в комплексе и эффективно внедрено на практике повышение экологической безопасности проведения буровых работ, утилизации, размещения и захоронения отходов бурения. Доказано, что в нефтегазовой промышленности подземному захоронению промышленных сточных вод нет альтернативы, а безамбарное бурение возможно лишь при наличии шламонакопителя и нагнетательной скважины.
The dissertation is devoted to the ecological-geological monitoring and the development of technology and technological solutions directed to the improvement in the ecological safety of the objects of the oil and gas complex (OGC). Thus, the sources of the environmental pollution from the objects of OGC were found and the availability of local temperature anomalies was determined in the near-surface layers within the limits of the zones polluted with mineral oil. The nature of determined anomalies was theoretically grounded. Complex methods of ecological-geological monitoring while drilling, placing of drilling waste and exploitation of underground gas storage were developed. The methods were approved within the limits of the Boryslav and Poltava oil- and gas-commercial regions. Technical-technological methods and solutions were proposed that allowed to improve sufficiently the ecological state of the studied territories during drilling and burial of drilling waste.
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Пукіш, А. В. "Підвищення екологічної безпеки при спорудженні нафтогазових свердловин." Thesis, Івано-Франківський національний технічний університет нафти і газу, 2008. http://elar.nung.edu.ua/handle/123456789/4273.

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Встановлено закономірності підвищення ефективності очищення бурових стічних вод з використанням алюміній гідроксохлоридсульфату, алюміній гідроксохлориду та сульфат залізовмісного реагенту. Встановлено межі застосування методу реагентної коагуляції з використанням алюміній гідроксохлориду для очищення БСВ залежно від концентрації завислих речовин та органічних домішок. Проведено дослідження цитогенетичних характеристик відходів буріння за показниками мітотичної активності у первинній кореневій меристемі тест-об'єкта Allium сера та індивідуальними абераціями хромосом в клітинах з використанням allium-сера тесту. Принципи термодинаміки нерівноважних процесів коагуляції виражено через безпосередньо вимірювані величини: питому електропровідність та коефіцієнт дифузії. Науково обґрунтовано систему спостережень за станом підземних вод під час спорудження свердловин.
Диссертация посвящена решению экологической проблемы - повышения экологической безопасности при сооружение нефтегазовых скважин. Установлены закономерности повышения эффективности очистки буровых сточных вод с использованием алюминий гидроксохлоридсульфата, алюминий гидроксохлорида и сульфата железа. Определена оптимальная доза коагулянтов алюминий гидроксохлорида и алюминий гидроксохлоридсульфата для очистки буровых сточных вод, которая составляет 0,7-0,8 кг/м3, что в два раза меньше, чем при использовании алюминий сульфата и сульфата железа. Температура среды, при которой процесс коагуляции будет наиболее эффективным, составляет: для алюминий гидроксохлорида, алюминий гидроксохлоридсульфата и сульфата железа 2-32 °С, для алюминий сульфата - 9-32 °С; рН среды - 6-7. Установлены границы применения метода реагентной коагуляции с использованием алюминий гидроксохлорида для очистки БСВ в зависимости от концентрации взвешеных веществ и органических примесей. Порог коагуляции при очистке буровых сточных вод составляет 6,5 кгО2у/м3 по органическим веществам (ХСК) и 17 кг/м3 по взвешеным веществам. При превышении этих показателей процесс коагуляцыя заканчивается пространственным структурообразованием. Предложена технологическая схема установки для очистки БСВ, обеспечивающая приготовление и дозирование реагентов, их перемешивания с БСВ, осаждение образованных хлопьев и уплотнение образованного осадка, сброс из установки очищенной воды и уплотненного осадка, что позволяет очистить БСВ до параметров, при которых возможно их повторное использование в производственном процессе. Разработана система водоснабжения и водоотвода на буровой площадке по двум отдельным линиям: для охлаждения оборудования целесообразно использовать свежую воду, для других технических целей -очищенные буровые сточные воды. Проведены исследования цитогенетических характеристик отходов бурения по показателям митотической активности в первичной корневой меристеме тест-объекта Allium сера и индивидуальным аберациям хромосом в клетках с использованием allium-сера теста. Принципы термодинамики неравновесных процессов коагуляции выражены через непосредственно измеряемые величины: удельную электропроводимость и коэффициент диффузии. Научно обоснованна система наблюдений за состоянием подземных вод при сооружении скважин.
The thesis is devoted to the solution of environmental problem - the enhancement of environmental safety of oil and gas drilling sites construction. The mechanism of drilling wastewaters treatment efficiency enhancement using aluminium hydrochloridesulfate, aluminium hydrochloride and iron-containing sulfate reagent is defined in the thesis. The boundary conditions of reagent coagulation application are set for aluminium hydrochloride treatment of drilling wastewaters, depending on the concentration of suspended particles and organic admixtures. Research of cytogenetic characteristics of drilling wastes was conducted by the indices of mitotic activity within the primary root formative tissue (meristem) of the test-object Allium сера and individual chromosomes aberrations within the cells of the test-object Allium сера. Principles of thermodynamics of coagulation non-equilibrium processes are expressed using directly measured values: specific conductivity and diffusion index. The system of groundwater monitoring is scientifically grounded for the processes of drilling wells construction.
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Books on the topic "Drilling waste"

1

Macyk, T. M. Drilling waste disposal: General document. Edmonton: Alberta Conservation and Reclamation Council, Reclamation Research Technical Advisory Committee, 1993.

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Branch, Saskatchewan Petroleum Development. Saskatchewan drilling waste management guidelines. [Regina]: Saskatchewan Energy and Mines, 1999.

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Macyk, T. M. Drilling waste disposal - general document. S.l: s.n, 1993.

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International, Conference on Drilling Wastes (1988 Calgary Alta). Drilling wastes. London: Elsevier Applied Science, 1989.

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Macyk, T. M. Alberta drilling waste sump chemistry study. Edmonton, Alta: Alberta Land Conservation and Reclamation Council, Reclamation Research Technical Advisory Committee, 1992.

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Consultants, Monenco. Literature review on the disposal of drilling waste solids. Edmonton, Alta: Alberta Land Conservation and Reclamation Council, Reclamation Research Technical Advisory Committee, 1990.

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Environment, Alberta Alberta. Assessing drilling waste disposal areas: Compliance options for reclamation certification. Edmonton: Alberta Environment, 2007.

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Limited, Hardy BBT. Handling and disposal of waste drilling fluids from on-land sumps in the Northwest Territories and Yukon. [Ottawa]: Environmental Studies Research Fund, 1988.

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Federation, National Wildlife. The Arctic National Wildlife Refuge issues briefing: Too wild to waste. Washington, D.C. (1400 16th St. NW, Washington, 20036): National Wildlife Federation, 2002.

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Pauls, D. R. Review of literature related to clay liners for sump disposal of drilling waste. Edmonton, Alta: Alberta Land Conservation and Reclamation Council, Reclamation Research Technical Advisory Committee, 1988.

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Book chapters on the topic "Drilling waste"

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Acchar, Wilson, and Sheyla K. J. Marques. "Using Oil Drilling Waste in Soil-Cement Formulations." In Ecological Soil-Cement Bricks from Waste Materials, 29–43. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-28920-5_4.

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Acchar, Wilson, and Sheyla K. J. Marques. "Using Oil Drilling Waste and Sugarcane Bags Ash in Soil-Cement Formulations." In Ecological Soil-Cement Bricks from Waste Materials, 45–61. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-28920-5_5.

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Chomczyńska, M., M. Pawłowska, and P. Jakubiec. "Leaching of pollutants from drilling waste containing water-based muds." In Advances in Environmental Engineering Research in Poland, 145–54. London: Routledge, 2021. http://dx.doi.org/10.1201/9781003171669-15.

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Tokach, Yu E., Yu K. Rubanov, O. S. Vyrodov, and A. N. Popova. "Utilization of Drilling Waste in the Production of Construction Materials." In Lecture Notes in Civil Engineering, 210–15. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-68984-1_31.

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Parnian, Amir, James N. Furze, and Amin Parnian. "Drilling Waste Management Based on New Methods of Bioremediation and Solar Desalination." In Earth Systems Protection and Sustainability, 79–97. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-85829-2_4.

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Chang, Yunkang, Xingbiao Wang, Yifan Han, Manman Wang, Chenggang Zheng, Yongli Wang, and Zhiyong Huang. "The Removal of Crude Oil in Waste Drilling Muds by a Constructed Microbial Consortium." In Proceedings of the 2012 International Conference on Applied Biotechnology (ICAB 2012), 1245–57. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-37922-2_134.

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Guo, Chun-ping. "Current Status and Prospects of Waste Oil-Based Drilling Fluid Treatment Methods in China." In Proceedings of the International Petroleum and Petrochemical Technology Conference 2020, 94–104. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-1123-0_10.

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Schröder, H., and V. Schnibben. "Exploration Drillings below the Hazardous Waste Site Münchehagen." In Soil & Environment, 983–84. Dordrecht: Springer Netherlands, 1993. http://dx.doi.org/10.1007/978-94-011-2018-0_188.

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Abbas, Abbas Hadj, Hacini Messaoud, and Aiad Lahcen. "Wastes of Oil Drilling: Treatment Techniques and Their Effectiveness." In Exergy for A Better Environment and Improved Sustainability 2, 3–11. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-62575-1_1.

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Chaîneau, Qaude-Henri, Jean-Louis Morel, and Jean Oudot. "Biodegradation of Fuel Oil Hydrocarbons in Soil Contaminated by Oily Wastes Produced During Onshore Drilling Operations." In Contaminated Soil ’95, 1173–74. Dordrecht: Springer Netherlands, 1995. http://dx.doi.org/10.1007/978-94-011-0421-0_60.

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Conference papers on the topic "Drilling waste"

1

Cline, J. T., and W. A. Piper. "Drilling Waste Controls." In SPE Health, Safety and Environment in Oil and Gas Exploration and Production Conference. Society of Petroleum Engineers, 1994. http://dx.doi.org/10.2118/27162-ms.

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Morillon, Anne, Jean-François Vidalie, Udi Syahnudi Hamzah, S. Suripno, and Eddy K. Hadinoto. "Drilling and Waste Management." In SPE International Conference on Health, Safety and Environment in Oil and Gas Exploration and Production. Society of Petroleum Engineers, 2002. http://dx.doi.org/10.2118/73931-ms.

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Arnhus, K. M., and G. Slora. "Cuttings and Waste Mud Disposal." In SPE/IADC Drilling Conference. Society of Petroleum Engineers, 1991. http://dx.doi.org/10.2118/21949-ms.

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Perie, F. H., J. L. Seris, and A. P. Martignon. "Biological Treatment Of Drilling Waste." In SPE/EPA Exploration and Production Environmental Conference. Society of Petroleum Engineers, 1995. http://dx.doi.org/10.2118/29695-ms.

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Abu Ali, Itihad, Ali Dahche, and Sultan Karrani. "ADCO's Drilling Waste Management System Towards Zero Waste Disposals." In SPE/IADC Middle East Drilling Technology Conference and Exhibition. Society of Petroleum Engineers, 2013. http://dx.doi.org/10.2118/166709-ms.

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Nilsen, Christian, Karen McCosh, and Mukesh Kapila. "Tar-Sands Drilling-Waste Management: A Clean Solution." In IADC/SPE Drilling Conference. Society of Petroleum Engineers, 2008. http://dx.doi.org/10.2118/112368-ms.

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Priatna, R., A. Sjahroezah, and R. I. Bledoeg. "Waste Management: An Approach to the Management of Drilling Waste." In SPE International Conference on Health, Safety and Environment in Oil and Gas Exploration and Production. Society of Petroleum Engineers, 2000. http://dx.doi.org/10.2118/61249-ms.

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Veil, John A., John R. Gasper, Markus G. Puder, Robert G. Sullivan, Pamela D. Richmond, Brandy R. Fidler, Carole N. Fleming, Rene F. Bernier, and Fredrick V. Jones. "Innovative Website for Drilling Waste Management." In SPE/EPA/DOE Exploration and Production Environmental Conference. Society of Petroleum Engineers, 2003. http://dx.doi.org/10.2118/80603-ms.

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Al-Suwaidi, Abdullah, Christian Hun, Fuad Marmash, and Abdel Fatah Hendy. "Comprehensive Solutions to Drilling Waste Management." In Abu Dhabi International Conference and Exhibition. Society of Petroleum Engineers, 2004. http://dx.doi.org/10.2118/88673-ms.

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Fleming, Carole N., James Benjamin Bloys, Catalin Dragos Ivan, and William A. Piper. "Computer Models Address Drilling Waste Management." In SPE Annual Technical Conference and Exhibition. Society of Petroleum Engineers, 2005. http://dx.doi.org/10.2118/95289-ms.

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Reports on the topic "Drilling waste"

1

Pioneer Natural Resources. Beneficial Use of Drilling Waste - A Wetland Restoration Technology. Office of Scientific and Technical Information (OSTI), August 2000. http://dx.doi.org/10.2172/760020.

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Pioneer Natural Resources. Beneficial Use of Drilling Waste - A Wetland Restoration Technology. Office of Scientific and Technical Information (OSTI), July 1999. http://dx.doi.org/10.2172/760021.

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Piraux, O., M. M. Côté, S. Akagawa, T. Kawamoto, P. Seccombe-Hett, and S. R. Dallimore. Mallik 7-year drilling waste sump monitoring program: summary report. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 2016. http://dx.doi.org/10.4095/297895.

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Puder, M. G., B. Bryson, and J. A. Veil. Compendium of regulatory requirements governing underground injection of drilling waste. Office of Scientific and Technical Information (OSTI), November 2002. http://dx.doi.org/10.2172/819454.

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Goranson, C. Applicability of petroleum horizontal drilling technology to hazardous waste site characterization and remediation. Office of Scientific and Technical Information (OSTI), September 1992. http://dx.doi.org/10.2172/10163380.

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Goranson, C. Applicability of petroleum horizontal drilling technology to hazardous waste site characterization and remediation. Office of Scientific and Technical Information (OSTI), September 1992. http://dx.doi.org/10.2172/6240330.

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Berglund, J. W. Mechanisms governing the direct removal of wastes from the Waste Isolation Pilot Plant repository caused by exploratory drilling. Office of Scientific and Technical Information (OSTI), December 1992. http://dx.doi.org/10.2172/10159247.

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R.E. Peterson. Waste Management Plan for the Drilling Within the Chromium Plume West of 100-D/DR Reactors. Office of Scientific and Technical Information (OSTI), December 1997. http://dx.doi.org/10.2172/16183.

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Mercer, J. W., R. L. Beauheim, R. P. Snyder, and G. M. Fairer. Basic data report for drilling and hydrologic testing of drillhole DOE-2 at the Waste Isolation Pilot Plant (WIIP) site. Office of Scientific and Technical Information (OSTI), April 1987. http://dx.doi.org/10.2172/6351220.

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ECONOMY, KATHLEEN M., JON CRAIG HELTON, and PALMER VAUGHN. Brine and Gas Flow Patterns Between Excavated Areas and Disturbed Rock Zone in the 1996 Performance Assessment for the Waste Isolation Pilot Plant for a Single Drilling Intrusion that Penetrates Repository and Castile Brine Reservoir. Office of Scientific and Technical Information (OSTI), October 1999. http://dx.doi.org/10.2172/14814.

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