Academic literature on the topic 'Pumping of slurries'

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Journal articles on the topic "Pumping of slurries"

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Peters, Tony. "Pumping dilatant slurries." World Pumps 2006, no. 480 (2006): 36–37. http://dx.doi.org/10.1016/s0262-1762(06)71082-3.

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Shichuan Ou, Charlie G. Coble, and Richard P. Egg. "Pumping Characteristics of Chopped Sorghum Slurries." Transactions of the ASAE 30, no. 5 (1987): 1523–30. http://dx.doi.org/10.13031/2013.30597.

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Tiller, Frank M., Theodore Cleveland, and Rong Lu. "Pumping Slurries Forming Highly Compactible Cakes." Industrial & Engineering Chemistry Research 38, no. 3 (1999): 590–95. http://dx.doi.org/10.1021/ie980451g.

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Kuhalampi, Ari. "Pumping solutions for abrasive and corrosive slurries." World Pumps 2004, no. 453 (2004): 25–27. http://dx.doi.org/10.1016/s0262-1762(04)00226-3.

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Kariyama, Ibrahim Denka, Xiaodong Zhai, and Binxin Wu. "Physical and Rheological Properties of Animal Manure: A Review." Transactions of the ASABE 61, no. 3 (2018): 1113–20. http://dx.doi.org/10.13031/trans.12768.

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Abstract. This literature review was conducted on the physical and rheological properties of animal manure slurries and their applications. The review revealed the importance of these properties in the design of anaerobic treatment plants, pipe systems to transport slurries to treatment and storage units, and other applications and management of raw and treated slurries. The selection of pumping and mixing equipment and their power requirements, the flow behavior, mass, and heat transfer, the quality of mixing, pressure head loss, and other applications of manure slurries are affected by the physical and rheological properties. The review shows that manure slurries generally exhibit non-Newtonian pseudoplastic fluid behavior with a decreasing apparent viscosity as the shear rate increases and that the power law equation can successfully be used to describe the relationship between shear stress and shear rate, especially for low total solids concentrations. Keywords: Animal manure slurries, Apparent viscosity, Non-Newtonian pseudoplastic fluids, Power law equation, Rheological properties.
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Roll, D. L., R. Himes, D. P. Ewert, and J. Doerksen. "Effects of Pumping Equipment on Sand-Laden Slurries." SPE Production Engineering 2, no. 04 (1987): 291–96. http://dx.doi.org/10.2118/15071-pa.

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Powers, Al, and Jim Handzel. "Pumping abrasive slurries — a challenge of pump design." World Pumps 2002, no. 431 (2002): 36–39. http://dx.doi.org/10.1016/s0262-1762(02)80203-6.

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Kuo, Kirsty A., and Hugh E. M. Hunt. "Isothermal pumping analysis for high-altitude tethered balloons." Royal Society Open Science 2, no. 6 (2015): 140468. http://dx.doi.org/10.1098/rsos.140468.

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High-altitude tethered balloons have potential applications in communications, surveillance, meteorological observations and climate engineering. To maintain balloon buoyancy, power fuel cells and perturb atmospheric conditions, fluids could be pumped from ground level to altitude using the tether as a hose. This paper examines the pumping requirements of such a delivery system. Cases considered include delivery of hydrogen, sulfur dioxide (SO 2 ) and powders as fluid-based slurries. Isothermal analysis is used to determine the variation of pressures and velocities along the pipe length. Results show that transport of small quantities of hydrogen to power fuel cells and maintain balloon buoyancy can be achieved at pressures and temperatures that are tolerable in terms of both the pipe strength and the current state of pumping technologies. To avoid solidification, transport of SO 2 would require elevated temperatures that cannot be tolerated by the strength fibres in the pipe. While the use of particle-based slurries rather than SO 2 for climate engineering can reduce the pipe size significantly, the pumping pressures are close to the maximum bursting pressure of the pipe.
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Kasza, K. E., and M. M. Chen. "Improvement of the Performance of Solar Energy or Waste Heat Utilization Systems by Using Phase-Change Slurry as an Enhanced Heat-Transfer Storage Fluid." Journal of Solar Energy Engineering 107, no. 3 (1985): 229–36. http://dx.doi.org/10.1115/1.3267683.

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This paper is concerned with the benefits of using phase-change slurries as enhanced heat-transfer/storage working fluids in solar energy and waste heat utilization systems. Literature is cited to show that a slurry containing a phase-change material as the dispersed phase promises to have much higher heat-transfer coefficients than conventional single-phase working fluids. Because of the latent heat, the phase-change slurry also requires lower pumping rates and smaller storage tanks than single-phase fluids for the same energy content. These benefits are documented by comparisons of temperature drops, pumping rates, pumping powers, and the sizes of storage tanks for a generic energy collection system operating with and without a slurry.
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Sellgren, Anders, Robert Visintainer, John Furlan, and Václav Matoušek. "Pump and pipeline performance when pumping slurries with different particle gradings." Canadian Journal of Chemical Engineering 94, no. 6 (2016): 1025–31. http://dx.doi.org/10.1002/cjce.22489.

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Dissertations / Theses on the topic "Pumping of slurries"

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Яхненко, Сергій Михайлович, Сергей Михайлович Яхненко, Serhii Mykhailovych Yakhnenko та О. С. Закорко. "Влияние способа установки рабочего колеса на характеристики СВН". Thesis, Сумский государственный университет, 2016. http://essuir.sumdu.edu.ua/handle/123456789/45657.

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Способность свободновихревых насосов перекачивать различные гидросмеси с крупными твердыми включениями, а также загазованные жидкости и массы, обусловила необходимость в проведении экспериментальных исследований по сопоставлению экономической эффективности ПЧ свободновихревых насосов выполненных по различным конструктивным схемам.
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Bunn, Thomas Francis. "Modelling the pumping characteristics of power station ash in a dense phase hydraulic conveying system." Thesis, 2016. http://hdl.handle.net/1959.13/1309700.

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Research Doctorate - Doctor of Philosophy (PhD)<br>This study examines the flow of dense phase fly ash slurries in horizontal pipes. It includes an evaluation of the previous work, a rigorous experimental investigation, a new and original model for determining pipeline pressure drop characteristics and a new method of characterising typically homogeneous fluid behaviour based on a particle size distribution, slope factor and a median particle size. The experimental investigation was undertaken to obtain data for modelling the flow of dense phase fly ash slurries. Tests were conducted using fly ashes from different power stations in a purposely built test facility. The test facility contained 50 mm and 80 mm bore internal pipeline viscometers in series. Slurry pump discharge pressure, differential pressure over 5 meters of a 80 mm pipe section, differential pressure over 5 meters of a 50 mm of pipe section, slurry temperature, slurry volumetric and mass flowrates were measured. Slurries settling were determined visually using an 80 mm glass pipe section. The particle size distribution and solids density of the fly ash were analysed and the solids concentration of the slurries were determined using the wet weight, drying and dry weight method. The experimental results were used to develop a new model to determine the pressure drop characteristics of dense phase fly ash slurry pumping systems and grout pumping plants, in order to develop a new description of what typical characteristics homogeneous fluid contain. The model indicated a polynomial relationship between pipeline differential pressure and solids concentration which has proven to be a much improved predictor of actual system performance. A software based design program has been produced that utilises power station physical and operational details to determine the pumping characteristics of dense phase ash slurries which will lead to better practical outcomes in the power industry.
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Book chapters on the topic "Pumping of slurries"

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Brinley, R., and D. Henry. "New Diaphragm Pump Concepts for Pumping Abrasive Slurries." In Materials & Equipment/Whitewares: Ceramic Engineering and Science Proceedings, Volume 13, Issue 1/2. John Wiley & Sons, Inc., 2008. http://dx.doi.org/10.1002/9780470313916.ch52.

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"Front Matter." In Slurry Erosion: Uses, Applications, and Test Methods. ASTM International100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, 1987. http://dx.doi.org/10.1520/stp19409s.

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Papers focus on the abrasion and corrosion effects of different slurries on pipeline and pumping equipment. They review wear and corrosion resistant materials and detail a wide variety of tests to measure slurry effects.
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"Pumping of Non-Newtonian Sludges and Slurries." In Conveyance of Residuals from Water and Wastewater Treatment. American Society of Civil Engineers, 2000. http://dx.doi.org/10.1061/9780784404386.ch05.

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Lyu, Fuyan, Yong Zhang, Can Cao, et al. "Research on Vibration Inherent Characteristics of Dense Paste Transportation Pipeline." In Advances in Transdisciplinary Engineering. IOS Press, 2024. http://dx.doi.org/10.3233/atde240243.

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During long-distance pipeline transportation of dense pastes, the periodic reciprocating pumping shock of the pump leads to serious vibration in the pipeline system which reduces the reliability and life cycle of the system. The vibration of the pipeline system varies based on the materials used and the filling volumes. To analyze the effect of filling volumes and material’s mass concentration on inherent frequency of pipes, vibration modal experiments were carried out on water filled pipes and coal slurry filled pipes through LMS multi-channel vibration noise test and dynamic analysis system. The results show that for water filled pipe, the inherent frequencies of the first three modes of pipe decreased with the increase of water filling volumes. For coal slurry paste filled pipe, in the same mass concentration range, the inherent frequencies of the first three modes of pipe showed a downward trend with the increase of filling volumes. When the filling volumes is the same, the inherent frequencies of the first three modes of the pipe generally increased with the decrease of the coal slurry’s mass concentration.
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Conference papers on the topic "Pumping of slurries"

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Bolhouse, Angel, Altan Ozkan, and Halil Berberoglu. "Rheological Study of Algae Slurries for Minimizing Pumping Power." In ASME 2010 International Mechanical Engineering Congress and Exposition. ASMEDC, 2010. http://dx.doi.org/10.1115/imece2010-39472.

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This paper reports the rheological properties of algae slurries as a function of cell concentration. From both energy and economic perspectives, the algae slurry for producing biofuels should have rheological attributes that minimizes the pumping power requirements while delivering the maximum amount of biomass from the cultivation fields to the biorefinery. To achieve this, an accurate knowledge of the rheological properties of algae slurries as a function of cell concentration is necessary. This study measures the rheological properties of eight different concentrations of Nannochloris sp. in ASP-m nutrient media ranging from 0.5 to 80 kg dry biomass/m3. Strain controlled dynamic frequency sweep tests, transient step rate tests, and steady rate sweep tests were performed with an ARES-TA Rheometer using a double wall couette cup and bob attachment. Shear rates ranged from 5–270 s−1. The results show that the concentrations of 10 kg/m3 and below behaved as Newtonian fluids with a dynamic viscosity of 1.1×10−3 Pa-s while the concentrations of 20 kg/m3 and above behaved as shear thinning non-Newtonian fluids. Finally, an energy analysis was performed where a non-dimensional bioenergy transport efficiency was defined as the ratio of the energy content of transported algae biomass to the required pumping power. The results show that an optimal biomass concentration minimizing pumping requirements occurs at the highest dry biomass concentration.
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Abulnaga, Baha, Neal Prescott, and Aishwarya Mantha. "Pumping Hydrate Slurries in the Arctic: A Different Perspective." In Offshore Technology Conference. Offshore Technology Conference, 2014. http://dx.doi.org/10.4043/25382-ms.

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Crawford, Jeffrey, Fritz van Sittert, and Mauritz Van Der Walt. "The performance of centrifugal pumps when pumping ultra viscous paste slurries." In 15th International Seminar on Paste and Thickened Tailings. Australian Centre for Geomechanics, Perth, 2012. http://dx.doi.org/10.36487/acg_rep/1263_25_van_der_walt.

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Enderlin, Carl W., Judith Ann Bamberger, and Michael J. Minette. "Evaluating Transfer and Pumping of Slurries From Pulsed Jet Mixed Vessels." In ASME 2020 Fluids Engineering Division Summer Meeting collocated with the ASME 2020 Heat Transfer Summer Conference and the ASME 2020 18th International Conference on Nanochannels, Microchannels, and Minichannels. American Society of Mechanical Engineers, 2020. http://dx.doi.org/10.1115/fedsm2020-20390.

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Abstract Due to gravity, solids in slurries will settle if density differences between the solids and liquid are positive (i.e., particle has a negative buoyant force) unless rheological properties and flow conditions are adequate to overcome the gravitational effects. The rate of settling depends on the force balance of the particle, which includes the surface forces associated with fluid rheology. Given the same fluid and solid properties, the larger and more dense particles tend to settle faster. When pumping slurry into a vessel at concentrations precluding hindered settling with insufficient mixing, particle and density distributions can result in preferential settling, creating stratification in the solids concentration within the vessel. For vessels with transfer line inlets located in the lower portion of the tank, the stratified solids concentration may be detrimental to the transfer system performance. Elevated concentrations of solids in the slurry entrained at the inlet to the transfer line can result in the effective viscosity or slurry bulk density exceeding the design limits of the pump. These conditions could result in plugging of the transfer line or onset of cavitation of the pumps because of excessive pressure drop. These conditions can be exacerbated with periodic inlet conditions existing at the transfer line inlet. Periodic conditions can result when vessel mixing is intermittent such as with pulsed jet mixers (PJM). The transfer line inlet conditions are impacted by the periodic nature of the PJM operations with respect to suspension of solids and their transport to the inlet of the transfer line. A scaling approach is presented, and corresponding test requirements are developed for assessing the prevention of plugging the pipeline. Line plugging mechanisms are addressed that exclude plugging due to steady-state high-density slurry entering the transfer line and reducing the net positive suction head available (NPSHA) at the pump inlet to below that required for pump operation. Items considered include the transition to reduced relative flow velocities, such that the critical pipe velocity for solids deposition, Ucd, is not maintained, and segregation of heavy solids during the transport. The recommended requirements to prevent plugging include: • Limits for viscosity and density for entrained slurry to prevent the pressure drop in the pipeline from exceeding pump capacity. • Limits for viscosity and density for entrained slurry to prevent the net positive suction head available (NPSHA) from falling below the net positive suction head required (NPSHR) for operating the pump. • Transfer line velocity and flow rate requirements to maintain solids in suspension, while avoiding line plugging that results from deposition of solids within the transfer line. This paper describes the development of the scaling and testing requirements to verify that proposed approaches for transfer and pump out are appropriately developed for operational success within the plant operating windows.
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Judge, Robert A., and Alan Yu. "Subsea Slurry Lift Pump for Deepsea Mining." In ASME 2010 29th International Conference on Ocean, Offshore and Arctic Engineering. ASMEDC, 2010. http://dx.doi.org/10.1115/omae2010-20543.

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Recent developments in subsea mining as well as oil &amp; gas exploration and development drilling will require the use of a subsea pumping solution capable of handling slurries. These slurries are characterized by relatively large particle sizes and non-uniform flow conditions including fluctuating solids concentrations, densities, viscosities, and maximum particle size in both the mining and drilling applications. While challenging enough in surface applications, slurry transport problems are exacerbated by the vertical lift required in subsea use. This paper will first present the effect of each varying parameter on the overall horsepower required. Additionally, the pumping efficiency of some different pump types when responding to these changing conditions will be shown. From a control perspective, altering a pump’s speed in response to changing flow conditions presents some unique challenges. As an alternative to adjusting a rotary pump’s speed, an algorithm to control a positive displacement pumping solution to automatically adjust its output in this application is presented.
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Zanini, Nicola, Alessio Suman, Mattia Piovan, and Michele Pinelli. "Centrifugal pump performance derating with non-Newtonian slurries." In GPPS Chania24. GPPS, 2024. http://dx.doi.org/10.33737/gpps24-tc-029.

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Centrifugal pumps are widespread and consolidated machines to transport fluids in industry. In certain fields, such as biomedical, food, and oil and gas, non-Newtonian fluids have to be managed. The viscosity of a non-Newtonian fluid varies with the imposed stress and rheology, and consequently, pumping this type of fluid can lead to a considerable variation in the pump performance. The pump performance is usually provided by manufacturers only with water and thus, the selection of the proper machine to handle non-Newtonian fluids could be very tricky. Several models are found in the literature to predict the performance of centrifugal pumps with this type of fluids but a lack of reliability and generality emerges. Moreover, previous experimental investigations reported that sudden performance ascribed to gas-locking phenomena is detected at part-load operations. To avoid safety issues, oversized pumps are commonly installed, thus increasing the installation and operational costs. In this work, a small centrifugal pump was tested against a set of non-Newtonian slurries with different solid concentrations on an on-purpose test loop. The resulting performance is employed to assess the prediction quality of a derating method from the literature.
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Zanini, Nicola, Alessio Suman, and Michele Pinelli. "Experimental Test on Centrifugal Pump Handling Mining Slurries." In ASME Turbo Expo 2023: Turbomachinery Technical Conference and Exposition. American Society of Mechanical Engineers, 2023. http://dx.doi.org/10.1115/gt2023-102963.

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Abstract Non-Newtonian fluids are involved in many industrial processes, for example in food and Oil and Gas applications. Drilling operations require massive employment of drilling fluids, such as mixtures of water and bentonite, to maintain a cooling and lubricating environment. Centrifugal pumps are usually employed instead of positive displacement pumps in these applications due to the greater flow rates that can be provided. The viscosity of a non-Newtonian fluid varies with the imposed stress and rheology, and consequently, pumping this type of fluid can lead to a considerable variation in the pump performance. Both the pump head and particularly efficiency are adversely affected, and the performance of small pumps is impaired to the greatest extent. Previous experimental works with bentonite slurries reported that detrimental effects arise at low flow rates. Since most of the manufacturers test their pumps only with water, the selection of the appropriate slurry pump may result very challenging. As a consequence, oversized pumps are commonly installed. In this work, a small centrifugal pump handling mixtures of water and bentonite was tested on an on-purpose test loop. Different solid concentrations were considered during tests. A critical analysis was conducted to relate the pump performance drops with the slurry’s rheological properties.
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Liu, Xiangyu, Dominique Matthews, Steve Craig, Roni Martanto, Dominic Ong, and David Edgar. "Enhancing Slurry Pumping Efficiency, Improving Cement Coverage, and Ensuring Zonal Isolation with Temperature-Triggered Anti-Settling Technology." In International Petroleum Technology Conference. IPTC, 2022. http://dx.doi.org/10.2523/iptc-22019-ms.

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Abstract A stable cement slurry is critical to the success of a cementing job, from cement placement to long-term zonal isolation. Conventional anti-settling (AS) additives, such as clays and polysaccharides, are commonly applied to improve cement slurry stability, but they are only effective for low-to-mid temperature applications (up to 260°F) due to high temperature thermal thinning effects or thermal degradation. To compensate for such thermal thinning or thermal degradation effects, higher doses of AS additives are often applied, which inadvertently increase slurry placement difficulty with minimal improvement to slurry stability. This paper presents the performance of a novel, thermally activated, free-flowing, and easy-to-use temperature-triggered anti-settling (TTAS) agent that can help reduce the overall AS additive usage, prevent solids settling, and mitigate the formation of free fluid at 200-350°F or higher while having minimal effect on slurry rheology prior to activation. The performance of this novel TTAS agent was evaluated against conventional AS additives, including bentonite clay, diutan gum, and a commercial AS product in 16-lbm/gal and 18-lbm/gal Class H cement slurries. Static sedimentation (SS) and dynamic sedimentation (DS) tests revealed that the conventional AS agent-containing slurries exhibited mixability concerns, noticeable settling at downhole condition and gelation tendency. By contrast, the TTAS agent-containing slurries exhibited good mixability, no adverse effect on rheology at 80°F, and improved slurry stability, evidenced by less than ½ inch cone height and less than 1-lbm/gal differential density (Δρ) in dynamic sedimentation test using as low as 0.3% bwoc dosage.
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Young, Jonathan, Jingru Benner, and Anthony D. Santamaria. "Fluid Properties of Microencapsulated Phase Change Material Slurries." In ASME 2018 5th Joint US-European Fluids Engineering Division Summer Meeting. American Society of Mechanical Engineers, 2018. http://dx.doi.org/10.1115/fedsm2018-83170.

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Electrochemical energy conversion and storage devices are becoming a large part of the renewable energy market. For these systems to operate optimally over a wide range of operating and environmental conditions, advanced strategies for thermal management must be developed. Incorporating microencapsulated phase change materials (MEPCM), which utilize latent heat storage, into coolant fluids has been shown to increase the fluid’s thermal capacity. This mitigates the temperature gradient between the coolant loop inlet and outlet which is important in systems such as fuel cells and batteries where sensitivity to temperature directly impacts the electrochemical reaction, transport processes, and component lifetimes. The use of MEPCMs may allow for lower coolant flow rates which may reduce parasitic pumping power, further increasing overall system efficiency. In this work MEPCM material is added to liquid water at several mass concentration ratios, and an analytical study was conducted to determine pressure drop and channel power requirements. The viscosity of the slurry is measured along with its density, conductivity, and heat capacity as a function of temperature. Inlet and outlet channel slurry temperatures are monitored, flow rate is controlled, and the heat flux can be varied to simulate waste heat outputs of various devices. From this data the optimal conditions for the slurry flow can be assessed and thermal management strategies can be designed for specific devices.
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Sazali, Y. A., L. Riyanto, M. S. Ebining, et al. "Geopolymer for Oilfield Application: Scaling up Laboratory Test to Yard Test." In SPE Annual Technical Conference and Exhibition. SPE, 2023. http://dx.doi.org/10.2118/215163-ms.

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Abstract The present paper describes applicability of geopolymers to oilfield use. As a completely new system in oilfield, one of the main concerns about geopolymer was compatibility with oilfield equipment. It is known that geopolymer system differs from a conventional cement by a composition of base fluid and a mixing order which leads to a question of capability of existing cementing equipment to handle the geopolymer slurries. In order to validate mixability and pumpability of geopolymer slurry, a yard test had been conducted in order to test geopolymer formulations with two densities, 15 and 16.5 pgg. The yard test proved that the geopolymer system could be mixed and pumped using conventional equipment in the batch mixing as well as in the on-the-fly pumping regimes. During the yard test the geopolymer formulations were pumped with a rate up to 6 bbl/min. Results showed that special attention should be paid to a base fluid preparation and HSE aspects of the mixing and pumping process. The articles discuss practical recommendation about geopolymer preparation and pumping. For the first time it was demonstrated that geopolymer systems could be mixed and pumped using conventional cementing equipment. All mixed geopolymer slurries tested according to the API RP 10B standard and demonstrated acceptable properties, including rheology, thickening time, compressive strength and fluid loss. In addition to that the paper suggests the draft of the quality control procedure for geopolymers used in oilfield.
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Reports on the topic "Pumping of slurries"

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Berglin, Eric J., Carl W. Enderlin, and Andrew J. Schmidt. Review and Assessment of Commercial Vendors/Options for Feeding and Pumping Biomass Slurries for Hydrothermal Liquefaction. Office of Scientific and Technical Information (OSTI), 2012. http://dx.doi.org/10.2172/1056168.

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Zacher, Alan, and Andrew Schmidt. Brief Update on Advancements by Commercial Vendors/Options for Feeding and Pumping Biomass Slurries for Hydrothermal Liquefaction. Office of Scientific and Technical Information (OSTI), 2020. http://dx.doi.org/10.2172/1734573.

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