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1. A mathematical model for contaminant adsorption in packed columns using nonlinear mass transfer

Author

Font, F., Estop, A., Calvo-Schwarzwalder, M., Valverde, A., and Myers, T. G.

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We propose a mathematical model for describing column adsorption processes where large amounts of contaminant are removed from a carrier gas. The large mass loss causes velocity and pressure to be variables which must then be determined along with the contaminant and gas concentrations and adsorbed quantity. The adsorption rate is described using a Langmuir sink, which is physically more sensible than the linear sink used in a previous study. The proposed model is solved numerically and using a traveling wave approach. The analytical solutions are consistent with previous models with fixed gas velocity and provide excellent agreement when validated against experimental data., Comment: 10 pages, 3 figures, 1 table

Published
2024

2. Using in-situ strain measurements to evaluate the accuracy of stress estimation procedures from fracture injection/shut-in tests

Author

Guglielmi, Yves, McClure, Mark, Burghardt, Jeffrey, Morris, Joseph P, Doe, Thomas, Fu, Pengcheng, Knox, Hunter, Vermeul, Vince, Kneafsey, Tim, Team, The EGS Collab, Ajo-Franklin, J, Baumgartner, T, Beckers, K, Blankenship, D, Bonneville, A, Boyd, L, Brown, S, Burghardt, JA, Chai, C, Chakravarty, A, Chen, T, Chen, Y, Chi, B, Condon, K, Cook, PJ, Crandall, D, Dobson, PF, Doe, T, Doughty, CA, Elsworth, D, Feldman, J, Feng, Z, Foris, A, Frash, LP, Frone, Z, Fu, P, Gao, K, Ghassemi, A, Guglielmi, Y, Haimson, B, Hawkins, A, Heise, J, Hopp, C, Horn, M, Horne, RN, Horner, J, Hu, M, Huang, H, Huang, L, Im, KJ, Ingraham, M, Jafarov, E, Jayne, RS, Johnson, TC, Johnson, SE, Johnston, B, Karra, S, Kim, K, King, DK, Kneafsey, T, Knox, H, Knox, J, Kumar, D, Kutun, K, Lee, M, Li, D, Li, J, Li, K, Li, Z, Maceira, M, Mackey, P, Makedonska, N, Marone, CJ, Mattson, E, McClure, MW, McLennan, J, McLing, T, Medler, C, Mellors, RJ, Metcalfe, E, Miskimins, J, Moore, J, Morency, CE, Morris, JP, Myers, T, Nakagawa, S, Neupane, G, Newman, G, Nieto, A, Paronish, T, Pawar, R, Petrov, P, Pietzyk, B, Podgorney, R, Polsky, Y, Pope, J, Porse, S, Primo, JC, Pyatina, T, and Reimers, C

Subjects
Engineering, Resources Engineering and Extractive Metallurgy, Bioengineering, DFIT, Minifrac, SIMFIP, Collab, Civil Engineering, Mining & Metallurgy, Civil engineering, Resources engineering and extractive metallurgy
Abstract

Fracture injection/shut-in tests are commonly used to measure the state of stress in the subsurface. Injection creates a hydraulic fracture (or in some cases, opens a preexisting fracture), and then the pressure after shut-in is monitored to identify fracture closure. Different interpretation procedures have been proposed for estimating closure, and the procedures sometimes yield significantly different results. In this study, direct, in-situ strain measurements are used to observe fracture reopening and closure. The tests were performed as part of the EGS Collab project, a mesoscale project performed at 1.25 and 1.5 km depth at the Sanford Underground Research Facility. The tests were instrumented with the SIMFIP tool, a double-packer probe with a high-resolution three-dimensional borehole displacement sensor. The measurements provide a direct observation of the fracture closure signature, enabling a high-fidelity estimate of the fracture closure stress (ie, the normal stress on the fracture). In two of the four tests, injection created an opening mode fracture, and so the closure stress can be interpreted as the minimum principal stress. In the other two tests, injection probably opened preexisting natural fractures, and so the closure stress can be interpreted as the normal stress on the fractures. The strain measurements are compared against different proposed methods for estimating closure stress from pressure transients. The shut-in transients are analyzed with two techniques that are widely used in the field of petroleum engineering – the ‘tangent’ method and the ‘compliance’ method. In three of the four tests, the tangent method significantly underestimates the closure stress. The compliance method is reasonably accurate in all four tests. Closure stress is also interpreted using two other commonly-used methods – ‘first deviation from linearity’ and the method of (Hayashi and Haimson, 1991). In comparison with the SIMFIP data, these methods tend to overestimate the closure stress, evidently because they identify closure from early-time transient effects, such as near-wellbore tortuosity. In two of the tests, microseismic imaging provides an independent estimate of the size of the fracture created by injection. When combined with a simple mass balance calculation, the SIMFIP stress measurements yield predictions of fracture size that are reasonably consistent with the estimates from microseismic. The calculations imply an apparent fracture toughness 2-3x higher than typical laboratory-derived values.

Published
2023

3. Measurement of the Electron Magnetic Moment

Author

Fan, X., Myers, T. G., Sukra, B. A. D., and Gabrielse, G.

Subjects
Physics - Atomic Physics, High Energy Physics - Experiment, Quantum Physics
Abstract

The electron magnetic moment,$-\mu/\mu_B = g/2 = 1.001 \, 159 \, 652 \, 180 \, 59 \, (13) \, [0.13\, \rm{ppt}]$, is determined 2.2 times more accurately than the value that stood for 14 years. The most precisely determined property of an elementary particle tests the most precise prediction of the Standard Model (SM) to $1$ part in $10^{12}$. The test would improve an order of magnitude if the uncertainty from discrepant measurements of the fine structure constant $\alpha$ is eliminated since the SM prediction is a function of $\alpha$. The new measurement and SM theory together predict $\alpha^{-1}=137.035 \, 999 \, 166 \, (15) \, [0.11 \, \rm{ppb}]$ with an uncertainty ten times smaller than the current disagreement between measured $\alpha$ values., Comment: 6 pages, 5 figures

Published
2022
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4. Who Are America's Teachers of the Year?

Author

Redding, Christopher and Myers, T

Abstract

The Teacher of the Year (TOY) program is the longest-standing teacher recognition program in the United States. The purpose of this study is to describe the characteristics of state and national TOY awardees and the schools in which they teach. To accomplish this aim, we develop a new data set including the characteristics of all TOY awardees and their schools from 1988 to 2019. Using descriptive and regression analysis, we find that TOY awardees are most likely to teach at the high school level, while the most common subjects taught were elementary education, English language arts, natural sciences, and, for National TOY awardees, social studies. They also have a greater probability of being selected from schools with a smaller fraction of students eligible for free or reduced-price lunch, and higher student enrollments. We discuss how these differences may impede the TOY program's efforts to amplify teachers' voice in education policymaking.

Published
2021

5. A multi-Physics Experiment for Low-Yield Nuclear Explosion Monitoring

Author

Myers, S, primary, Abbott, G, additional, Alexander, T, additional, Alger, E, additional, Alvarez, A, additional, Annabelle, N, additional, Antoun, T, additional, Auld, G, additional, Malach, A, additional, Banuelos, H, additional, Barela, M, additional, Barnhart, T, additional, Barrow, P, additional, Bartlett, T, additional, Bockman, A, additional, Bodmer, M, additional, Bogolub, K, additional, Bonner, J, additional, Borden, R, additional, Boukhalfa, H, additional, Bowman, D, additional, Britt, C, additional, Broman, B, additional, Broome, S, additional, Brown, B, additional, Burghardt, J, additional, Chester, D, additional, Choens, C, additional, Chojnicki, K, additional, Churby, A, additional, Cole, J, additional, Coleman, T, additional, Collard, J, additional, Couture, A, additional, Crosby, G, additional, Cruz-Cabrera, A, additional, D'Saint Angelo, D, additional, Dea, M, additional, Dekin, W, additional, DeVisser, B, additional, Dietel, M, additional, Downs, C, additional, Downs, N, additional, Dzenitis, E, additional, Eckert, E, additional, Eras, S, additional, Euler, G, additional, Ezzedine, S, additional, Fast, J, additional, Feldman, J, additional, Featherston, K, additional, Foxe, M, additional, Freimuth, C, additional, Fritz, B, additional, Galvin, G, additional, Gamboa, S, additional, Garner, L, additional, Gascoigne, T, additional, Gastelum, J, additional, Gaylord, J, additional, Gessey, D, additional, Glasgow, B, additional, Glavin, G, additional, Glomski, A, additional, Goodwin, M, additional, Green, D, additional, Griego, J, additional, Grover, S, additional, Gutierrez, J, additional, Haas, D, additional, Hall, R, additional, Hall, A, additional, Hardy, D, additional, Hauk, D, additional, Heath, J, additional, Holand, A, additional, Holdcroft, J, additional, Holland, A, additional, Honjas, W, additional, Howard, K, additional, Hudson, C, additional, Ingraham, M, additional, Jaramillo, J, additional, Jenkins, A, additional, Johnson, C, additional, Jones, K, additional, Falliner, F, additional, Junor, W, additional, Keillor, M, additional, Kent, G, additional, Keogh, M, additional, Kibikas, W, additional, Kleadbeater, K, additional, Knox, H, additional, Knox, J, additional, Kuhlman, K, additional, Kwiatkowski, C, additional, Laintz, K, additional, Lapka, J, additional, Larotonda, J, additional, Layne, J, additional, Ledoux, N, additional, Li, S, additional, Linneman, D, additional, Lipkowitz, P, additional, MacLeod, G, additional, McCann, E, additional, McCombe, R, additional, Meierbachtol, C, additional, Mellors, R, additional, Memmott, B, additional, Mendenhall, W, additional, Mendez, J, additional, Miller, X, additional, Miller, A, additional, Miranda, F, additional, Montano, M, additional, Moore, M, additional, Morris, J, additional, Munley, W, additional, Murillo, E, additional, Myers, T, additional, Navarro, A, additional, Nippress, S, additional, Otto, S, additional, Peacock, S, additional, Pemberton, S, additional, Perea, R, additional, Peterson, J, additional, Pierre-Yves, L, additional, Plank, G, additional, Podrasky, A, additional, Podrasky, D, additional, Pope, J, additional, Poskey, M, additional, Powell, M, additional, Price, A, additional, Puyleart, A, additional, Quintana, B, additional, Rahn, T, additional, Rendon, C, additional, Reppart, J, additional, Rico, H, additional, Roberts, B, additional, Robey, E, additional, Rodd, R, additional, Rodriguez, M, additional, Rogall, A, additional, Romanczuk, A, additional, Roth, M, additional, Salyer, G, additional, Savran, B, additional, Schalk, W, additional, Seifert, C, additional, Seitz, D, additional, Shao, X, additional, Sirota, D, additional, Slack, J, additional, Slater, D, additional, Smith, K, additional, Smith, D, additional, Spears, B, additional, Sprinkle, D, additional, Stead, R, additional, Stephens, M, additional, Strickland, C, additional, Tafoya, A, additional, Tafoya, J, additional, Tagoe, M, additional, Taguba, C, additional, Tarnecki, L, additional, Tatge, R, additional, Teich-McGoldrick, S, additional, Terry, B, additional, Thompson, R, additional, Townsend, M, additional, Tubbs, G, additional, Turley, R, additional, Valdez, N, additional, Van Morris, A, additional, Vergara, S, additional, Vigil, J, additional, Villanueva, J, additional, Vorobiev, O, additional, Wallace, D, additional, Walrath, T, additional, Wharton, S, additional, White, R, additional, White, H, additional, Whitehill, A, additional, Williams, M, additional, Wilson, J, additional, Wood, L, additional, Wright, C, additional, Wright, A, additional, Xu, G, additional, Yang, X, additional, Yost, R, additional, and Zeiler, C, additional

Published
2024
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6. The EGS Collab -Experiment 2 Stimulations at 1.25 km Depth

Author

Kneafsey, T, Blankenship, D, Burghardt, J, Johnson, T, Dobson, P, Schwering, PC, Strickland, C, Vermuel, V, White, M, Morris, JP, Fu, P, Ingraham, M, Roggenthen, W, Hopp, C, Tribaldos, VR, Guglielmi, Y, Knox, H, Cook, P, Soom, F, Doe, T, Ulrich, C, Ajo-Franklin, JB, Huang, L, Neupane, G, Pyatina, T, Weers, J, Baumgartner, T, Beckers, K, Bonneville, A, Boyd, L, Brown, S, Chai, C, Chakravarty, A, Chen, T, Chen, Y, Chi, B, Condon, K, Crandall, D, Doughty, CA, Elsworth, D, Feldman, J, Feng, Z, Foris, A, Frash, LP, Frone, Z, Gao, K, Ghassemi, A, Haimson, B, Hawkins, A, Heise, J, Horn, M, Horne, RN, Horner, J, Hu, M, Huang, H, Im, KJ, Jafarov, E, Jayne, RS, Johnson, SE, Johnston, B, Karra, S, Kim, K, King, DK, Knox, J, Kumar, D, Kutun, K, Lee, M, Li, D, Li, J, Li, K, Li, Z, Maceira, M, Mackey, P, Makedonska, N, Marone, CJ, Mattson, E, McClure, MW, McLennan, J, McLing, T, Medler, C, Mellors, RJ, Metcalfe, E, Miskimins, J, Moore, J, Morency, CE, Myers, T, Nakagawa, S, Newman, G, Nieto, A, Paronish, T, Pawar, R, Petrov, P, Pietzyk, B, Podgorney, R, Polsky, Y, Pope, J, Porse, S, Primo, JC, Reimers, C, and Roberts, BQ

Subjects
Geochemistry & Geophysics
Abstract

The EGS Collab project is performing well-monitored rock stimulation and flow tests at the 10-m scale in an underground research laboratory to inform challenges in implementing enhanced geothermal systems (EGS). This project, supported by the US Department of Energy, is gathering data and observations from the field tests and comparing these to simulation results to understand processes and to build confidence in numerical modeling of the processes. Experiment 1 (now complete) examined hydraulic fracturing in an underground test bed at the Sanford Underground Research Facility (SURF) in Lead, South Dakota, at a depth of approximately 1.5 km in a well-characterized phyllite. Geophysical monitoring instrumentation in six of eight sub-horizontal boreholes monitored stimulation events and flow tests. The other two boreholes were used to perform and carefully measure water injection and production. More than a dozen stimulations and nearly one year of flow tests in the testbed were performed. Detailed observations of processes occurring during stimulation and dynamic flow tests were collected and analyzed. Flow tests using ambient-temperature and chilled water were performed with intermittent tracer tests to examine system behavior. We achieved adaptive control of the tests using close monitoring of rapidly disseminated data and near-real-time simulation. Numerical simulation was critical in answering key experimental design questions, forecasting fracture behavior, and analyzing results. We were successful in performing many simulations in near-real-time in conjunction with the field experiments, with more detailed simulations performed later. The primary objective of Experiment 2 is to examine hydraulic shearing of natural fractures at a depth of 1.25 km in amphibolite at SURF. The stresses, rock type, and fracture conditions are different than in Experiment 1. The testbed consists of 9 boreholes, in addition to two earlier-drilled characterization boreholes. One borehole is used for injection, two fans of 2 monitoring wells have several geophysical measurement tools grouted in, and four open boreholes surrounding the injection hole are adaptively used for production and monitoring. We have encountered approximately five fracture set orientations in the testbed, and designed our testbed accordingly to maximize the potential for shear stimulation. Three stimulations have been performed to date from the injection borehole, each intersecting at least one production borehole. Different methods have been used for each stimulation, including a ramped flow, a high flow rate, and oscillating pressure.

Published
2022

7. Magnetic nanodrug delivery in non-Newtonian blood flows

Author

Fanelli, C., Kaouri, K., Phillips, T. N., Myers, T. G., and Font, F.

Subjects
Physics - Fluid Dynamics
Abstract

With the goal of determining strategies to maximise drug delivery to a specific site in the body, we developed a mathematical model for the transport of drug nanocarriers (nanoparticles) in the bloodstream under the influence of an external magnetic field. Under the assumption of long (compared to the radius) blood vessels the Navier-Stokes equations are reduced, to a simpler model consistently with lubrication theory. Under these assumptions, analytical results are compared for Newtonian, power-law, Carreau and Ellis fluids, and these clearly demonstrate the importance of shear thinning effects when modelling blood flow. Incorporating nanoparticles and a magnetic field to the model we develop a numerical scheme and study the particle motion for different field strengths. We demonstrate the importance of the non-Newtonian behaviour: for the flow regimes investigated in this work, consistent with those in blood micro vessels, we find that the field strength needed to absorb a certain amount of particles in a non-Newtonian fluid has to be larger than the one needed in a Newtonian fluid. Specifically, for one case examined, a two times larger magnetic force had to be applied in the Ellis fluid than in the Newtonian fluid for the same number of particles to be absorbed through the vessel wall. Consequently, models based on a Newtonian fluid can drastically overestimate the effect of a magnetic field. Finally, we evaluate the particle concentration at the vessel wall and compute the evolution of the particle flux through the wall for different permeability values, as that is important when assessing the efficacy of drug delivery applications. The insights from our work bring us a step closer to successfully transferring magnetic nanoparticle drug delivery to the clinic.

Published
2021
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8. Switchable Damping for a One-Particle Oscillator

Author

Fan, X., Fayer, S. E., Myers, T. G., Sukra, B. A. D., Nahal, G., and Gabrielse, G.

Subjects
Quantum Physics, High Energy Physics - Experiment, Physics - Atomic Physics, Physics - Instrumentation and Detectors
Abstract

The possibility to switch the damping rate for a one-electron oscillator is demonstrated, for an electron that oscillates along the magnetic field axis in a Penning trap. Strong axial damping can be switched on to allow this oscillation to be used for quantum nondemolition detection of the cyclotron and spin quantum state of the electron. Weak axial damping can be switched on to circumvent the backaction of the detection motion that has limited past measurements. The newly developed switch will reduce the linewidth of the cyclotron transition of one-electron by two orders of magnitude., Comment: 8 pages, 7 figures

Published
2020
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9. Mass transfer from a fluid flowing through a porous media

Author

Myers, T. G. and Font, F.

Subjects
Condensed Matter - Other Condensed Matter, Physics - Fluid Dynamics
Abstract

A mathematical model is developed for the process of mass transfer from a fluid flowing through a packed column. Mass loss, whether by absorption or adsorption, may be significant. This is appropriate for example when removing contaminants from flue gases. With small mass loss the model reduces to a simpler form which is appropriate to describe the removal of contaminants/pollutants from liquids. A case study is carried out for the removal of CO2 from a gas mixture passing over activated carbon. Using the experimental parameter values it is shown, via non-dimensionalisation, that certain terms may be neglected from the governing equations, resulting in a form which may be solved analytically using a travelling wave substitution. From this all important quantities throughout the column may be described; concentration of gaseous materials, amount of material available for mass transfer, fluid velocity and pressure. Results are verified by comparison with experimental data for the breakthrough curve (the amount of carbon measured at the column outlet). The advantage of the analytical expression over a purely numerical solution is that it can easily be used to optimise the process. In the final section we demonstrate how the model may be further reduced when small amounts of contaminant are removed. The model is shown to exhibit better agreement than established models when compared to experimental data for the removal of amoxicillin and congo red dye from water.

Published
2020
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10. Mathematical modelling of carbon capture in a packed column by adsorption

Author

Myers, T. G., Font, F., and Hennessy, M. G.

Subjects
Condensed Matter - Other Condensed Matter, Physics - Applied Physics
Abstract

A mathematical model of the process of carbon capture in a packed column by adsorption is developed and analysed. First a detailed study is made of the governing equations. Due to the complexity of the internal geometry it is standard practice to average these equations. Here the averaging process is revisited. This shows that there exists a number of errors and some confusion in the standard systems studied in the literature. These errors affect the parameter estimation, with consequences when the experimental set-up is modified or scaled-up. Assuming, as a first approximation, an isothermal model the gas concentration equation is solved numerically. Excellent agreement with data from a pressure swing adsorption experiment is demonstrated. A new analytical solution (valid away from the inlet) is obtained. This provides explicit relations for quantities such as the amount of adsorbed gas, time of first breakthrough, total process time and width and speed of the reaction zone, showing how these depend on the operating conditions and material parameters. The relations show clearly how to optimise the carbon capture process. By comparison with experimental data the analytical solution may also be used to calculate unknown system parameters.

Published
2020
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11. Using in-situ strain measurements to evaluate the accuracy of stress estimation procedures from fracture injection/shut-in tests

Author

Ajo-Franklin, J., Baumgartner, T., Beckers, K., Blankenship, D., Bonneville, A., Boyd, L., Brown, S., Burghardt, J.A., Chai, C., Chakravarty, A., Chen, T., Chen, Y., Chi, B., Condon, K., Cook, P.J., Crandall, D., Dobson, P.F., Doe, T., Doughty, C.A., Elsworth, D., Feldman, J., Feng, Z., Foris, A., Frash, L.P., Frone, Z., Fu, P., Gao, K., Ghassemi, A., Guglielmi, Y., Haimson, B., Hawkins, A., Heise, J., Hopp, C., Horn, M., Horne, R.N., Horner, J., Hu, M., Huang, H., Huang, L., Im, K.J., Ingraham, M., Jafarov, E., Jayne, R.S., Johnson, T.C., Johnson, S.E., Johnston, B., Karra, S., Kim, K., King, D.K., Kneafsey, T., Knox, H., Knox, J., Kumar, D., Kutun, K., Lee, M., Li, D., Li, J., Li, K., Li, Z., Maceira, M., Mackey, P., Makedonska, N., Marone, C.J., Mattson, E., McClure, M.W., McLennan, J., McLing, T., Medler, C., Mellors, R.J., Metcalfe, E., Miskimins, J., Moore, J., Morency, C.E., Morris, J.P., Myers, T., Nakagawa, S., Neupane, G., Newman, G., Nieto, A., Paronish, T., Pawar, R., Petrov, P., Pietzyk, B., Podgorney, R., Polsky, Y., Pope, J., Porse, S., Primo, J.C., Pyatina, T., Reimers, C., Roberts, B.Q., Robertson, M., Rodríguez-Tribaldos, V., Roggenthen, W., Rutqvist, J., Rynders, D., Schoenball, M., Schwering, P., Sesetty, V., Sherman, C.S., Singh, A., Smith, M.M., Sone, H., Sonnenthal, E.L., Soom, F.A., Sprinkle, D.P., Sprinkle, S., Strickland, C.E., Su, J., Templeton, D., Thomle, J.N., Ulrich, C., Uzunlar, N., Vachaparampil, A., Valladao, C.A., Vandermeer, W., Vandine, G., Vardiman, D., Vermeul, V.R., Wagoner, J.L., Wang, H.F., Weers, J., Welch, N., White, J., White, M.D., Winterfeld, P., Wood, T., Workman, S., Wu, H., Wu, Y.S., Yildirim, E.C., Zhang, Y., Zhang, Y.Q., Zhou, Q., Zoback, M.D., Guglielmi, Yves, McClure, Mark, Burghardt, Jeffrey, Morris, Joseph P., Doe, Thomas, Fu, Pengcheng, Knox, Hunter, Vermeul, Vince, and Kneafsey, Tim

Published
2023
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12. The EGS Collab project: Status and Accomplishments

Author

Kneafsey, T, Blankenship, D, Dobson, P, White, M, Morris, JP, Fu, P, Schwering, PC, Ajo-Franklin, JB, Huang, L, Knox, HA, Strickland, C, Burghardt, J, Johnson, T, Neupane, G, Weers, J, Horne, R, Roggenthen, W, Doe, T, Mattson, E, Ajo-Franklin, J, Baumgartner, T, Beckers, K, Bonneville, A, Boyd, L, Brown, S, Burghardt, JA, Chai, C, Chakravarty, A, Chen, T, Chen, Y, Chi, B, Condon, K, Cook, PJ, Crandall, D, Doughty, CA, Elsworth, D, Feldman, J, Feng, Z, Foris, A, Frash, LP, Frone, Z, Gao, K, Ghassemi, A, Guglielmi, Y, Haimson, B, Hawkins, A, Heise, J, Hopp, C, Horn, M, Horne, RN, Horner, J, Hu, M, Huang, H, Im, KJ, Ingraham, M, Jafarov, E, Jayne, RS, Johnson, TC, Johnson, SE, Johnston, B, Karra, S, Kim, K, King, DK, Knox, H, Knox, J, Kumar, D, Kutun, K, Lee, M, Li, D, Li, J, Li, K, Li, Z, MacEira, M, MacKey, P, Makedonska, N, Marone, CJ, McClure, MW, McLennan, J, McLing, T, Medler, C, Mellors, RJ, Metcalfe, E, Miskimins, J, Moore, J, Morency, CE, Myers, T, Nakagawa, S, Newman, G, Nieto, A, Paronish, T, and Pawar, R

Subjects
Geochemistry & Geophysics
Abstract

The EGS Collab project, supported by the US Department of Energy, is addressing challenges in implementing enhanced geothermal systems (EGS). This includes improving understanding of the stimulation of crystalline rock to create appropriate flow pathways, and the ability to effectively simulate both the stimulation and the flow and transport processes in the resulting fracture network. The project is performing intensively monitored rock stimulation and flow tests at the 10-m scale in an underground research laboratory. Data and observations from the field test are compared to simulations to understand processes and to build confidence in numerical modeling of the processes. In Experiment 1, we examined hydraulic fracturing an underground test bed at the Sanford Underground Research Facility (SURF) in Lead, South Dakota, at a depth of approximately 1.5 km. We drilled eight sub-horizontal boreholes in a well-characterized phyllite. Six of the boreholes were instrumented with many sensor types to allow careful monitoring of stimulation events and flow tests, and the other two boreholes were used for water injection and production. We performed a number of stimulations and flow tests in the testbed. Our monitoring systems allowed detailed observations and collection of numerous data sets of processes occurring during stimulation and during dynamic flow tests. Long-term ambient temperature and chilled water flow tests were performed in addition to many tracer tests to examine system behavior. Data were rapidly analyzed, allowing adaptive control of the tests. Numerical simulation was used to answer key experimental design questions, to forecast fracture propagation trajectories and extents, and to analyze and evaluate results. Many simulations were performed in near-real-time in conjunction with the field experiments, with more detailed process study simulations performed on a longer timeframe. Experiment 2 will examine hydraulic shearing in a test bed being built at the SURF at a depth of about 1.25 km in amphibolite under a different set of stress and fracture conditions than Experiment 1. Five sets of fracture orientations were considered in design, and three orientations seem to be consistently observed.

Published
2021

13. Creation of a Mixed-Mode Fracture Network at Mesoscale Through Hydraulic Fracturing and Shear Stimulation

Author

Schoenball, M, Ajo-Franklin, JB, Blankenship, D, Chai, C, Chakravarty, A, Dobson, P, Hopp, C, Kneafsey, T, Knox, HA, Maceira, M, Robertson, MC, Sprinkle, P, Strickland, C, Templeton, D, Schwering, PC, Ulrich, C, Wood, T, Ajo-Franklin, J, Baumgartner, T, Beckers, K, Bonneville, A, Boyd, L, Brown, S, Burghardt, JA, Chen, T, Chen, Y, Chi, B, Condon, K, Cook, PJ, Crandall, D, Dobson, PF, Doe, T, Doughty, CA, Elsworth, D, Feldman, J, Feng, Z, Foris, A, Frash, LP, Frone, Z, Fu, P, Gao, K, Ghassemi, A, Guglielmi, Y, Haimson, B, Hawkins, A, Heise, J, Horn, M, Horne, RN, Horner, J, Hu, M, Huang, H, Huang, L, Im, KJ, Ingraham, M, Jafarov, E, Jayne, RS, Johnson, TC, Johnson, SE, Johnston, B, Karra, S, Kim, K, King, DK, Knox, H, Knox, J, Kumar, D, Kutun, K, Lee, M, Li, K, Li, Z, Mackey, P, Makedonska, N, Marone, CJ, Mattson, E, McClure, MW, McLennan, J, McLing, T, Medler, C, Mellors, RJ, Metcalfe, E, Miskimins, J, Moore, J, Morency, CE, Morris, JP, Myers, T, Nakagawa, S, Neupane, G, Newman, G, Nieto, A, Paronish, T, Pawar, R, Petrov, P, Pietzyk, B, Podgorney, R, and Polsky, Y

Subjects
induced seismicity, enhanced geothermal systems, mesoscale, Geochemistry, Geology, Geophysics
Abstract

Enhanced Geothermal Systems could provide a substantial contribution to the global energy demand if their implementation could overcome inherent challenges. Examples are insufficient created permeability, early thermal breakthrough, and unacceptable induced seismicity. Here we report on the seismic response of a mesoscale hydraulic fracturing experiment performed at 1.5-km depth at the Sanford Underground Research Facility. We have measured the seismic activity by utilizing a 100-kHz, continuous seismic monitoring system deployed in six 60-m length monitoring boreholes surrounding the experimental domain in 3-D. The achieved location uncertainty was on the order of 1 m and limited by the signal-to-noise ratio of detected events. These uncertainties were corroborated by detections of fracture intersections at the monitoring boreholes. Three intervals of the dedicated injection borehole were hydraulically stimulated by water injection at pressures up to 33 MPa and flow rates up to 5 L/min. We located 1,933 seismic events during several injection periods. The recorded seismicity delineates a complex fracture network comprised of multistrand hydraulic fractures and shear-reactivated, preexisting planes of weakness that grew unilaterally from the point of initiation. We find that heterogeneity of stress dictates the seismic outcome of hydraulic stimulations, even when relying on theoretically well-behaved hydraulic fractures. Once hydraulic fractures intersected boreholes, the boreholes acted as a pressure relief and fracture propagation ceased. In order to create an efficient subsurface heat exchanger, production boreholes should not be drilled before the end of hydraulic stimulations.

Published
2020

14. Towards an Improved Test of the Standard Model's Most Precise Prediction

Author

Gabrielse, G., Fayer, S. E., Myers, T. G., and Fan, X.

Subjects
Quantum Physics, Physics - Instrumentation and Detectors
Abstract

The electron and positron magnetic moments are the most precise prediction of the standard model of particle physics. The most accurate measurement of a property of an elementary particle has been made to test this result. A new experimental method is now being employed in an attempt to improve the measurement accuracy by an order of magnitude. Positrons from a "student source" now suffice for the experiment. Progress toward a new measurement is summarized.

Published
2019

15. Does mathematics contribute to the nanofluid debate?

Author

Myers, T. G., Ribera, H., and Cregan, V.

Subjects
Physics - Fluid Dynamics
Abstract

Recent experimental evidence has clearly demonstrated that nanofluids do not provide the greatly enhanced heat transfer predicted in the past. Despite seemingly conclusive proof there is still a great deal of current mathematical research asserting the opposite result. In this paper we scrutinise the mathematical work and demonstrate that the disagreement can be traced to a number of issues. These include the incorrect formulation of the governing equations; the use of parameter values orders of magnitude different to the true values (some requiring nanoparticle volume fractions greater than unity and nanoparticles smaller than atoms); model choices that are based on permitting a reduction using similarity variables as opposed to representing an actual physical situation; presentation of results using different scalings for each fluid., Comment: 25 pages, 3 figures

Published
2019
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16. Optical diffraction from isolated nanoparticles

Author

Myers, T. G., Ribera, H., and Bacsa, W. S.

Subjects
Physics - Optics
Abstract

When subjected to monochromatic incident light a nanoparticle will emit light which then interferes with the incident beam. With sufficient contrast and sufficiently close to the particle this interference pattern may be recorded with a pointed optical fiber in collection mode. It is shown that the analytic dipole model accurately reproduces the observed interference pattern. Using this model and measuring only the lengths of the first two major axes of the observed elliptical fringes we are able to reproduce and quantify the fringe pattern. Importantly, we are able to locate the nanoparticle, with respect to the fibre, using only visible light in a simple experimental setup. For the case described where the image plane is of the order microns above the substrate, hence the fringe number is large, it is shown that the prediction for the particle location and fringe number is insensitive to measurement errors. The phase shift of the scattered wave, a quantity that is notoriously difficult to measure, is easily determined from the theory however it is very sensitive to errors., Comment: 4 pages, 3 figures

Published
2019

17. Nanocrystal growth via the precipitation method

Author

Fanelli, C., Cregan, V., Font, F., and Myers, T. G.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

A mathematical model to describe the growth of an arbitrarily large number of nanocrystals from solution is presented. First, the model for a single particle is developed. By non-dimensionalising the system we are able to determine the dominant terms and reduce it to the standard pseudo-steady approximation. The range of applicability and further reductions are discussed. An approximate analytical solution is also presented. The one particle model is then generalised to $N$ well dispersed particles. By setting $N=2$ we are able to investigate in detail the process of Ostwald ripening. The various models, the $N$ particle, single particle and the analytical solution are compared against experimental data, all showing excellent agreement. By allowing $N$ to increase we show that the single particle model may be considered as representing the average radius of a system with a large number of particles. Following a similar argument the $N=2$ model could describe an initially bimodal distribution. The mathematical solution clearly shows the effect of problem parameters on the growth process and, significantly, that there is a single controlling group. The model provides a simple way to understand nanocrystal growth and hence to guide and optimise the process.

Published
2019
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19. Low Static Shear Modulus Along Foliation and Its Influence on the Elastic and Strength Anisotropy of Poorman Schist Rocks, Homestake Mine, South Dakota

Author

Condon, KJ, Sone, H, Wang, HF, Ajo-Franklin, J, Baumgartner, T, Beckers, K, Blankenship, D, Bonneville, A, Boyd, L, Brown, S, Burghardt, JA, Chai, C, Chen, Y, Chi, B, Condon, K, Cook, PJ, Crandall, D, Dobson, PF, Doe, T, Doughty, CA, Elsworth, D, Feldman, J, Feng, Z, Foris, A, Frash, LP, Frone, Z, Fu, P, Gao, K, Ghassemi, A, Guglielmi, Y, Haimson, B, Hawkins, A, Heise, J, Hopp, C, Horn, M, Horne, RN, Horner, J, Hu, M, Huang, H, Huang, L, Im, KJ, Ingraham, M, Jafarov, E, Jayne, RS, Johnson, SE, Johnson, TC, Johnston, B, Kim, K, King, DK, Kneafsey, T, Knox, H, Knox, J, Kumar, D, Lee, M, Li, K, Li, Z, Maceira, M, Mackey, P, Makedonska, N, Mattson, E, McClure, MW, McLennan, J, Medler, C, Mellors, RJ, Metcalfe, E, Moore, J, Morency, CE, Morris, JP, Myers, T, Nakagawa, S, Neupane, G, Newman, G, Nieto, A, Oldenburg, CM, Paronish, T, Pawar, R, Petrov, P, Pietzyk, B, Podgorney, R, Polsky, Y, Pope, J, Porse, S, Primo, JC, Reimers, C, Roberts, BQ, Robertson, M, Roggenthen, W, Rutqvist, J, Rynders, D, Schoenball, M, Schwering, P, Sesetty, V, Sherman, CS, Singh, A, Smith, MM, Sonnenthal, EL, Soom, FA, Sprinkle, P, and Strickland, CE

Subjects
Anisotropy, Schist, Young's modulus, EGS Collab, Geological & Geomatics Engineering, Civil Engineering, Resources Engineering and Extractive Metallurgy
Abstract

We investigate the influence of foliation orientation and fine-scale folding on the static and dynamic elastic properties and unconfined strength of the Poorman schist. Measurements from triaxial and uniaxial laboratory experiments reveal a significant amount of variability in the static and dynamic Young’s modulus depending on the sample orientation relative to the foliation plane. Dynamic P-wave modulus and S-wave modulus are stiffer in the direction parallel to the foliation plane as expected for transversely isotropic mediums with average Thomsen parameters values 0.133 and 0.119 for epsilon and gamma, respectively. Static Young’s modulus varies significantly between 21 and 117 GPa, and a peculiar trend is observed where some foliated sample groups show an anomalous decrease in the static Young’s modulus when the symmetry axis (x3-axis) is oriented obliquely to the direction of loading. Utilizing stress and strain relationships for transversely isotropic medium, we derive the analytical expression for Young’s modulus as a function of the elastic moduli E1, E3, ν31, and G13 and sample orientation to fit the static Young’s modulus measurements. Regression of the equation to the Young’s modulus data reveals that the decrease in static Young’s modulus at oblique symmetry axis orientations is directly influenced by a low shear modulus, G13, which we attribute to shear sliding along foliation planes during static deformation that occurs as soon as the foliation is subject to shear stress. We argue that such difference between dynamic and static anisotropy is a characteristic of near-zero porosity anisotropic rocks. The uniaxial compressive strength also shows significant variability ranging from 21.9 to 194.6 MPa across the five sample locations and is the lowest when the symmetry axis is oriented 45° or 60° from the direction of loading, also a result of shear sliding along foliation planes during static deformation.

Published
2020

20. A slip-based model for the size-dependent effective thermal conductivity of nanowires

Author

Calvo-Schwarzwälder, M., Hennessy, M. G., Torres, P., Myers, T. G., and Alvarez, F. X.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The heat flux across a nanowire is computed based on the Guyer-Krumhansl equation. Slip conditions with a slip length depending on both temperature and nanowire radius are introduced at the outer boundary. An explicit expression for the effective thermal conductivity is derived and compared to existing models across a given temperature range, providing excellent agreement with experimental data for Si nanowires.

Published
2017
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21. Implications of a Pervasive Climate Model Bias for Low‐Cloud Feedback.

Author

Ceppi, P., Myers, T. A., Nowack, P., Wall, C. J., and Zelinka, M. D.

Subjects
*CLIMATE feedbacks, *ATMOSPHERIC models, *CLOUDINESS, *GLOBAL warming, *FACTOR analysis
Abstract

How low clouds respond to warming constitutes a key uncertainty for climate projections. Here we observationally constrain low‐cloud feedback through a controlling factor analysis based on ridge regression. We find a moderately positive global low‐cloud feedback (0.45 W m−2 ${\mathrm{m}}^{-2}$K−1 ${\mathrm{K}}^{-1}$, 90% range 0.18–0.72 W m−2 ${\mathrm{m}}^{-2}$K−1 ${\mathrm{K}}^{-1}$), about twice the mean value (0.22 W m−2 ${\mathrm{m}}^{-2}$K−1 ${\mathrm{K}}^{-1}$) of 16 models from the Coupled Model Intercomparison Project. We link this discrepancy to a pervasive model mean‐state bias: models underestimate the low‐cloud response to warming because (a) they systematically underestimate present‐day tropical marine low‐cloud amount, and (b) the low‐cloud sensitivity to warming is proportional to this present‐day low‐cloud amount. Our results hence highlight the importance of reducing model biases in both the mean state of clouds and their sensitivity to environmental factors for accurate climate change projections. Plain Language Summary: Low clouds have a large impact on climate by reflecting a portion of incoming sunlight back to space. Hence any future changes in clouds under global warming could amplify or dampen climate change—a phenomenon known as "cloud feedback." Climate models however disagree on future low‐cloud changes, resulting in large uncertainty in future global‐warming projections. Here we perform a statistical analysis of global satellite observations of low clouds, using observed co‐variations between clouds and meteorology to constrain the feedback simulated by climate models. We find evidence of an amplifying feedback by low clouds, stronger than simulated by most climate models. We link this discrepancy to a low‐cloud deficit across wide swathes of the tropical oceans characterized by abundant low cloud cover in observations. Thus to reduce climate projection uncertainty, we propose it is important to understand and mitigate the low‐cloud deficit in climate models. Key Points: We implement a statistical learning‐based analysis to constrain low‐cloud feedback, with strong out‐of‐sample predictive skillThe observationally constrained global‐mean feedback is about double the mean value from an ensemble of 16 climate modelsThis discrepancy is consistent with a pervasive underestimate of mean‐state tropical marine low‐cloud amount in the models [ABSTRACT FROM AUTHOR]

Published
2024
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24. ECHOS: Early Childhood Hands-On Science Efficacy Study

Author

Society for Research on Educational Effectiveness (SREE), Brown, Judy A., Greenfield, Daryl B., Bell, Elizabeth, Juárez, Cheryl Lani, Myers, T, and Nayfeld, Irena

Abstract

"ECHOS: Early Childhood Hands-On Science" was developed at the Miami Science Museum as a comprehensive set of science lessons sequenced to lead children toward a deeper understanding of science content and the use of science process skills. The purpose of the research is to determine whether use of the "ECHOS" model will increase the amount and quality of science teaching and learning in preschool programs serving low-income children. "ECHOS" is based on the conviction that teachers of children at risk of school failure need to be both content sources and facilitators of learning who deliberately structure the environment and provide explicit instruction on basic science concepts. Analyses at the end of the first year show preliminary evidence for the effectiveness of "ECHOS" on the quality of teacher's science instruction and on children's science skills. These positive preliminary results from a first year of the randomized controlled trial, and relatively high rates of teacher fidelity, indicate that "ECHOS" has demonstrated its potential to impact teacher practice and student outcomes. Tables are appended.

Published
2013

25. Using in-situ strain measurements to evaluate the accuracy of stress estimation procedures from fracture injection/shut-in tests

Author

Guglielmi, Yves, primary, McClure, Mark, additional, Burghardt, Jeffrey, additional, Morris, Joseph P., additional, Doe, Thomas, additional, Fu, Pengcheng, additional, Knox, Hunter, additional, Vermeul, Vince, additional, Kneafsey, Tim, additional, Ajo-Franklin, J., additional, Baumgartner, T., additional, Beckers, K., additional, Blankenship, D., additional, Bonneville, A., additional, Boyd, L., additional, Brown, S., additional, Burghardt, J.A., additional, Chai, C., additional, Chakravarty, A., additional, Chen, T., additional, Chen, Y., additional, Chi, B., additional, Condon, K., additional, Cook, P.J., additional, Crandall, D., additional, Dobson, P.F., additional, Doe, T., additional, Doughty, C.A., additional, Elsworth, D., additional, Feldman, J., additional, Feng, Z., additional, Foris, A., additional, Frash, L.P., additional, Frone, Z., additional, Fu, P., additional, Gao, K., additional, Ghassemi, A., additional, Guglielmi, Y., additional, Haimson, B., additional, Hawkins, A., additional, Heise, J., additional, Hopp, C., additional, Horn, M., additional, Horne, R.N., additional, Horner, J., additional, Hu, M., additional, Huang, H., additional, Huang, L., additional, Im, K.J., additional, Ingraham, M., additional, Jafarov, E., additional, Jayne, R.S., additional, Johnson, T.C., additional, Johnson, S.E., additional, Johnston, B., additional, Karra, S., additional, Kim, K., additional, King, D.K., additional, Kneafsey, T., additional, Knox, H., additional, Knox, J., additional, Kumar, D., additional, Kutun, K., additional, Lee, M., additional, Li, D., additional, Li, J., additional, Li, K., additional, Li, Z., additional, Maceira, M., additional, Mackey, P., additional, Makedonska, N., additional, Marone, C.J., additional, Mattson, E., additional, McClure, M.W., additional, McLennan, J., additional, McLing, T., additional, Medler, C., additional, Mellors, R.J., additional, Metcalfe, E., additional, Miskimins, J., additional, Moore, J., additional, Morency, C.E., additional, Morris, J.P., additional, Myers, T., additional, Nakagawa, S., additional, Neupane, G., additional, Newman, G., additional, Nieto, A., additional, Paronish, T., additional, Pawar, R., additional, Petrov, P., additional, Pietzyk, B., additional, Podgorney, R., additional, Polsky, Y., additional, Pope, J., additional, Porse, S., additional, Primo, J.C., additional, Pyatina, T., additional, Reimers, C., additional, Roberts, B.Q., additional, Robertson, M., additional, Rodríguez-Tribaldos, V., additional, Roggenthen, W., additional, Rutqvist, J., additional, Rynders, D., additional, Schoenball, M., additional, Schwering, P., additional, Sesetty, V., additional, Sherman, C.S., additional, Singh, A., additional, Smith, M.M., additional, Sone, H., additional, Sonnenthal, E.L., additional, Soom, F.A., additional, Sprinkle, D.P., additional, Sprinkle, S., additional, Strickland, C.E., additional, Su, J., additional, Templeton, D., additional, Thomle, J.N., additional, Ulrich, C., additional, Uzunlar, N., additional, Vachaparampil, A., additional, Valladao, C.A., additional, Vandermeer, W., additional, Vandine, G., additional, Vardiman, D., additional, Vermeul, V.R., additional, Wagoner, J.L., additional, Wang, H.F., additional, Weers, J., additional, Welch, N., additional, White, J., additional, White, M.D., additional, Winterfeld, P., additional, Wood, T., additional, Workman, S., additional, Wu, H., additional, Wu, Y.S., additional, Yildirim, E.C., additional, Zhang, Y., additional, Zhang, Y.Q., additional, Zhou, Q., additional, and Zoback, M.D., additional

Published
2023
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26. Nanoparticle Growth via the Precipitation Method

Author

Cregan, V., Myers, T. G., Mitchell, S. L., Ribera, H., Schwarzwälder, M. C., Bock, Hans Georg, Series Editor, de Hoog, Frank, Series Editor, Friedman, Avner, Series Editor, Gupta, Arvind, Series Editor, Nachbin, André, Series Editor, Ozawa, Tohru, Series Editor, Pulleyblank, William R., Series Editor, Rusten, Torgeir, Series Editor, Santosa, Fadil, Series Editor, Seo, Jin Keun, Series Editor, Tornberg, Anna-Karin, Series Editor, Quintela, Peregrina, editor, Barral, Patricia, editor, Gómez, Dolores, editor, Pena, Francisco J., editor, Rodríguez, Jerónimo, editor, Salgado, Pilar, editor, and Vázquez-Méndez, Miguel E., editor

Published
2017
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27. Boundary Layer Analysis and Heat Transfer of a Nanofluid

Author

Myers, T. G., MacDevette, M. M., Bock, Hans Georg, Series editor, de Hoog, Frank, Series editor, Friedman, Avner, Series editor, Gupta, Arvind, Series editor, Nachbin, André, Series editor, Ozawa, Tohru, Series editor, Pulleyblank, William R., Series editor, Rusten, Torgeir, Series editor, Santosa, Fadil, Series editor, Seo, Jin Keun, Series editor, Tornberg, Anna-Karin, Series editor, Russo, Giovanni, editor, Capasso, Vincenzo, editor, Nicosia, Giuseppe, editor, and Romano, Vittorio, editor

Published
2016
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37. American Society of Hematology 2023 guidelines for management of venous thromboembolism: thrombophilia testing.

Author

Middeldorp, S., Nieuwlaat, R., Baumann Kreuziger, L., Coppens, M., Houghton, D., James, A.H., Lang, E., Moll, S., Myers, T., Bhatt, M., Chai-Adisaksopha, C., Colunga-Lozano, L.E., Karam, S.G., Zhang, Yuan, Wiercioch, W., Schünemann, H.J., Iorio, A., Middeldorp, S., Nieuwlaat, R., Baumann Kreuziger, L., Coppens, M., Houghton, D., James, A.H., Lang, E., Moll, S., Myers, T., Bhatt, M., Chai-Adisaksopha, C., Colunga-Lozano, L.E., Karam, S.G., Zhang, Yuan, Wiercioch, W., Schünemann, H.J., and Iorio, A.

Abstract

Contains fulltext : 299601.pdf (Publisher’s version ) (Open Access), Hereditary and acquired thrombophilia are risk factors for venous thromboembolism (VTE). Whether testing helps guide management decisions is controversial. These evidence-based guidelines from the American Society of Hematology (ASH) intend to support decision making about thrombophilia testing. ASH formed a multidisciplinary guideline panel covering clinical and methodological expertise and minimizing bias from conflicts of interest. The McMaster University GRADE Centre provided logistical support, performed systematic reviews, and created evidence profiles and evidence-to-decision tables. The Grading of Recommendations Assessment, Development, and Evaluation approach (GRADE) was used. Recommendations were subject to public comment. The panel agreed on 23 recommendations regarding thrombophilia testing and associated management. Nearly all recommendations are based on very low certainty in the evidence due to modeling assumptions. The panel issued a strong recommendation against testing the general population before starting combined oral contraceptives (COCs) and conditional recommendations for thrombophilia testing in the following scenarios: (a) patients with VTE associated with nonsurgical major transient or hormonal risk factors; (b) patients with cerebral or splanchnic venous thrombosis, in settings where anticoagulation would otherwise be discontinued; (c) individuals with a family history of antithrombin, protein C, or protein S deficiency when considering thromboprophylaxis for minor provoking risk factors and for guidance to avoid COCs/hormone replacement therapy; (d) pregnant women with a family history of high-risk thrombophilia types; and (e) patients with cancer at low or intermediate risk of thrombosis and with a family history of VTE. For all other questions, the panel provided conditional recommendations against testing for thrombophilia.

Published
2023

38. Body appreciation around the world: Measurement invariance of the Body Appreciation Scale-2 (BAS-2) across 65 nations, 40 languages, gender identities, and age

Author

Swami, V., Tran, U. S., Stieger, S., Aavik, T., Ranjbar, H. A., Adebayo, S. O., Afhami, R., Ahmed, O., Aimé, A., Akel, M., Halbusi, H. A., Alexias, G., Ali, K. F., Alp-Dal, N., Alsalhani, A. B., Álvares-Solas, S., Amaral, A. C. S., Andrianto, S., Aspden, T., Argyrides, M., Aruta, J. J. B. R., Atkin, S., Ayandele, O., Baceviciene, M., Bahbouh, R., Ballesio, A., Barron, D., Bellard, A., Bender, S. S., Beydağ, K. D., Birovljević, G., Blackburn, M. È, Borja-Alvarez, T., Borowiec, J., Bozogáňová, M., Bratland-Sanda, S., Browning, M. H. E. M., Brytek-Matera, A., Burakova, M., Çakır-Koçak, Y., Camacho, P., Camilleri, V. E., Cazzato, V., Cerea, S., Chaiwutikornwanich, A., Chaleeraktrakoon, T., Chambers, T., Chen, Q. W., Chen, X., Chien, C. L., Chobthamkit, P., Choompunuch, B., Compte, E. J., Corrigan, J., Cosmas, G., Cowden, R. G., Czepczor-Bernat, K., Czub, M., da Silva, W. R., Dadfar, M., Dalley, S. E., Dany, L., Datu, J. A. D., Berbert de Carvalho, P. H., Coelho, G. L. D. H., De Jesus, A. O. S., Debbabi, S. H., Dhakal, S., Di Bernardo, F., Dimitrova, D. D., Dion, J., Dixson, B., Donofrio, S. M., Drysch, M., Du, H., Dzhambov, A. M., El-Jor, C., Enea, V., Eskin, M., Farbod, F., Farrugia, L., Fian, L., Fisher, M. L., Folwarczny, M., Frederick, D. A., Fuller-Tyszkiewicz, M., Furnham, A., García, A. A., Geller, S., Ghisi, M., Ghorbani, A., Martinez, M. A. G., Gradidge, S., Graf, S., Grano, C., Gyene, G., Hallit, S., Hamdan, M., Handelzalts, J. E., Hanel, P. H. P., Hawks, S. R., Hekmati, I., Helmy, M., Hill, T., Hina, F., Holenweger, G., Hřebíčková, M., Ijabadeniyi, O. A., Imam, A., İnce, B., Irrazabal, N., Jankauskiene, R., Jiang, D. Y., Jiménez-Borja, M., Jiménez-Borja, V., Johnson, E. M., Jovanović, V., Jović, M., Junqueira, A. C. P., Kahle, L. M., Kantanista, A., Karakiraz, A., Karkin, A. N., Kasten, E., Khatib, S., Khieowan, N., Kimong, P. J., Kiropoulos, L., Knittel, J., Kohli, N., Koprivnik, M., Kospakov, A., Król-Zielińska, M., Krug, I., Kuan, G., Kueh, Y. C., Kujan, O., Kukić, M., Kumar, S., Kumar, V., Lamba, N., Lauri, M. A., Laus, M. F., LeBlanc, L. A., Lee, H. J., Lipowska, M., Lipowski, M., Lombardo, C., Lukács, A., Maïano, C., Malik, S., Manjary, M., Baldó, L. M., Martinez-Banfi, M., Massar, K., Matera, C., McAnirlin, O., Mebarak, M. R., Mechri, A., Meireles, J. F. F., Mesko, N., Mills, J., Miyairi, M., Modi, R., Modrzejewska, A., Modrzejewska, J., Mulgrew, K. E., Myers, T. A., Namatame, H., Nassani, M. Z., Nerini, A., Neto, F., Neto, J., Neves, A. N., Ng, S. K., Nithiya, D., O, J., Obeid, S., Oda-Montecinos, C., Olapegba, P. O., Olonisakin, T. T., Omar, S. S., Örlygsdóttir, B., Özsoy, E., Otterbring, T., Pahl, S., Panasiti, M. S., Park, Y., Patwary, M. M., Pethö, T., Petrova, N., Pietschnig, J., Pourmahmoud, S., Prabhu, V. G., Poštuvan, V., Prokop, P., Ramseyer Winter, V. L., Razmus, M., Ru, T., Rupar, M., Sahlan, R. N., Hassan, M. S., Šalov, A., Sapkota, S., Sarfo, J. O., Sawamiya, Y., Schaefer, K., Schulte-Mecklenbeck, M., Seekis, V., Selvi, K., Sharifi, M., Shrivastava, A., Siddique, R. F., Sigurdsson, V., Silkane, V., Šimunić, A., Singh, G., Slezáčková, A., Sundgot-Borgen, C., Ten Hoor, G., Tevichapong, P., Tipandjan, A., Todd, J., Togas, C., Tonini, F., Tovar-Castro, J. C., Trangsrud, L. K. J., Tripathi, P., Tudorel, O., Tylka, T. L., Uyzbayeva, A., Vally, Z., Vanags, E., Vega, L. D., Vicente-Arruebarrena, A., Vidal-Mollón, J., Vilar, R., Villegas, H., Vintilă, M., Wallner, C., White, M. P., Whitebridge, S., Windhager, S., Wong, K. Y., Yau, E. K., Yamamiya, Y., Yeung, V. W. L., Zanetti, M. C., Zawisza, M., Zeeni, N., Zvaríková, M., Voracek, M., Swami, V., Tran, U. S., Stieger, S., Aavik, T., Ranjbar, H. A., Adebayo, S. O., Afhami, R., Ahmed, O., Aimé, A., Akel, M., Halbusi, H. A., Alexias, G., Ali, K. F., Alp-Dal, N., Alsalhani, A. B., Álvares-Solas, S., Amaral, A. C. S., Andrianto, S., Aspden, T., Argyrides, M., Aruta, J. J. B. R., Atkin, S., Ayandele, O., Baceviciene, M., Bahbouh, R., Ballesio, A., Barron, D., Bellard, A., Bender, S. S., Beydağ, K. D., Birovljević, G., Blackburn, M. È, Borja-Alvarez, T., Borowiec, J., Bozogáňová, M., Bratland-Sanda, S., Browning, M. H. E. M., Brytek-Matera, A., Burakova, M., Çakır-Koçak, Y., Camacho, P., Camilleri, V. E., Cazzato, V., Cerea, S., Chaiwutikornwanich, A., Chaleeraktrakoon, T., Chambers, T., Chen, Q. W., Chen, X., Chien, C. L., Chobthamkit, P., Choompunuch, B., Compte, E. J., Corrigan, J., Cosmas, G., Cowden, R. G., Czepczor-Bernat, K., Czub, M., da Silva, W. R., Dadfar, M., Dalley, S. E., Dany, L., Datu, J. A. D., Berbert de Carvalho, P. H., Coelho, G. L. D. H., De Jesus, A. O. S., Debbabi, S. H., Dhakal, S., Di Bernardo, F., Dimitrova, D. D., Dion, J., Dixson, B., Donofrio, S. M., Drysch, M., Du, H., Dzhambov, A. M., El-Jor, C., Enea, V., Eskin, M., Farbod, F., Farrugia, L., Fian, L., Fisher, M. L., Folwarczny, M., Frederick, D. A., Fuller-Tyszkiewicz, M., Furnham, A., García, A. A., Geller, S., Ghisi, M., Ghorbani, A., Martinez, M. A. G., Gradidge, S., Graf, S., Grano, C., Gyene, G., Hallit, S., Hamdan, M., Handelzalts, J. E., Hanel, P. H. P., Hawks, S. R., Hekmati, I., Helmy, M., Hill, T., Hina, F., Holenweger, G., Hřebíčková, M., Ijabadeniyi, O. A., Imam, A., İnce, B., Irrazabal, N., Jankauskiene, R., Jiang, D. Y., Jiménez-Borja, M., Jiménez-Borja, V., Johnson, E. M., Jovanović, V., Jović, M., Junqueira, A. C. P., Kahle, L. M., Kantanista, A., Karakiraz, A., Karkin, A. N., Kasten, E., Khatib, S., Khieowan, N., Kimong, P. J., Kiropoulos, L., Knittel, J., Kohli, N., Koprivnik, M., Kospakov, A., Król-Zielińska, M., Krug, I., Kuan, G., Kueh, Y. C., Kujan, O., Kukić, M., Kumar, S., Kumar, V., Lamba, N., Lauri, M. A., Laus, M. F., LeBlanc, L. A., Lee, H. J., Lipowska, M., Lipowski, M., Lombardo, C., Lukács, A., Maïano, C., Malik, S., Manjary, M., Baldó, L. M., Martinez-Banfi, M., Massar, K., Matera, C., McAnirlin, O., Mebarak, M. R., Mechri, A., Meireles, J. F. F., Mesko, N., Mills, J., Miyairi, M., Modi, R., Modrzejewska, A., Modrzejewska, J., Mulgrew, K. E., Myers, T. A., Namatame, H., Nassani, M. Z., Nerini, A., Neto, F., Neto, J., Neves, A. N., Ng, S. K., Nithiya, D., O, J., Obeid, S., Oda-Montecinos, C., Olapegba, P. O., Olonisakin, T. T., Omar, S. S., Örlygsdóttir, B., Özsoy, E., Otterbring, T., Pahl, S., Panasiti, M. S., Park, Y., Patwary, M. M., Pethö, T., Petrova, N., Pietschnig, J., Pourmahmoud, S., Prabhu, V. G., Poštuvan, V., Prokop, P., Ramseyer Winter, V. L., Razmus, M., Ru, T., Rupar, M., Sahlan, R. N., Hassan, M. S., Šalov, A., Sapkota, S., Sarfo, J. O., Sawamiya, Y., Schaefer, K., Schulte-Mecklenbeck, M., Seekis, V., Selvi, K., Sharifi, M., Shrivastava, A., Siddique, R. F., Sigurdsson, V., Silkane, V., Šimunić, A., Singh, G., Slezáčková, A., Sundgot-Borgen, C., Ten Hoor, G., Tevichapong, P., Tipandjan, A., Todd, J., Togas, C., Tonini, F., Tovar-Castro, J. C., Trangsrud, L. K. J., Tripathi, P., Tudorel, O., Tylka, T. L., Uyzbayeva, A., Vally, Z., Vanags, E., Vega, L. D., Vicente-Arruebarrena, A., Vidal-Mollón, J., Vilar, R., Villegas, H., Vintilă, M., Wallner, C., White, M. P., Whitebridge, S., Windhager, S., Wong, K. Y., Yau, E. K., Yamamiya, Y., Yeung, V. W. L., Zanetti, M. C., Zawisza, M., Zeeni, N., Zvaríková, M., and Voracek, M.

Abstract

The Body Appreciation Scale-2 (BAS-2) is a widely used measure of a core facet of the positive body image construct. However, extant research concerning measurement invariance of the BAS-2 across a large number of nations remains limited. Here, we utilised the Body Image in Nature (BINS) dataset – with data collected between 2020 and 2022 – to assess measurement invariance of the BAS-2 across 65 nations, 40 languages, gender identities, and age groups. Multi-group confirmatory factor analysis indicated that full scalar invariance was upheld across all nations, languages, gender identities, and age groups, suggesting that the unidimensional BAS-2 model has widespread applicability. There were large differences across nations and languages in latent body appreciation, while differences across gender identities and age groups were negligible-to-small. Additionally, greater body appreciation was significantly associated with higher life satisfaction, being single (versus being married or in a committed relationship), and greater rurality (versus urbanicity). Across a subset of nations where nation-level data were available, greater body appreciation was also significantly associated with greater cultural distance from the United States and greater relative income inequality. These findings suggest that the BAS-2 likely captures a near-universal conceptualisation of the body appreciation construct, which should facilitate further cross-cultural research.

Published
2023

47. Atezolizumab, bevacizumab, and chemotherapy for newly diagnosed stage III or IV ovarian cancer: Placebo-controlled randomized phase III trial (IMagyn050/GOG 3015/ENGOT-OV39)

Author

Moore, K, Bookman, M, Sehouli, J, Miller, A, Anderson, C, Scambia, G, Myers, T, Taskiran, C, Robison, K, Maenpaa, J, Willmott, L, Colombo, N, Thomes-Pepin, J, Liontos, M, Gold, M, Garcia, Y, Sharma, S, Darus, C, Aghajanian, C, Okamoto, A, Wu, X, Safin, R, Wu, F, Molinero, L, Maiya, V, Khor, V, Lin, Y, Pignata, S, Moore K. N., Bookman M., Sehouli J., Miller A., Anderson C., Scambia G., Myers T., Taskiran C., Robison K., Maenpaa J., Willmott L., Colombo N., Thomes-Pepin J., Liontos M., Gold M. A., Garcia Y., Sharma S. K., Darus C. J., Aghajanian C., Okamoto A., Wu X., Safin R., Wu F., Molinero L., Maiya V., Khor V. K., Lin Y. G., Pignata S., Moore, K, Bookman, M, Sehouli, J, Miller, A, Anderson, C, Scambia, G, Myers, T, Taskiran, C, Robison, K, Maenpaa, J, Willmott, L, Colombo, N, Thomes-Pepin, J, Liontos, M, Gold, M, Garcia, Y, Sharma, S, Darus, C, Aghajanian, C, Okamoto, A, Wu, X, Safin, R, Wu, F, Molinero, L, Maiya, V, Khor, V, Lin, Y, Pignata, S, Moore K. N., Bookman M., Sehouli J., Miller A., Anderson C., Scambia G., Myers T., Taskiran C., Robison K., Maenpaa J., Willmott L., Colombo N., Thomes-Pepin J., Liontos M., Gold M. A., Garcia Y., Sharma S. K., Darus C. J., Aghajanian C., Okamoto A., Wu X., Safin R., Wu F., Molinero L., Maiya V., Khor V. K., Lin Y. G., and Pignata S.

Abstract

PURPOSE To evaluate the addition of the humanized monoclonal antiprogrammed death ligand-1 (PD-L1) antibody, atezolizumab, to platinum-based chemotherapy and bevacizumab in newly diagnosed stage III or IV ovarian cancer (OC). METHODS This multicenter placebo-controlled double-blind randomized phase III trial (ClinicalTrials.gov identifier: NCT03038100) enrolled patients with newly diagnosed untreated International Federation of Gynecology and Obstetrics (FIGO) stage III or IV OC who either had undergone primary cytoreductive surgery with macroscopic residual disease or were planned to receive neoadjuvant chemotherapy and interval surgery. Patients were stratified by FIGO stage, Eastern Cooperative Oncology Group performance status, tumor immune cell PD-L1 staining, and treatment strategy and randomly assigned 1:1 to receive 3-weekly cycles of atezolizumab 1,200 mg or placebo (day 1, cycles 1-22), with paclitaxel plus carboplatin (day 1, cycles 1-6) plus bevacizumab 15 mg/kg (day 1, cycles 2-22), omitting perioperative bevacizumab in neoadjuvant patients. The co-primary end points were investigator-assessed progression-free survival and overall survival in the intention-to-treat and PD-L1-positive populations. RESULTS Between March 8, 2017, and March 26, 2019, 1,301 patients were enrolled. The median progression-free survival was 19.5 versus 18.4 months with atezolizumab versus placebo, respectively (hazard ratio, 0.92; 95% CI, 0.79 to 1.07; stratified log-rank P 5.28), in the intention-to-treat population and 20.8 versus 18.5 months, respectively (hazard ratio, 0.80; 95% CI, 0.65 to 0.99; P 5.038), in the PD-L1-positive population. The interim (immature) overall survival results showed no significant benefit from atezolizumab. The most common grade 3 or 4 adverse events were neutropenia (21% with atezolizumab v 21% with placebo), hypertension (18% v 20%, respectively), and anemia (12% v 12%). CONCLUSION Current evidence does not support the use of immune checkpoint

Published
2021

48. Shock Hugoniot measurements of single-crystal 1,3,5-triamino-2,4,6-trinitrobenzene (TATB) compressed to 83 GPa.

Author

Marshall, M. C., Fernandez-Pañella, A., Myers, T. W., Eggert, J. H., Erskine, D. J., Bastea, S., Fried, L. E., and Leininger, L. D.

Subjects
EXPLOSIVES, PREDICTION models, MEASUREMENT
Abstract

We present laser-driven shock Hugoniot measurements of single-crystal (SC) 1,3,5-triamino-2,4,6-trinitrobenzene (TATB) between 15 and 83 GPa, spanning pressures below and well above the Chapman–Jouguet pressure of ∼ 28 GPa for TATB formulations (TATB grains mixed with plastic binders at 5–10 wt. %). The new SC data are generally ∼ 3% more compressible than previously published data on neat and formulated TATB measured in gas-gun and explosive-driven experiments. An exception is at compressions in the density of ∼ 1.5 (∼ 30–40 GPa), where our new SC data exhibit significantly lower pressures than previous results on overdriven TATB formulations, suggesting that our SC samples remain largely unreacted below 35 GPa over the short nanosecond-time scales inherent to our laser-driven experiments. These novel equation-of-state measurements are a critical step toward understanding TATB in its most fundamental form and improving predictive modeling of TATB-based explosives. [ABSTRACT FROM AUTHOR]

Published
2020
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