Relevant bibliographies by topics / In situ injection

Academic literature on the topic 'In situ injection'

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Published: 14 March 2023

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Journal articles on the topic "In situ injection"

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Reddy, Ramana G., and V. Kumar. "Chemical In Situ Synthesis of Aluminum Alloy Composites." Materials Science Forum 561-565 (October 2007): 701–4. http://dx.doi.org/10.4028/www.scientific.net/msf.561-565.701.

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Aluminum alloys were reinforced with AlN particles using a novel chemical in situ technique. Thermodynamic analyses were made to identify the conditions for the in situ formation of the AlN in Al alloys. Experiments were conducted in the temperature range of 1173-1473 K by injecting ammonia gas. The composites with AlN quantity varying from 5 to 51 wt % were produced. Effect of process variables such as gas injection time, flow rate of ammonia gas and temperature of the alloy melt on the formation of AlN was studied. Increase in either injection time or flow rate of the ammonia gas increased the nitride content. AlN particles with an average size of 500 nm were produced. The measured Vickers hardness of the composites formed increased with increasing AlN content. The amount of AlN experimentally formed is in good agreement with the thermodynamically predicted data.
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Shin, Gi Ru, Hee Eun Kim, Jae Ho Kim, Sangdun Choi, and Moon Suk Kim. "Advances in Injectable In Situ-Forming Hydrogels for Intratumoral Treatment." Pharmaceutics 13, no. 11 (November 18, 2021): 1953. http://dx.doi.org/10.3390/pharmaceutics13111953.

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Chemotherapy has been linked to a variety of severe side effects, and the bioavailability of current chemotherapeutic agents is generally low, which decreases their effectiveness. Therefore, there is an ongoing effort to develop drug delivery systems to increase the bioavailability of these agents and minimize their side effects. Among these, intratumoral injections using in situ-forming hydrogels can improve drugs’ bioavailability and minimize drugs’ accumulation in non-target organs or tissues. This review describes different types of injectable in situ-forming hydrogels and their intratumoral injection for cancer treatment, after which we discuss the antitumor effects of intratumoral injection of drug-loaded hydrogels. This review concludes with perspectives on the future applicability of, and challenges for, the adoption of this drug delivery technology.
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Germanovich, Leonid N., and Lawrence C. Murdoch. "Injection of solids to lift coastal areas." Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences 466, no. 2123 (May 28, 2010): 3225–52. http://dx.doi.org/10.1098/rspa.2010.0033.

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Catastrophic flooding in coastal areas is an ongoing problem that may be aggravated by projected sea-level rise. We present a method of flood protection called SIRGE (solid injection for raising ground elevation), where the ground surface is raised by injecting sediment-laden slurry into hydraulic fractures at shallow depths. The injection process is repeated at adjacent locations to create a network of sub-horizontal, overlapping injections of solid material (hydraulic fractures). We argue that injecting sediment over large lateral distances would cause a lasting surface uplift that scales with the thickness of injected sediment at depth. We support this concept by an analysis showing that, in contrast to hydraulic fractures in petroleum reservoirs, hydraulic fractures in soft, shallow formations would typically grow in the toughness-dominated regime. It appears that the SIRGE process could be implemented to lift ground elevations in places such as Venice or New Orleans. Experimental and geological examples indicate that hydraulic fractures of suitable orientation and size can be created in areas with appropriate in situ stresses.
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Jerger, Douglas E., and Patrick M. Woodhull. "IN SITU BIOREMEDIATION OF PETROLEUM HYDROCARBON CONTAMINATED SOIL AND GROUND WATER." International Oil Spill Conference Proceedings 1995, no. 1 (February 1, 1995): 910–11. http://dx.doi.org/10.7901/2169-3358-1995-1-910.

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ABSTRACT OHM designed and installed an in situ bioremediation system with an above ground water treatment system at a petroleum hydrocarbon distribution and fuel facility. The remediation system consists of an infiltration trench system to deliver treated, amended ground water to the upper silty lens, and an injection well system to deliver water to the lower sand and gravel lens. A French drain is located downgradient of the groundwater injection systems to provide hydraulic control of the site. Recovered ground water is pumped to an on-site treatment system prior to re-injection.
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Vojinovic, Vojislav, J. M. S. Cabral, and L. R. Fonseca. "Ex situ bioprocess monitoring techniques." Chemical Industry and Chemical Engineering Quarterly 13, no. 2 (2007): 103–16. http://dx.doi.org/10.2298/ciceq0702103v.

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Rapid development of biotechnology resulted in increasing need for bioprocess monitoring and control. Efficient process control allows optimization of process efficiency and productivity, reduction of costs and pollution, and quality control. In situ sensors for real-time bioprocess monitoring have been recently reviewed. In this paper the use of ex situ techniques for real time (or quasi real time) monitoring methods is reviewed. These include mass spectrometry, gas chromatography, methods based on semiconductor gas sensors and electronic noses for the analysis of dissolved gas and bioreactor head-space, and on-line liquid chromatography and capillary electrophoresis, spectroscopy and biosensors for monitoring of the bulk process media. Flow techniques allow for the analysis to be carried out ex situ, out of the reactor reintroducing various detection methods that are impossible to implement in an in situ set-up. Because of their versatility flow analysis techniques (continuous and segmented flow analysis, flow injection analysis, sequential injection analysis and bead injection analysis) are broadly used for sample handling and analysis of the bulk media, and their applications in bioprocess monitoring are discussed.
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Liu, Mingyang, Hu Wen, Shixing Fan, Zhenping Wang, Jinbiao Fei, Gaoming Wei, Xiaojiao Cheng, and Hu Wang. "Experimental Study of CO2-ECBM by Injection Liquid CO2." Minerals 12, no. 3 (February 26, 2022): 297. http://dx.doi.org/10.3390/min12030297.

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Coal mine gas disasters have severely restricted production safety. Improving gas extraction efficiency can effectively reduce disasters. Scholars have confirmed that CO2 successfully displaces coal seam CH4. This study conducted displacement and in situ experiments and compared gas drainage under different injection pressures. The displacement experiments indicated that CH4 production rates increased under increased pressures while the displacement ratios decreased. The pressure had a positive effect on sweep efficiency. The in situ experiment showed that CH4 and CO2 concentration trends in the inspection hole remained consistent. Through observing the data of the original and inspection holes, the average gas drainage concentration during low- and medium-pressure injections increased by 0.61 times and 1.17 times, respectively. The low-pressure average gas drainage scalar was increased by 1.08 times. During the medium-pressure injection, the average gas drainage purity increased by 1.94 times. The diffusion ranges of CO2 under low- and medium-pressure injections were 20–25 m and 25–30 m, respectively. The sweep efficiency of medium-pressure injection was 26% better than that of the low-pressure injection, with average pressures of 2.8 MPa and 1.4 MPa, respectively, for sweep efficiency. This study proposes an effective method for improving coal mine gas drainage efficiency.
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Liu, C. S., M. C. Tom Kuo, C. Y. Su, Y. C. Chen, W. C. Cheng, C. Y. Chou, K. F. Liang, Y. L. Han, and C. H. LIN. "A bacteria injection scheme for in situ bioaugmentation." Journal of Environmental Science and Health, Part A 48, no. 9 (July 15, 2013): 1079–85. http://dx.doi.org/10.1080/10934529.2013.774601.

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Shouche, M. S., J. N. Petersen, R. S. Skeen, and B. S. Hooker. "Alternating extraction/injection well interactions forin situ bioremediation." Applied Biochemistry and Biotechnology 45-46, no. 1 (March 1994): 775–85. http://dx.doi.org/10.1007/bf02941848.

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Zhao, Peng, Yao Zhao, Hrishikesh Kharbas, Jianfeng Zhang, Tong Wu, Weimin Yang, Jianzhong Fu, and Lih-Sheng Turng. "In-situ ultrasonic characterization of microcellular injection molding." Journal of Materials Processing Technology 270 (August 2019): 254–64. http://dx.doi.org/10.1016/j.jmatprotec.2019.03.012.

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Janda, V., J. Rudovský, J. Wanner, and K. Marha. "In situ Denitrification of Drinking Water." Water Science and Technology 20, no. 3 (March 1, 1988): 215–19. http://dx.doi.org/10.2166/wst.1988.0101.

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Pilot-plant and full scale studies of the in-situ biological denitrification of drinking water form the subject of this paper. Ethyl alcohol as a source of organic carbon was used in both cases. Good results were obtained during the pilot-plant study. The full-scale experiment was carried out as a system of four injection wells and one central collection well. Promising results were obtained when diluting water was recirculated into the injection wells to improve mixing of substrate in ground water. The efficiency of nitrate removal was about 50%.
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Dissertations / Theses on the topic "In situ injection"

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Gujar, Surabhi Satyajit. "Detecting Electromagnetic Injection Attack on FPGAs Using In Situ Timing Sensors." Thesis, Virginia Tech, 2018. http://hdl.handle.net/10919/97006.

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Nowadays, security is one of the foremost concerns as the confidence in a system is mostly dependent on its ability to protect itself against any attack. The area of Electromagnetic Fault Injection (EMFI) wherein attackers can use electromagnetic (EM) pulses to induce faults has started garnering increasing attention. It became crucial to understand EM attacks and find the best countermeasures. In this race to find countermeasures, different researchers proposed their ideas regarding the generation of EM attacks and their detection. However, it is difficult to see a universal agreement on the nature of these attacks. In this work, we take a closer look at the analysis of the primary EMFI fault models suggested earlier. Initial studies had shown that EM glitches caused timing violations, but recently it was proposed that EM attacks can create bit sets and bit resets. We performed a detailed experimental evaluation of the existing detection schemes on two different FPGA platforms. We present their comparative design analysis concerning their accuracy, precision, and cost. We propose an in situ timing sensor to overcome the disadvantages of the previously proposed detection approaches. This sensor can successfully detect most of the electromagnetic injected faults with high precision. We observed that the EM attack behaves like a localized timing attack in FPGAs which can be identified using the in situ timing sensors.
MS
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Walter, David J. "Soil enhancement by fluid injection for in situ treatment of contaminated soil." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1999. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape8/PQDD_0008/NQ52695.pdf.

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Chuah, Siew Peng. "In-situ fibre formation & management of thermotropic liquid crystalline polymers in thermoplastic matrices." Thesis, Brunel University, 1995. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.295188.

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Mohammad, Ahmad A. A. "Experimental investigation of in situ upgrading of heavy oil by using a hydrogen donor and catalyst during steam injection." Texas A&M University, 2008. http://hdl.handle.net/1969.1/86051.

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Experiments were conducted to investigate the feasibility of in situ upgrading of heavy oil by the use of an orgametallic catalyst and a hydrogen donor (tetralin). The experiments used a vertical injection cell into which a mixture of sand, water, and Jobo oil was thoroughly mixed and packed. Two types of runs were conducted: a run where the tetralin and catalyst were mixed within the mixture before packing into the cell, and the other was conducted by injecting a slug of the tetralin-catalyst solution before commencing with the steam injection. The Jobo oil used had an oil gravity of 12.4° API and a viscosity of 7800 cp at 30°C. The injection cell was placed in a vacuum jacket and set to a reservoir temperature of 50°C. Superheated steam at 273°C was then injected into the injection cell at a rate of 5.5 cc/min (cold water equivalent). The cell outlet pressure was maintained at 500 psig. Produced liquid samples were collected periodically through a series of separators. The produced oil was divided into two halves and several measurements and analyses were carried out on them. These included viscosity, density, elemental analysis and liquid composition. Experimental results indicated that tetralin alone was a worthy additive and increased recovery by 15% compared to that of pure steam. The premixed tetralincatalyst run showed improved recovery to that of pure steam by 20%. Experiments also showed that, when the tetralin-catalyst solution was injected rather than mixed, the results were equivalent to tetralin injection runs. Oil production acceleration was displayed by all the runs with tetralin and tetralin-catalyst but was more pronounced with the availability of catalyst.
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Palmén, Anders. "Stabilization of frictional soil through injection using CIPS (Calcite In-situ Precipitation System)." Thesis, KTH, Jord- och bergmekanik, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-109361.

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The precipitation system CIPS (Calcite In-situ Precipitation System) has been created as a permeation grouting system based on a two component fluid with the intention of slowly permeate and fill the pores. It causes cementation through a chemical reaction which bonds the soil particles together at the contact points. CIPS mimics one of the natural reactions in nature where sandstone is formed through calcite precipitation. This system is used in Australia with excellent results and there are many factors governing the outcome of the method, some of these factors are: flow rate, pressure, time, chemical recipe, temperature, composition of the soil matrix and number of performed injections at the same point of location. Some of these factors have been the focus of this report and where they have been examined from a Scandinavian point of view where our ground temperature conditions and soil compositions have governed the outcome of the accomplished results. The strength increase has been examined through laboratory tests where natural sand from a building site with known particle size and dry density has been treated once with the CIPS Fluid. This treatment was completed in a temperature controlled room of 12 degrees after which the treated soil was tested by unconfined compression tests. Even a rather low increase in bearing capacity of the soil would result in benefits during the construction of temporary constructions during the early building stages foundation work. Since the desired increase in bearing capacity of the soil is fairly low, 50-100 kPa, the investigations has concentrated on one single injection, in order to study if there is a clear trend in the increase in bearing capacity, and if it can be roughly predicted. In addition to the above mentioned laboratory work a small scale field test has been conducted, where the CIPS Fluid was injected into the ground with the aim of creating a column shaped object. This column was left for a certain time, a time long enough for the calcite crystal to bond the soil grains and generate an increase in strength. When the assumed cementation had occurred an ocular assessment was carried out in order to predict whether the strength had increased or not, and to what degree. Based on the laboratory results, some evidence of that strength increase occurs due to either the discharge of the spent fluid containing ammonium chloride or the process of drying. Either way, the strength increase takes place during the grounds natural process of adjusting towards the natural water content equilibrium for the specific site of interest. A strength increase at the laboratory experiments of between approximately 60-220 kPa has been achieved. The field tests where slightly less rewarding when difficulties of injecting the CIPS Fluid into the sandy soil arose due to challenging task of designing a pumping system where both a low pressure, less than the overburden pressure, and a low flow rate, less than 7 litres per minute, could be controlled. The flow rate could be controlled but with the effect of the pressure rising to too high levels. Due to the observations of CIPS Fluids exiting the ground at other points than near the injection spear, soil fractures are assumed to have occurred at one ore many locations. The volumes treated with CIPS Fluid displayed no increase in strength as long as they appeared somewhat wet with the spent fluid. When this fluid containing ammonium chloride vanished from the treated soil and the pH-value dropped, the build up in strength through calcite crystallisation at the contact points began. This crystallization which leads to a cementation was observed at the centre of the small spheres achieved through injection in the ground, which proves that the Calcite In-situ Precipitation System has caused a cementation of the soil grains treated.
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David, Anthony R. J. "Flow injection instrumentation for the in situ monitoring of nutrients in sea water." Thesis, University of Plymouth, 1996. http://hdl.handle.net/10026.1/1690.

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In order to investigate the biogeochemistry of aquatic ecosystems, a quantitative understanding of primary production and the temporal and spatial distribution of nutrients is necessary. This thesis describes the development of a submersible FI based nutrient sensor for the in situ determination of nitrate in estuarine and coastal waters. Chapter One describes the role of nitrogen in the global and marine nitrogen cycles and provides an overview of laboratory and in situ methods for its determination. Chapter Two describes the key parameters for a field instrument and culminates with the overall design specification for the system. Chapter Three describes in detail the design, build and optimisation of the key individual components of the system, e.g. sample delivery system, injection valve, reduction column, reaction column, flowcell, on-board control system and the housing of the complete integrated system. Chapter Four describes the optimisation and analytical performance of the FI instalment prior to field trials. The key operational parameters such as flowcell path length, injection volume and detector response were investigated. LOD, reproducibility and linear range were determined and the control programme for the onboard computer is reported. For example, a LOD of 0.01 Nitrate-N, a linear range of 0-140 | iM Nitrate-N and a reproducibility of ± 5 % were achieved. Chapter Five describes the field experiments where the FI system was initially used as a bench instrument and compared to a laboratory FI method which had been validated by participation in two interlaboratory exercises and for nitrate in river and sea water. The first submersed deployments involved the optimisation of the system operational characteristics and developing the field techniques. The final part of this chapter describes the weekly field studies of Barn Pool in Plymouth Sound using the submersed nutrient sensor for a period of two months. The operation and performance of the submersed sensor was assessed against an air segmented continuous flow analyser during a Land Ocean Interaction Study (LOIS) North Sea cruise aboard the RVS Challenger. The results from this exercise and the relevant salinity and turbidity measurements are presented in Chapter Six.
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McCormack, Trevor. "Flow injection chemistries for the in situ monitoring of nutrients in sea water." Thesis, University of Plymouth, 1996. http://hdl.handle.net/10026.1/494.

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Pitterle, Mark Thomas. "Push-pull Tests to Quantify In-situ Naphthalene Phytoremediation Rates." Thesis, Virginia Tech, 2004. http://hdl.handle.net/10919/41282.

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Ten strategically placed push-pull wells were installed to determine in-situ degradation rates at a creosote contaminated site and to assess the contribution of hybrid poplar trees to polynuclear aromatic hydrocarbon (PAH) remediation. Well positioning enabled comparison between contaminated and non-contaminated locations, as well as comparisons between locations with and without trees. Comparison of areas with and without trees enabled an improved understanding of the role that the phytoremediation system has on the overall degradation of PAHs at the site. Bromide, a conservative, non-reactive tracer, was injected in solution along with dissolved oxygen. Twelve push-pull tests (PPTs) were performed, of which three did not include naphthalene in the injection solution, so that the developed method could be evaluated, tested, and yield an initial set of rates to make seasonal and spatial varying in-situ comparisons. Method comparison used for rate analysis found the highest confidence in the method of Snodgrass and Kitanidis (1998) for zero order rates and the method of Haggerty et al. (1998) for first order rates. The largest zero and first order rates, 2.43 mgnaphthalene/L-hr and 1.25 1/hr, respectively, occurred at treed regions in June. Zero and first order winter rates at treed regions were greater by a factor of at least 2.5 when compared to non-treed regions. Degradation rates at treed regions were found to steadily increase by over four times from winter to summer. Results validate that decay variations attributed to phytoremediation can be detected with the push-pull method. PPTs performed at the Oneida site verified observed trends determined from six years of monitoring data, microbial characterization, and microcosm studies.
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Tingas, John. "Numerical simulation of air injection processes in high pressure light & medium oil reservoirs." Thesis, University of Bath, 2000. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.343763.

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Research, pilot scale and field developments of In-Situ Combustion (ISC) for enhanced oil recovery (EOR) in shallow, low pressure, heavy oil reservoirs intensified between the first and the second oil crisis from 1973 to 1981. A decline of interest in EOR followed the collapse of the oil prices in 1986. Renewed interest on in-situ combustion EOR research in the late 1980’s and beginning of the 1990’s was expanded and focused on high pressure medium and light oil reservoirs. The applicability of air injection in deep high pressure light petroleum reservoirs was established by research work of Greaves et al. in 1987 & 1988, Yannimaras et al. in 1991 and Ramey et a l in 1992. Accelerating rate calorimeter (ARC) tests were used to screen the applicability of various types of light oil reservoirs for in-situ combustion EOR by Yannimaras and Tiffin in 1994. The most successful light oil air injection project in the 1990s in the Medicine Pole Hills Unit, Williston Basin, N. Dakota started in 1987 and was reported by Kumar, Fassihi & Yannimaras, in 1994. Low temperature oxidation of light North Sea petroleum was studied at the University of Bath. A high-pressure combustion tube laboratory system was built at Bath University to evaluate performance of medium and light petroleum in-situ combustion processes. Gravity effects and the impact of horizontal wells in Forced Flow In-Situ Combustion Drainage Assisted by Gravity (FFISCDAG) were studied with three-dimensional combustion experiments. In this study, the university of Bath combustion tube experiments have been simulated and history matched. The tube experiments were up-scaled and field simulation studies were performed. A generic PVT characterization scheme based on 5 hydrocarbon pseudo-components was used, which was validated for light Australian and medium ‘Clair’ oil. A generic chemical reaction characterization scheme was used, which was validated for light Australian and medium ‘Clair’ oil. Advanced PVT and chemical reaction characterizations have been recommended for future work with more powerful hardware platforms. Extensive front track and flame extinction studies were performed to evaluate the performance of currently available non-iso-thermal simulators and to appraise their necessity in air injection processes. Comparative ISC field scale numerical simulation studies of Clair medium oil and light Australian petroleum were based on up-scaled combustion tube experimental results. These studies showed higher than expected hydrocarbon recovery in alternative EOR processes for both pre and post water flood implementation of ISC. Further in this study field scale numerical simulation studies revealed high incremental hydrocarbon recovery was possible by gravity assisted forced flow. The applicability of light oil ISC to gas condensate and sour petroleum reservoirs has been examined in this study with promising results. Light petroleum ISC implemented by a modified water flood including oxidants such as H2O2 and NH4NO3 are expected to widen the applicability of ISC processes in medium and light petroleum reservoirs, especially water flooded North Sea reservoirs.
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O'Donnell, Hugh J. "In situ composites of compatibilized polypropylene/liquid crystalline polymer blends." Diss., This resource online, 1993. http://scholar.lib.vt.edu/theses/available/etd-02052007-081243/.

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Books on the topic "In situ injection"

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A, Parker Randy, National Risk Management Research Laboratory (U.S.), and Superfund Innovative Technology Evaluation Program (U.S.), eds. In situ bioremediation by electrokinetic injection. Cincinnati, OH: U.S. Environmental Protection Agency, [National Risk Management Research Laboratory, 2000.

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Inc, Tetra Tech EM. High energy electron injection (E-beam) technology for the Ex-Situ treatment of MtBE-contaminated groundwater: Innovation technology evaluation report. Cincinnati, Ohio: National Risk Management Research Laboratory,Office of Research and Development, U.S. Environmental Protection Agency, 2002.

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Great Britain. Energy Efficiency Office. and Building Research Energy Conservation Support Unit., eds. Energy management at a large plastics injection moulding site. [UK]: Energy Efficiency Office, 1995.

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Superfund Innovative Technology Evaluation Program (U.S.), ed. Accutech pneumatic fracturing extraction and hot gas injection, phase 1. [Washington, D.C.]: U.S. Environmental Protection Agency, Superfund Innovative Technology Evaluation, 1993.

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Baskerville, Bruce. Evaluation of the site: A pilot HIV prevention programme for injection drug users. Ottawa: Community Health Research Unit, University of Ottawa, 1994.

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E, Lucius Jeffrey, Phillips S. J, and Geological Survey (U.S.), eds. Geophysical tracking of the injection of trench stabilization material at U.S. DOE Hanford Site, Richland, Washington. [Denver, CO]: U.S. Dept. of the Interior, U.S. Geological Survey, 1994.

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Rafalko, Leonard. Siege of Acre pre-injection site characterization, Kempton/Coketon Mine Complex: Prepared for : Power Plant Research Program, Maryland Department of Natural Resources. Annapolis, Maryland: Maryland Department of Natural Resources Power Plant Research Program, 2013.

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G, Guzman A., U.S. Nuclear Regulatory Commission. Office of Nuclear Regulatory Research. Division of Regulatory Applications., and University of Arizona. Dept. of Hydrology and Water Resources., eds. Summary of air permeability data from single-hole injection tests in unsaturated fractured tuffs at the Apache Leap research site: Results of steady-state test interpretation. Washington, DC: Division of Regulatory Applications, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1996.

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Wassermann, Tobias. Sichere Webanwendungen mit PHP: [Sicherheit mit PHP, MySQL, Apache, JavaScript, AJAX ; sichere Sessions und Uploads, Lösungen gegen SQL-Injection und Cross-Site Scripting ; Umgang mit sensitiven Daten, Verschlüsselung und Authentifizierung mit SSL]. Heidelberg: Mitp, 2007.

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Zavataro, Vivian, and Linda Alterwitz. Injection Site: Making the Vaccine Visible. Alterwitz, Linda, 2022.

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Book chapters on the topic "In situ injection"

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Scott, Carlos E., Lante Carbognani-Ortega, and Pedro Pereira-Almao. "In Situ Upgrading via Hot Fluid and Nanocatalyst Injection." In Advanced Catalytic Materials: Current Status and Future Progress, 129–49. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-25993-8_6.

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Worsfold, P. J., E. P. Achterberg, A. R. Bowie, R. Sandford, V. Cannizzaro, and P. Gardolinski. "Flow Injection Techniques for the in situ Monitoring of Marine Processes." In Chemistry of Marine Water and Sediments, 385–402. Berlin, Heidelberg: Springer Berlin Heidelberg, 2002. http://dx.doi.org/10.1007/978-3-662-04935-8_16.

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Liedtke, Lutz, and Arno Pahl. "Water injection test and finite element calculations of water percolation through fissured granite." In Design and Instrumentation of In Situ Experiments in Underground Laboratories for Radioactive Waste Disposal, 157–79. London: Routledge, 2022. http://dx.doi.org/10.1201/9781315140964-19.

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Wehrle, K. "In-Situ Cleaning of CHC Contaminated Sites: Model-Scale Experiments Using the Air Injection (In-Situ Stripping) Method in Granular Soils." In Contaminated Soil ’90, 1061–62. Dordrecht: Springer Netherlands, 1990. http://dx.doi.org/10.1007/978-94-011-3270-1_234.

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Rose, Joseph L., Suresh M. Menon, Robert Yi, and Randall M. German. "A Guided Wave Resonance Matching Technique for in Situ Monitoring of Powder Injection Molded Products." In Review of Progress in Quantitative Nondestructive Evaluation, 2053–60. Boston, MA: Springer US, 1996. http://dx.doi.org/10.1007/978-1-4613-0383-1_269.

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Zheng, Yang, Guanglun Lei, Chuanjin Yao, Shufeng Pei, Long Wang, and Xin Zhang. "Numerical Simulation of Deformed Medium on In Situ Upgrading of Oil Shale via Steam Injection." In Proceedings of the International Field Exploration and Development Conference 2018, 624–31. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-7127-1_57.

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Gupta, Sheetal, Anirban Giri, Saikat Adhikari, and Vivek Srivastava. "Development and Characterization of In-situ Aluminum–Titanium Carbide Composites Prepared by Pneumatic Powder Injection Route." In Metal-Matrix Composites Innovations, Advances and Applications, 59–68. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-72853-7_5.

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Lei, Guang-lun, Yang Zheng, Chuan-jin Yao, Le-le Zhu, Long Wang, and Xin Zhang. "Optimization Design of In-Situ Upgrading for Oil Shale via Steam Injection Based on Response Surface Method." In Springer Series in Geomechanics and Geoengineering, 677–85. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-2485-1_60.

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Li, Zhenbao. "Micro-Scale Piloting Test for Coal and Gas Outburst Prevention by Liquid Carbon Dioxide Injection and In-Situ Experiment." In Bow Ties in Process Safety and Environmental Management, 69–90. Boca Raton: CRC Press, 2021. http://dx.doi.org/10.1201/9781003140382-5.

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Wright, Jeremy C., Michael Sekar, William van Osdol, Huey Ching Su, and Andrew R. Miksztal. "In Situ Forming Systems (Depots)." In Long Acting Injections and Implants, 153–66. Boston, MA: Springer US, 2011. http://dx.doi.org/10.1007/978-1-4614-0554-2_9.

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Conference papers on the topic "In situ injection"

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D'Silva, Jonathan, and Gautam Shantaram Kakade. "In-Situ Combustion With Solvent Injection." In International Thermal Operations and Heavy Oil Symposium. Society of Petroleum Engineers, 2008. http://dx.doi.org/10.2118/117684-ms.

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Itabashi, Sohei, Takuya Kambayashi, Takatoshi Shimamura, Kazuki Takahashi, and Yoko Yamanishi. "In-situ cellular-scale injection for alive plants by micro-bubble injector." In 2016 IEEE 11th Annual International Conference on Nano/Micro Engineered and Molecular Systems (NEMS). IEEE, 2016. http://dx.doi.org/10.1109/nems.2016.7758324.

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Lozada Aguilar, Miguel A., and M. del Remedios Arredondo Monarrez. "Gas Lift With Nitrogen Injection Generated In Situ." In SPE International Petroleum Conference and Exhibition in Mexico. Society of Petroleum Engineers, 2000. http://dx.doi.org/10.2118/59028-ms.

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Masteika, V., T. Rogers, and R. Santilli. "Direct bond optimisation via controlled in situ water vapour injection." In 2017 5th International Workshop on Low Temperature Bonding for 3D Integration (LTB-3D). IEEE, 2017. http://dx.doi.org/10.23919/ltb-3d.2017.7947456.

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Cristofari, Jean, Louis Marie Castanier, and Anthony Robert Kovscek. "Does Solvent Injection Enhance In-Situ Combustion of Viscous Oils?" In SPE/DOE Symposium on Improved Oil Recovery. Society of Petroleum Engineers, 2006. http://dx.doi.org/10.2118/99752-ms.

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Dsilva, Jonathan. "Integration of In-Situ Combustion with Solvent Injection - A detailed Study." In SPE Project and Facilities Challenges Conference at METS. Society of Petroleum Engineers, 2011. http://dx.doi.org/10.2118/141570-ms.

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Turta, Alexandru T. "Stability of In Situ Combustion Process to the Air Injection Stoppage." In SPE Heavy Oil Conference Canada. Society of Petroleum Engineers, 2012. http://dx.doi.org/10.2118/158258-ms.

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Clifton, R. J., U. Brown, and J.-J. Wang. "Modeling of In-Situ Stress Change Due to Cold Fluid Injection." In International Arctic Technology Conference. Society of Petroleum Engineers, 1991. http://dx.doi.org/10.2118/22107-ms.

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Okamura, Mitsu, Masaya Takebayashi, Katsuji Nishida, Nao Fujii, Motoharu Jinguji, Takehiko I. Masato, Hideaki Yasuhara, and Emiko Nakagawa. "In-Situ Test on Desaturation by Air Injection and Its Monitoring." In International Symposium on Ground Improvement Technologies and Case Histories. Singapore: Research Publishing Services, 2009. http://dx.doi.org/10.3850/gi100.

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Lei Guanglun, Li Zi, Yao Chuanjin, Ma Xin, and Wang Dan. "Numerical simulation on oil shale in-situ upgrading by steam injection." In 2016 International Field Exploration and Development Conference (IFEDC). Institution of Engineering and Technology, 2016. http://dx.doi.org/10.1049/cp.2016.1369.

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Reports on the topic "In situ injection"

1

Riestenberg, David. SECARB Report on Post-Injection In-Situ Monitoring. Office of Scientific and Technical Information (OSTI), March 2017. http://dx.doi.org/10.2172/1822839.

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Demiral, B. M. R., P. A. Pettit, L. M. Castanier, and W. E. Brigham. A three-dimensional laboratory steam injection model allowing in situ saturation measurements. [Comparing steam injection and steam foam injection with nitrogen and without nitrogen]. Office of Scientific and Technical Information (OSTI), August 1992. http://dx.doi.org/10.2172/7233795.

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Sleep, B. Steam injection for in-situ remediation of DNAPLs in low permeability media. Office of Scientific and Technical Information (OSTI), August 1996. http://dx.doi.org/10.2172/447172.

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Fruchter, J. S., J. E. Amonette, and C. R. Cole. In Situ Redox Manipulation Field Injection Test Report - Hanford 100-H Area. Office of Scientific and Technical Information (OSTI), November 1996. http://dx.doi.org/10.2172/434299.

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Demiral, B. M. R., P. A. Pettit, L. M. Castanier, and W. E. Brigham. A three-dimensional laboratory steam injection model allowing in situ saturation measurements. Office of Scientific and Technical Information (OSTI), August 1992. http://dx.doi.org/10.2172/10171319.

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Wasan, D. Enhanced oil recovery through in-situ generated surfactants augmented by chemical injection. Office of Scientific and Technical Information (OSTI), October 1989. http://dx.doi.org/10.2172/5660446.

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Wasan, D. Enhanced oil recovery through in-situ generated surfactants augmented by chemical injection. Office of Scientific and Technical Information (OSTI), August 1990. http://dx.doi.org/10.2172/6687627.

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Mcfalls, Sheila, and Dennis Jackson. WESTERN SECTOR IN-SITU CHEMICAL OXIDATION PROJECT: SUPPLEMENTAL RESULTS AFTER INJECTION ACTIVITIES (U). Office of Scientific and Technical Information (OSTI), February 2020. http://dx.doi.org/10.2172/1604915.

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Murdoch, Lawrence C., Scott DeWolf, Leonid N. Germanovich, Alexander Hanna, Robert Moak, and Stephen Moysey. Characterizing and Interpreting the In Situ Strain Tensor During CO2 Injection. Office of Scientific and Technical Information (OSTI), June 2019. http://dx.doi.org/10.2172/1529100.

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Whyatt, G. A., and C. R. Hymas. Low-pressure, single-point grout injection for tank heel sludge mixing and in-situ immobilization. Office of Scientific and Technical Information (OSTI), September 1998. http://dx.doi.org/10.2172/665969.

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