Zobrazeno 1 - 10
of 120
pro vyhledávání: '"King, DK"'
Autor:
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, Pawar, R
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 path
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=od_______325::c442aef7f51f7ad7a3ae46eefb6031a7
https://escholarship.org/uc/item/9z90x8kx
https://escholarship.org/uc/item/9z90x8kx
Autor:
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, Polsky, Y
Publikováno v:
Journal of Geophysical Research: Solid Earth, vol 125, iss 12
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
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=od_______325::4fc832137d395d5ec23b75169d3ee4d7
https://escholarship.org/uc/item/1dx1v9bb
https://escholarship.org/uc/item/1dx1v9bb
Autor:
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, Strickland, CE
Publikováno v:
Rock Mechanics and Rock Engineering, vol 53, iss 11
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 significa
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=od_______325::4626a8331996d1d686fba63da3a29631
https://escholarship.org/uc/item/63z223b3
https://escholarship.org/uc/item/63z223b3
Autor:
Chen, Yu, Huang, Lianjie, Ajo-Franklin, J, Bauer, SJ, Baumgartner, T, Beckers, K, Blankenship, D, Bonneville, A, Boyd, L, Brown, ST, Burghardt, JA, Chen, T, Chen, Y, Condon, K, Cook, PJ, Dobson, PF, Doe, T, Doughty, CA, Elsworth, D, Feldman, J, Foris, A, Frash, LP, Frone, Z, Fu, P, Gao, K, Ghassemi, A, Gudmundsdottir, H, Guglielmi, Y, Guthrie, G, Haimson, B, Hawkins, A, Heise, J, Herrick, CG, Horn, M, Horne, RN, Horner, J, Hu, M, Huang, H, Huang, L, Im, K, Ingraham, M, Johnson, TC, Johnston, B, Karra, S, Kim, K, King, DK, Kneafsey, T, Knox, H, Knox, J, Kumar, D, Kutun, K, Lee, M, Li, K, Lopez, R, Maceira, M, Makedonska, N, Marone, C, Mattson, E, McClure, MW, McLennan, J, McLing, T, Mellors, RJ, Metcalfe, E, Miskimins, J, Morris, JP, Nakagawa, S, Neupane, G, Newman, G, Nieto, A, Oldenburg, CM, Pan, W, Pawar, R, Petrov, P, Pietzyk, B, Podgorney, R, Polsky, Y, Porse, S, Richard, S, Roberts, BQ, Robertson, M, Roggenthen, W, Rutqvist, J, Rynders, D, Santos-Villalobos, H, Schoenball, M, Schwering, P, Sesetty, V, Singh, A, Smith, MM, Sone, H, Strickland, CE, Su, J, Ulrich, C, Uzunlar, N, Vachaparampil, A, Valladao, CA, Vandermeer, W, Vandine, G, Vardiman, D, Vermeul, VR
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=od_______325::3c4870cadc14c4810813b13800558225
https://escholarship.org/uc/item/3fh4n12f
https://escholarship.org/uc/item/3fh4n12f
Autor:
Kneafsey, TJ, Dobson, PF, Ajo-Franklin, JB, Guglielmi, Y, Valladao, CA, Blankenship, DA, Schwering, PC, Knox, HA, White, MD, Johnson, TC, Strickland, CE, Vermuel, VR, Morris, JP, Fu, P, Mattson, E, Neupane, GH, Podgorney, RK, Doe, TW, Huang, L, Frash, LP, Ghassemi, A, Roggenthen, W, Bauer, SJ, Baumgartner, T, Beckers, K, Blankenship, D, Bonneville, A, Boyd, L, Brown, S, Brown, ST, Burghardt, JA, Chen, T, Chen, Y, Condon, K, Cook, PJ, Crandall, D, Doe, T, Doughty, CA, Elsworth, D, Feldman, J, Foris, A, Frone, Z, Gao, K, Gudmundsdottir, H, Guthrie, G, Haimson, B, Hawkins, A, Heise, J, Horn, M, Horne, RN, Horner, J, Hu, M, Huang, H, Im, KJ, Ingraham, M, Jayne, RS, Johnston, B, Karra, S, Kim, K, King, DK, Knox, H, Knox, J, Kumar, D, Kutun, K, Lee, M, Li, K, Lopez, R, Maceira, M, Mackey, P, Makedonska, N, Marone, CJ, McClure, MW, McLennan, J, McLing, T, Medler, C, Mellors, RJ, Metcalfe, E, Miskimins, J, Moore, J, Nakagawa, S, Neupane, G, Newman, G, Nieto, A, Oldenburg, CM, Pan, W, Paronish, T, Pawar, R, Petrov, P, Pietzyk, B
Copyright 2019 ARMA, American Rock Mechanics Association. The EGS (Enhanced Geothermal Systems) Collab project is performing stimulation and flow experiments in highly-monitored and well-characterized intermediate-scale (approximately10 to 20 meter)
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=od_______325::ad640f2c066a1beb0258b5350fd2de1d
https://escholarship.org/uc/item/27b9m9m4
https://escholarship.org/uc/item/27b9m9m4
Autor:
James, SR, Knox, HA, Preston, L, Knox, JM, Grubelich, MC, King, DK, Ajo-Franklin, JB, Johnson, TC, Morris, JP
Publikováno v:
The Leading Edge, vol 36, iss 12
James, SR; Knox, HA; Preston, L; Knox, JM; Grubelich, MC; King, DK; et al.(2017). Fracture detection and imaging through relative seismic velocity changes using distributed acoustic sensing and ambient seismic noise. Leading Edge, 36(12), 1009-1017. doi: 10.1190/tle36121009.1. Lawrence Berkeley National Laboratory: Retrieved from: http://www.escholarship.org/uc/item/2x163777
Leading Edge, vol 36, iss 12
James, SR; Knox, HA; Preston, L; Knox, JM; Grubelich, MC; King, DK; et al.(2017). Fracture detection and imaging through relative seismic velocity changes using distributed acoustic sensing and ambient seismic noise. Leading Edge, 36(12), 1009-1017. doi: 10.1190/tle36121009.1. Lawrence Berkeley National Laboratory: Retrieved from: http://www.escholarship.org/uc/item/2x163777
Leading Edge, vol 36, iss 12
© 2017 by The Society of Exploration Geophysicists. Fracture systems are important pathways for fluid and solute transport and exert a critical influence on the hydraulic properties of aquifers and reservoirs. Therefore, detailed knowledge of fractu
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=dedup_wf_001::6da28a35a65295431acbd93e3facd67a
https://escholarship.org/uc/item/2x163777
https://escholarship.org/uc/item/2x163777
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