Your search keyword '"Wilson, H.R."' showing total 324 results

1. Drift kinetic theory of the NTM magnetic islands in a finite beta general geometry tokamak plasma

Author

Dudkovskaia, A.V., primary, Bardoczi, L., additional, Connor, J.W., additional, Dickinson, D., additional, Hill, P., additional, Imada, K., additional, Leigh, S., additional, Richner, N., additional, Shi, T., additional, and Wilson, H.R., additional

Published

2022

2. Building-integrated photovoltaics (BIPV)

Author

Ferrara, C., primary, Wilson, H.R., additional, and Sprenger, W., additional

Published

2017

3. Contributors

Author

Baumgartner, F., primary, Bett, A.W., additional, Betts, T.R., additional, Cole, I.R., additional, Dirnberger, D., additional, Ferrara, C., additional, Fthenakis, V., additional, Gerstmaier, T., additional, Goss, B., additional, Gottschalg, R., additional, Goy, S., additional, Jordan, D., additional, Koubli, E., additional, Kurtz, S., additional, Palmer, D., additional, Pearsall, N.M., additional, Raugei, M., additional, Salas, V., additional, Sprenger, W., additional, Steiner, M., additional, Wilson, H.R., additional, and Woyte, A., additional

Published

2017

4. Linear gyrokinetic stability of a high β non-inductive spherical tokamak

Author

Patel, B.S., primary, Dickinson, D., additional, Roach, C.M., additional, and Wilson, H.R., additional

Published

2021

5. Evaluating BIPV Modules with Respect to Textural Appearance, Glare, Colour and Electricity Yield

Author

Wilson, H.R., Bueno, B., Eisenlohr, J., and Kuhn, T.E.

Published

2021

6. Conceptual design of a component test facility based on the spherical tokamak

Author

Voss, G.M., Davis, S., Dnestrovskij, A., Kirk, A., Knight, P.J., Loughlin, M., O’Brien, M.H., Sychugov, D., Tabasso, A., and Wilson, H.R.

Published

2008

7. Bridging two Worlds - Standards for BIPV

Author

Wilson, H.R.

Published

2020

8. Peeling-ballooning stability of tokamak plasmas with applied 3D magnetic fields

Author

Anastopoulos Tzanis, M.S., primary, Ham, C.J., additional, P.B., Snyder, additional, and Wilson, H.R., additional

Published

2020

9. Spherical tokamaks: Present status and role in the development of fusion power

Author

Morris, A.W., Akers, R.J., Counsell, G.F., Hender, T.C., Lloyd, B., Sykes, A., Voss, G.M., and Wilson, H.R.

Published

2005

10. Linear gyrokinetic stability of a high β non-inductive spherical tokamak.

Author

Patel, B.S., Dickinson, D., Roach, C.M., and Wilson, H.R.

Subjects

TOKAMAKS, FUSION reactors, PLASMA equilibrium, POWER plants

Abstract

Spherical tokamaks (STs) have been shown to possess properties desirable for a fusion power plant such as achieving high plasma β and having increased vertical stability. To understand the confinement properties that might be expected in the conceptual design for a high β ST fusion reactor, a 1 GW ST plasma equilibrium was analysed using local linear gyrokinetics to determine the type of micro-instabilities that arise. Kinetic ballooning modes and micro-tearing modes are found to be the dominant instabilities. The parametric dependence of these linear modes was determined and, from the insights gained, the equilibrium was tuned to find a regime marginally stable to all micro-instabilities at θ 0 = 0.0. This work identifies the most important micro-instabilities expected to generate turbulent transport in high β STs. The impact of such modes must be faithfully captured in first-principles-based reduced models of anomalous transport that are needed for predictive simulations. [ABSTRACT FROM AUTHOR]

Published

2022

11. Overview of the JET preparation for deuterium-tritium operation with the ITER like-wall Recent citations

Author

Joffrin, E., Abduallev, S., Abhangi, M., Abreu, P., Afanasev, V., Afzal, M., Aggarwal, K.M., Ahlgren, T., Aho-Mantila, L., Aiba, N., Airila, M., Alarcon, T., Albanese, R., Alegre, D., Aleiferis, S., Alessi, E., Aleynikov, P., Alkseev, A., Allinson, M., Alper, B., Alves, E., Ambrosino, G., Ambrosino, R., Amosov, V., Andersson Sundén, E., Andrews, R., Angelone, M., Anghel, M., Angioni, C., Appel, L., Appelbee, C., Arena, P., Ariola, M., Arshad, S., Artaud, J., Arter, W., Ash, A., Ashikawa, N., Aslanyan, V., Asunta, O., Asztalos, O., Auriemma, F., Austin, Y., Avotina, L., Axton, M., Ayres, C., Baciero, A., Baião, D., Balboa, I., Balden, M., Balshaw, N., Bandaru, V.K., Banks, J., Baranov, Y.F., Barcellona, C., Barnard, T., Barnes, M., Barnsley, R., Baron Wiechec, A., Barrera Orte, L., Baruzzo, M., Basiuk, V., Bassan, M., Bastow, R., Batista, A., Batistoni, P., Baumane, L., Bauvir, B., Baylor, L., Beaumont, P.S., Beckers, M., Beckett, B., Bekris, N., Beldishevski, M., Bell, K., Belli, F., Belonohy, E., Benayas, J., Bergsåker, H., Bernardo, J., Bernert, M., Berry, M., Bertalot, L., Besiliu, C., Betar, H., Beurskens, M., Bielecki, J., Biewer, T., Bilato, R., Biletskyi, O., Bílková, P., Binda, F., Birkenmeier, G., Bizarro, J.P.S., Björkas, C., Blackburn, J., Blackman, T.R., Blanchard, P., Blatchford, P., Bobkov, V., Boboc, A., Bogar, O., Bohm, P., Bohm, T., Bolshakova, I., Bolzonella, T., Bonanomi, N., Boncagni, L., Bonfiglio, D., Bonnin, X., Boom, J., Borba, D., Borodin, D., borodkina, I., Boulbe, C., Bourdelle, C., Bowden, M., Bowman, C., Boyce, T., Boyer, H., Bradnam, S.C., Braic, V., Bravanec, R., Breizman, B., Brennan, D., Breton, S., Brett, A., Brezinsek, S., Bright, M., Brix, M., Broeckx, W., Brombin, M., Brosławski, A., Brown, B., Brunetti, D., Bruno, E., Buch, J., Buchanan, J., Buckingham, R., Buckley, M., Bucolo, M., Budny, R., Bufferand, H., Buller, S., Bunting, P., Buratti, P., Burckhart, A., Burroughes, G., Buscarino, A., Busse, A., Butcher, D., Butler, B., Bykov, I., Cahyna, P., Calabrò, G., Calacci, L., Callaghan, D., Callaghan, J., Calvo, I., Camenen, Y., Camp, P., Campling, D.C., Cannas, B., Capat, A., Carcangiu, S., Card, P., Cardinali, A., Carman, P., Carnevale, D., Carr, M., Carralero, D., Carraro, L., Carvalho, B.B., Carvalho, I., Carvalho, P., Carvalho, D.D., Casson, F.J., Castaldo, C., Catarino, N., Causa, F., Cavazzana, R., Cave-Ayland, K., Cavedon, M., Cecconello, M., Ceccuzzi, S., Cecil, E., Challis, C.D., Chandra, D., Chang, C.S., Chankin, A., Chapman, I.T., Chapman, B., Chapman, S.C., Chernyshova, M., Chiariello, A., Chitarin, G., Chmielewski, P., Chone, L., Ciraolo, G., Ciric, D., Citrin, J., Clairet, F., Clark, M., Clark, E., Clarkson, R., Clay, R., Clements, C., Coad, J.P., Coates, P., Cobalt, A., Coccorese, V., Cocilovo, V., Coelho, R., Coenen, J.W., Coffey, I., Colas, L., Colling, B., Collins, S., Conka, D., Conroy, S., Conway, N., Coombs, D., Cooper, S.R., Corradino, C., Corre, Y., Corrigan, G., Coster, D., Craciunescu, T., Cramp, S., Crapper, C., Crisanti, F., CROCI, G., Croft, D., Crombé, K., Cruz, N., Cseh, G., Cufar, A., Cullen, A., Curson, P., Curuia, M., Czarnecka, A., Czarski, T., Cziegler, I., Dabirikhah, H., Dal Molin, A., Dalgliesh, P., Dalley, S., Dankowski, J., Darrow, D., David, P., Davies, A., Davis, W., Dawson, K., Day, I., Day, C., De Bock, M., de Castro, A., De Dominici, G., De La Cal, E., De La Luna, E., De Masi, G., De Temmerman, G., De Tommasi, G., De Vries, P., Deane, J., Dejarnac, R., Del Sarto, D., Delabie, E., Demerdzhiev, V., Dempsey, A., Den Harder, N., Dendy, R.O., Denis, J., Denner, P., Devaux, S., Devynck, P., Di Maio, F., Di Siena, A., Di Troia, C., Dickinson, D., Dinca, P., Dittmar, T., Dobrashian, J., Doerk, H., Doerner, R.P., Domptail, F., Donné, T., Dorling, S.E., Douai, D., Dowson, S., Drenik, A., Dreval, M., Drewelow, P., Drews, P., Duckworth, Ph., Dumont, R., Dumortier, P., Dunai, D., Dunne, M., Ďuran, I., Durodié, F., Dutta, P., Duval, B.P., Dux, R., Dylst, K., Edappala, P.V., Edwards, A.M., Edwards, J.S., Eich, Th., Eidietis, N., Eksaeva, A., Ellis, R., Ellwood, G., Elsmore, C., Emery, S., Enachescu, M., Ericsson, G., Eriksson, J., Eriksson, F., Eriksson, L.G., Ertmer, S., Esquembri, S., Esquisabel, A.L., Esser, H.G., Ewart, G., Fable, E., Fagan, D., Faitsch, M., Falie, D., Fanni, A., Farahani, A., Fasoli, A., Faugeras, B., Fazinić, S., Felici, F., Felton, R.C., Feng, S., Fernades, A., Fernandes, H., Ferreira, J., Ferreira, D.R., Ferro, G., Fessey, J.A., Ficker, O., Field, A., Fietz, S., Figini, L., Figueiredo, A., Figueiredo, J., Fil, N., Finburg, P., Fischer, U., Fittill, L., Fitzgerald, M., Flammini, D., Flanagan, J., Flinders, K., Foley, S., Fonnesu, N., Fontdecaba, J.M., Formisano, A., Forsythe, L., Fortuna, L., Fransson, E., Frasca, M., Frassinetti, L., Freisinger, M., Fresa, R., Fridström, R., Frigione, D., Fuchs, V., Fusco, V., Futatani, S., Gál, K., Galassi, D., Gałązka, K., Galeani, S., Gallart, D., Galvão, R., Gao, Y., Garcia, J., Garcia-Carrasco, A., García-Muñoz, M., Gardener, M., Garzotti, L., Gaspar, J., Gaudio, P., Gear, D., Gebhart, T., Gee, S., Geiger, B., Gelfusa, M., George, R., Gerasimov, S., Gervasini, G., Gethins, M., Ghani, Z., Ghate, M., Gherendi, M., Ghezzi, F., Giacalone, J.C., Giacomelli, L., Giacometti, G., Gibson, K., Giegerich, T., Gil, L., Gilbert, M.R., Gin, D., Giovannozzi, E., Giroud, C., Glöggler, S., Goff, J., Gohil, P., Goloborod’ko, V., Goloborodko, V., Gomes, R., Gonçalves, B., Goniche, M., Goodyear, A., Gorini, G., Görler, T., Goulding, R., Goussarov, A., Graham, B., Graves, J.P., Greuner, H., Grierson, B., Griffiths, J., Griph, S., Grist, D., Groth, M., Grove, R., Gruca, M., Guard, D., Guérard, C., Guillemaut, C., Guirlet, R., Gulati, S., Gurl, C., Gutierrez-Milla, A., Utoh, H.H., Hackett, L., Hacquin, S., Hager, R., Hakola, A., Halitovs, M., Hall, S., Hallworth-Cook, S., Ham, C., Hamed, M., Hamilton, N., Hamlyn-Harris, C., Hammond, K., Hancu, G., Harrison, J., Harting, D., Hasenbeck, F., Hatano, Y., Hatch, D.R., Haupt, T., Hawes, J., Hawkes, N.C., Hawkins, J., Hawkins, P., Hazel, S., Heesterman, P., Heinola, K., Hellesen, C., Hellsten, T., Helou, W., Hemming, O., Hender, T.C., Henderson, S.S., Henderson, M., Henriques, R., Hepple, D., Herfindal, J., Hermon, G., Hidalgo, C., Higginson, W., Highcock, E.G., Hillesheim, J., Hillis, D., Hizanidis, K., Hjalmarsson, A., Ho, A., Hobirk, J., Hogben, C.H.A., Hogeweij, G.M.D., Hollingsworth, A., Hollis, S., Hölzl, M., Honore, J.-J., Hook, M., Hopley, D., Horáček, J., Hornung, G., Horton, A., Horton, L.D., Horvath, L., Hotchin, S.P., Howell, R., Hubbard, A., Huber, A., Huber, V., Huddleston, T.M., Hughes, M., Hughes, J., Huijsmans, G.T.A., Huynh, P., Hynes, A., Igaune, I., Iglesias, D., Imazawa, N., Imríšek, M., Incelli, M., Innocente, P., Ivanova-Stanik, I., Ivings, E., Jachmich, S., Jackson, A., Jackson, T., Jacquet, P., Jansons, J., Jaulmes, F., Jednoróg, S., Jenkins, I., Jepu, I., Johnson, T., Johnson, R., Johnston, J., Joita, L., Joly, J., Jonasson, E., Jones, T., Jones, C., Jones, L., Jones, G., Jones, N., Juvonen, M., Hoshino, K.K., Kallenbach, A., Kalsey, M., Kaltiaisenaho, T., Kamiya, K., Kaniewski, J., Kantor, A., Kappatou, A., Karhunen, J., Karkinsky, D., Kaufman, M., Kaveney, G., Kazakov, Y., Kazantzidis, V., Keeling, D.L., Keenan, F.P., Kempenaars, M., Kent, O., Kent, J., Keogh, K., Khilkevich, E., Kim, H.-T., King, R., King, D., Kinna, D.J., Kiptily, V., Kirk, A., Kirov, K., Kirschner, A., Kizane, G., Klas, M., Klepper, C., Klix, A., Knight, M., Knight, P., Knipe, S., Knott, S., Kobuchi, T., Köchl, F., Kocsis, G., Kodeli, I., Koechl, F., Kogut, D., Koivuranta, S., Kolesnichenko, Y., Kollo, Z., Kominis, Y., Köppen, M., Korolczuk, S., Kos, B., Koslowski, H.R., Kotschenreuther, M., Koubiti, M., Kovaldins, R., Kovanda, O., Kowalska-Strzęciwilk, E., Krasilnikov, A., Krasilnikov, V., Krawczyk, N., Kresina, M., Krieger, K., Krivska, A., Kruezi, U., Książek, I., Kukushkin, A., Kundu, A., Kurki-Suonio, T., Kwak, S., Kwon, O.J., Laguardia, L., Lahtinen, A., Laing, A., Lalousis, P., Lam, N., Lamb, C., Lambertz, H.T., Lang, P.T., Lanthaler, S., Lascas Neto, E., Łaszyńska, E., Lawless, R., Lawson, K.D., Lazaros, A., Lazzaro, E., Leach, R., Learoyd, G., Leerink, S., Lefebvre, X., Leggate, H.J., Lehmann, J., Lehnen, M., Leichauer, P., Leichtle, D., Leipold, F., Lengar, I., Lennholm, M., Lepiavko, B., Leppänen, J., Lerche, E., Lescinskis, A., Lescinskis, B., Lesnoj, S., Leyland, M., Leysen, W., Li, Y., Li, L., Liang, Y., Likonen, J., Linke, J., Linsmeier, Ch., Lipschultz, B., Litaudon, X., Liu, G., Lloyd, B., Lo Schiavo, V.P., Loarer, T., Loarte, A., Lomanowski, B., Lomas, P.J., Lönnroth, J., López, J.M., Lorenzini, R., Losada, U., Loughlin, M., Lowry, C., Luce, T., Lucock, R., Lukin, A., Luna, C., Lungaroni, M., Lungu, C.P., Lungu, M., Lunniss, A., Lunt, T., Lupelli, I., Lutsenko, V., Lyssoivan, A., Macheta, P., Macusova, E., Magesh, B., Maggi, C., Maggiora, R., Mahesan, S., Maier, H., Mailloux, J., Maingi, R., Makwana, R., Malaquias, A., Malinowski, K., Malizia, A., Manas, P., Manduchi, G., Manso, M.E., Mantica, P., Mantsinen, M., Manzanares, A., Maquet, Ph., Marandet, Y., Marcenko, N., Marchetto, C., Marchuk, O., Marconato, N., Mariani, A., Marin, M., Marinelli, M., Marinucci, M., Markovič, T., Marocco, D., Marot, L., Marsh, J., Martin, A., Martin De Aguilera, A., Martín-Solís, J.R., Martone, R., Martynova, Y., Maruyama, S., Maslov, M., Matejcik, S., Mattei, M., Matthews, G.F., Matveev, D., Matveeva, E., Mauriya, A., Maviglia, F., May-Smith, T., Mayer, M., Mayoral, M.L., Mazon, D., Mazzotta, C., Mcadams, R., McCarthy, P.J., McClements, K.G., McCormack, O., McCullen, P.A., Mcdonald, D., McHardy, M., McKean, R., McKehon, J., McNamee, L., Meadowcroft, C., Meakins, A., Medley, S., Meigh, S., Meigs, A.G., Meisl, G., Meiter, S., Meitner, S., Meneses, L., Menmuir, S., Mergia, K., Merle, A., Merriman, P., Mertens, Ph., Meshchaninov, S., Messiaen, A., Meyer, H., Michling, R., Milanesio, D., Militello, F., Militello-Asp, E., Milocco, A., Miloshevsky, G., Mink, F., Minucci, S., Miron, I., Mistry, S., Miyoshi, Y., Mlynář, J., Moiseenko, V., Monaghan, P., Monakhov, I., Moon, S., Mooney, R., Moradi, S., Morales, J., Moran, J., Mordijck, S., Moreira, L., Moro, F., Morris, J., Moser, L., Mosher, S., Moulton, D., Mrowetz, T., Muir, A., Muraglia, M., Murari, A., Muraro, A., Murphy, S., Muscat, P., Muthusonai, N., Myers, C., Asakura, N.N., N’Konga, B., Nabais, F., Naish, R., Naish, J., Nakano, T., Napoli, F., Nardon, E., Naulin, V., Nave, M.F.F., Nedzelskiy, I., Nemtsev, G., Nesenevich, V., Nespoli, F., Neto, A., Neu, R., Neverov, V.S., Newman, M., Ng, S., Nicassio, M., Nielsen, A.H., Nina, D., Nishijima, D., Noble, C., Nobs, C.R., Nocente, M., Nodwell, D., Nordlund, K., Nordman, H., Normanton, R., Noterdaeme, J.M., Nowak, S., Nunes, I., O’Gorman, T., O’Mullane, M., Oberkofler, M., Oberparleiter, M., Odupitan, T., Ogawa, M.T., Okabayashi, M., Oliver, H., Olney, R., Omoregie, L., Ongena, J., Orsitto, F., Orszagh, J., Osborne, T., Otin, R., Owen, A., Owen, T., Paccagnella, R., Packer, L.W., Pajuste, E., Pamela, S., Panja, S., Papp, P., Papp, G., Parail, V., Pardanaud, C., Parra Diaz, F., Parsloe, A., Parsons, N., Parsons, M., Pasqualotto, R., Passeri, M., Patel, A., Pathak, S., Patten, H., Pau, A., Pautasso, G., Pavlichenko, R., Pavone, A., Pawelec, E., Paz Soldan, C., Peackoc, A., Pehkonen, S.-P., Peluso, E., Penot, C., Penzo, J., Pepperell, K., Pereira, R., Perelli Cippo, E., Perez von Thun, C., Pericoli, V., Peruzzo, S., Peterka, M., Petersson, P., Petravich, G., Petre, A., Petržilka, V., Philipps, V., Pigatto, L., Pillon, M., Pinches, S., Pintsuk, G., Piovesan, P., Pires de Sa, W., Pires dos Reis, A., Piron, L., Piron, C., Pironti, A., Pisano, F., Pitts, R., Plyusnin, V., Poli, F.M., Pomaro, N., Pompilian, O.G., Pool, P., Popovichev, S., Poradziński, M., Porfiri, M.T., Porosnicu, C., Porton, M., Possnert, G., Potzel, S., Poulipoulis, G., Powell, T., Prajapati, V., Prakash, R., Predebon, I., Prestopino, G., Price, D., Price, M., Price, R., Primetzhofer, D., Prior, P., Pucella, G., Puglia, P., Puiatti, M.E., Purahoo, K., Pusztai, I., Pütterich, Th., Rachlew, E., Rack, M., Ragona, R., Rainford, M., Raj, P., Rakha, A., Ramogida, G., Ranjan, S., Rapson, C.J., Rasmussen, D., Rasmussen, J.J., Rathod, K., Rattá, G., Ratynskaia, S., Ravera, G., Rebai, M., Reed, A., Réfy, D., Regaña, J., Reich, M., Reid, N., Reimold, F., Reinhart, M., Reinke, M., Reiser, D., Rendell, D., Reux, C., Reyes Cortes, S.D.A., Reynolds, S., Ricci, D., Richiusa, M., Rigamonti, D., Rimini, F.G., Risner, J., Riva, M., Rivero-Rodriguez, J., Roach, C., Robins, R., Robinson, S., Robson, D., Rodionov, R., Rodrigues, P., Rodriguez, J., Rohde, V., Romanelli, Marco, Romanelli, F., Romanelli, S., Romazanov, J., Rowe, S., Rubel, M., Rubinacci, G., Rubino, G., Ruchko, L., Ruset, C., Rzadkiewicz, J., Saarelma, S., Sabot, R., Sáez, X., Safi, E., Sahlberg, A., Saibene, G., Saleem, M., Salewski, M., Salmi, A., Salmon, R., Salzedas, F., Samm, U., Sandiford, D., Santa, P., Santala, M.I.K., Santos, B., Santucci, A., Sartori, F., Sartori, R., Sauter, O., Scannell, R., Schluck, F., Schlummer, T., Schmid, K., Schmuck, S., Schöpf, K., Schweinzer, J., SCHWÖRER, D., Scott, S.D., Sergienko, G., Sertoli, M., Shabbir, A., Sharapov, S.E., Shaw, A., Sheikh, H., Shepherd, A., Shevelev, A., Shiraki, D., Shumack, A., Sias, G., Sibbald, M., Sieglin, B., Silburn, S., Silva, J., Silva, A., Silva, C., Silvagni, D., Simmons, P., Simpson, J., Sinha, A., Sipilä, S.K., Sips, A.C.C., Sirén, P., Sirinelli, A., Sjöstrand, H., Skiba, M., Skilton, R., Skvara, V., Slade, B., Smith, R., Smith, P., Smith, S.F., Snoj, L., Soare, S., Solano, E.R., Somers, A., Sommariva, C., Sonato, P., Sos, M., Sousa, J., Sozzi, C., Spagnolo, S., Sparapani, P., Spelzini, T., Spineanu, F., Sprada, D., Sridhar, S., Stables, G., Stallard, J., Stamatelatos, I., Stamp, M.F., Stan-Sion, C., Stancar, Z., Staniec, P., Stankūnas, G., Stano, M., Stavrou, C., Stefanikova, E., Stepanov, I., Stephen, A.V., Stephen, M., Stephens, J., Stevens, B., Stober, J., Stokes, C., Strachan, J., Strand, P., Strauss, H.R., Ström, P., Studholme, W., Subba, F., Suchkov, E., Summers, H.P., Sun, H., Sutton, N., Svensson, J., Sytnykov, D., Szabolics, T., Szepesi, G., Suzuki, T.T., Tabarés, F., Tadić, T., Tal, B., Tál, B., Tala, T., Taliercio, C., Tallargio, A., Tanaka, K., Tang, W., Tardocchi, M., Tatali, R., Taylor, D., Tegnered, D., Telesca, G., Teplova, N., Teplukhina, A., Terranova, D., Terry, C., Testa, D., Tholerus, E., Thomas, J., Thompson, V.K., Thornton, A., Tierens, W., Tiseanu, I., Tojo, H., Tokitani, M., Tolias, P., Tomeš, M., Trimble, P., Tripský, M., Tsalas, M., Tsavalas, P., Tskhakaya, D., Tskhakaya Jun, D., Turner, I., Turner, M.M., Turnyanskiy, M., Tvalashvili, G., Tyshchenko, M., Uccello, A., Uljanovs, J., Urano, H., Urban, A., Urbanczyk, G., Uytdenhouwen, I., Vadgama, A., Valcarcel, D., Vale, R., Valentinuzzi, M., Valerii, K., Valisa, M., Vallejos Olivares, P., Valovic, M., Van Eester, D., Van Renterghem, W., van Rooij, G.J., Varje, J., Vartanian, S., Vasava, K., Vasilopoulou, T., Vecsei, M., Vega, J., Ventre, S., Verdoolaege, G., Verona, C., Verona Rinati, G., Veshchev, E., Vianello, N., Vicente, J., Viezzer, E., Villari, S., Villone, F., Vincent, M., Vincenzi, P., Vinyar, I., Viola, B., Vitins, A., Vizvary, Z., Vlad, M., Voitsekhovitch, I., Voltolina, D., von Toussaint, U., Vondráček, P., Vukšić, M., Wakeling, B., Waldon, C., Walkden, N., Walker, R., Walker, M., Walsh, M., Wang, E., Wang, N., Warder, S., Warren, R., Waterhouse, J., Watts, C., Wauters, T., Webb, M., Weckmann, A., Weiland, J., Weiland, M., Weisen, H., Weiszflog, M., Welch, P., West, A., Wheatley, M., Wheeler, S., Whitehead, A.M., Whittaker, D., Widdowson, A.M., Wiesen, S., Wilkie, G., Williams, J., Willoughby, D., Wilson, J., Wilson, I., Wilson, H.R., Wischmeier, M., Withycombe, A., Witts, D., Wolfrum, E., Wood, R., Woodley, R., Woodley, C., Wray, S., Wright, J.C., Wright, P., Wukitch, S., Wynn, A., Xiang, L., Xu, T., Xue, Y., Yadikin, D., Yakovenko, Y., Yanling, W., Yavorskij, V., Young, I., Young, R., Young, D., Zacks, J., Zagorski, R., Zaitsev, F.S., Zakharov, L., Zanino, R., Zarins, A., Zarins, R., Zarzoso Fernandez, D., Zastrow, K.D., Zerbini, M., Zhang, W., Zhou, Y., Zilli, E., Zocco, A., Zoita, V., Zoletnik, S., Zwingmann, W., Zychor, I., CEA Cadarache, Commissariat à l'énergie atomique et aux énergies alternatives (CEA), VTT Technical Research Centre of Finland (VTT), Naka Fusion Institute, National Institutes for Quantum and Radiological Science and Technology (QST), Association EURATOM-TEKES, Association EURATOM-TEKES, Helsinki University of Technology, Finland, Institut de Recherche sur la Fusion par confinement Magnétique (IRFM), STMicroelectronics, EURATOM/CCFE Fusion Association, Culham Science Centre [Abingdon], Assoc. Euratom-ENEA-CREATE, Università degli studi di Napoli Federico II, Universita degli studi di Napoli 'Parthenope' [Napoli], Queen's University [Kingston], Max-Planck-Institut für Plasmaphysik [Garching] (IPP), Università degli studi di Catania [Catania], National Institute for Fusion Science (NIFS), Massachusetts Institute of Technology (MIT), Culham Centre for Fusion Energy (CCFE), North Carolina State University [Raleigh] (NC State), University of North Carolina System (UNC), Conseil National de Recherches Canada (CNRC), ITER Organization, Consorzio RFX, Associazione Euratom/ENEA sulla Fusione (RFX), Italian National Agency for New Technologies, Energy and Sustainable Economic Development (ENEA), EUROfus Program Management Unit PMU, European Fusion Development Agreement [Garching bei München] ( EFDA-CSU), ITER [St. Paul-lez-Durance], ITER, H. Niewodniczanski Institute of Nuclear Physics, Polska Akademia Nauk (PAN), Maladies chroniques, santé perçue, et processus d'adaptation (APEMAC), Université de Lorraine (UL), Cités, Territoires, Environnement et Sociétés (CITERES), Université de Tours-Centre National de la Recherche Scientifique (CNRS), Euratom/UKAEA Fusion Assoc., Magnetic Sensor laboratory [Lviv] (MSL), National Polytechnic University of Lviv (LPNU), Bar-Ilan University [Israël], The National Research Nuclear University MEPhI (Moscow Engineering Physics Institute) [Moscow, Russia], Institute of Energy and Climate Research - Plasma Physics (IEK-4), Forschungszentrum Jülich GmbH, Institute for Problems of Material Science, National Academy of Sciences of Ukraine (NASU), Institute of Plasma Physics [Praha], Czech Academy of Sciences [Prague] (ASCR), Istituto di Fisica del Plasma, EURATOM-ENEA-CNR Association, Consiglio Nazionale delle Ricerche [Roma] (CNR), Physique des interactions ioniques et moléculaires (PIIM), Aix Marseille Université (AMU)-Centre National de la Recherche Scientifique (CNRS), Dipartimento di Informatica Sistemi e Produzione, University of Rome Tor Vergata (DISP), Università degli Studi di Roma Tor Vergata [Roma], Département Méthodes et Modèles Mathématiques pour l'Industrie (3MI-ENSMSE), École des Mines de Saint-Étienne (Mines Saint-Étienne MSE), Institut Mines-Télécom [Paris] (IMT)-Institut Mines-Télécom [Paris] (IMT)-Centre G2I, Instituto de Plasmas e Fusão Nuclear [Lisboa] (IPFN), Instituto Superior Técnico, Universidade Técnica de Lisboa (IST), Institute for Plasma Research, Bhat, Gandhinagar India, Jet Propulsion Laboratory (JPL), NASA-California Institute of Technology (CALTECH), Institute of Plasma Physics and Laser Microfusion [Warsaw] (IPPLM), Dutch Institute for Fundamental Energy Research [Eindhoven] (DIFFER), Astrophysics Research Centre [Belfast] (ARC), Queen's University [Belfast] (QUB), Associazone EURATOM ENEA sulla Fusione, EURATOM, Laboratoire de physique des plasmas de l'ERM, Laboratorium voor plasmafysica van de KMS (LPP ERM KMS), Ecole Royale Militaire / Koninklijke Militaire School (ERM KMS), Centro de Investigaciones Energéticas Medioambientales y Tecnológicas [Madrid] (CIEMAT), Institut für Physik, University of Basel (Unibas), Institute of Plasma Physics, Association Euratom/IPP.CR (IPP PRAGUE), Institut Jean Lamour (IJL), Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS), Dutch Institute for Fundamental Energy Research [Nieuwegein] (DIFFER), Dipartimento di Energia [Milano] (DENG), Politecnico di Milano [Milan] (POLIMI), NIPNE -Bucharest-Magurele (NIPNE), NIPNE, Laboratory for Plasma Physics (LPP), Ecole Polytechnique Fédérale de Lausanne (EPFL), Département d'Astrophysique, de physique des Particules, de physique Nucléaire et de l'Instrumentation Associée (DAPNIA), Centre de Recherches en Physique des Plasmas (CRPP), Laboratoire Jean Alexandre Dieudonné (JAD), Université Nice Sophia Antipolis (... - 2019) (UNS), Université Côte d'Azur (UCA)-Université Côte d'Azur (UCA)-Centre National de la Recherche Scientifique (CNRS), Southern University of Science and Technology [Shenzhen] (SUSTech), Institut de Planétologie et d'Astrophysique de Grenoble (IPAG), Centre National d'Études Spatiales [Toulouse] (CNES)-Université Grenoble Alpes (UGA)-Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire des Sciences de l'Univers de Grenoble (OSUG), Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Université Joseph Fourier - Grenoble 1 (UJF)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS), University of Évora [Portugal], Laboratoire de Spectrochimie Infrarouge et Raman - UMR 8516 (LASIR), Centre National de la Recherche Scientifique (CNRS)-Université de Lille, Dipartimento di Ingegneria Elettrica Elettronica e dei Sistemi, Department of Physics [Stockholm], Stockholm University, Laboratoire de Mécanique, Modélisation et Procédés Propres (M2P2), Aix Marseille Université (AMU)-École Centrale de Marseille (ECM)-Centre National de la Recherche Scientifique (CNRS), Sichuan University, Istituto Nazionale di Geofisica e di Oceanografia Sperimentale (OGS), Operations Department (ESAC), European Space Astronomy Centre (ESAC), European Space Agency (ESA)-European Space Agency (ESA), A.F. Ioffe Physical-Technical Institute, Russian Academy of Sciences [Moscow] (RAS), EUROfusion, School of Biological, Earth and Environmental Sciences [Sydney] (BEES), University of New South Wales [Sydney] (UNSW), Association EURATOM-CEA (CEA/DSM/DRFC), Universität Ulm - Ulm University [Ulm, Allemagne], Department of Pharmaceutical Biology, Friedrich Schiller University Jena [Jena, Germany], Advanced Science Research Center, Japan Atomic Energy Agency, Consultative Group on International Agricultural Research [CGIAR], University of Helsinki, Division of Applied Nuclear Physics, Uppsala University, Box 516, SE-75120 Uppsala, Sweden, EURATOM CIEMAT (CIEMAT), European Centre for Medium-Range Weather Forecasts (ECMWF), Ghent University [Belgium] (UGENT), Centre for Glaciology, Institute of Geography and Earth Sciences, Ngee Ann Polytechnic, School of Engineering, Mechanical Engineering Division, Laboratory for Plasma Physics, Euratom-Belgian State Association-Ecole Royale Militaire / Koninklijke Militaire School (ERM KMS), Department of Materials, University of Oxford [Oxford], Department of Fusion Plasma Physics [Stockholm] (KTH), Royal Institute of Technology [Stockholm] (KTH ), Meteorological Research Flight (MRF), United Kingdom Met Office [Exeter]-Defense Research Agency (DRA), University of Southern Queensland (USQ), Forschungszentrum Julich - Institut Energie & Klimaforsch, Oak Ridge National Laboratory [Oak Ridge] (ORNL), UT-Battelle, LLC, Karlsruhe Institute of Technology (KIT), Institut fur Energie und Klimaforschung - Plasmaphysik (IEK-4), CEA-Direction de l'Energie Nucléaire (CEA-DEN), Gulliver, ESPCI ParisTech-Centre National de la Recherche Scientifique (CNRS), National Center for Atmospheric Research [Boulder] (NCAR), Aalto University, Institut Européen des membranes (IEM), Université de Montpellier (UM)-Université Montpellier 2 - Sciences et Techniques (UM2)-Ecole Nationale Supérieure de Chimie de Montpellier (ENSCM)-Centre National de la Recherche Scientifique (CNRS), System Design Department, IHP Microelctronics, LPSM UMR 8001 - Laboratoire de Probabilités, Statistique et Modélisation, York Plasma Institute (YPI), University of York [York, UK], Centre for Plasma Physics, Association EURATOM, Guizhou Institute of Technology, Laboratoire d'Énergétique Moléculaire et Macroscopique, Combustion (EM2C), CentraleSupélec-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Aalto University School of Science and Technology, PELIN Laboratory, 27A, Gzhatskaya, Saint-Petersburg, Space Research Institute of the Russian Academy of Sciences (IKI), Faculty of Mathematics and Physics [Praha/Prague], Charles University [Prague], Euratom/UKEAE Fusion Association (JET), UKEA, INAF-IASF/Rome, Istituto Nazionale di Astrofisica (INAF), Ricerca Formazione Innovazione (Consorzio RFX), Consiglio Nazionale delle Ricerche (CNR), Barcelona Supercomputing Center - Centro Nacional de Supercomputacion (BSC - CNS), Service des Réacteurs et de Mathématiques Appliquées (SERMA), Département de Modélisation des Systèmes et Structures (DM2S), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-CEA-Direction de l'Energie Nucléaire (CEA-DEN), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, UMR CNRS 8179, Centre National de la Recherche Scientifique (CNRS)-Université de Lille, Sciences et Technologies, Institut de Génétique Moléculaire de Montpellier (IGMM), Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM), Institut Charles Sadron (ICS), Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS)-Matériaux et nanosciences d'Alsace, Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Réseau nanophotonique et optique, Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA), Department of Electronics, Politecnico di Torino [Torino] (Polito), Max Planck Institute for Plasma physics (IPP-MPG), Max-Planck-Gesellschaft, Nagoya University, Laboratoire de Physique des Plasmas (LPP), Université Paris-Sud - Paris 11 (UP11)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-École polytechnique (X)-Sorbonne Universités-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Photonics and photonic materials group, Departement of Physics, University of bath, University of Bath [Bath], Consorzio RFX Associazione EURATOM ENEA per la Fusione, EUROfusion Consortium, JET, Center for Energy Research, Department of Mechanical and Aerospace Engineering (CER), University of California [San Diego] (UC San Diego), University of California-University of California, Università degli Studi di Milano-Bicocca [Milano] (UNIMIB), Department of Physics and Helsinki Institute of Physics, Institute for Astronomy [Honolulu], University of Hawai‘i [Mānoa] (UHM), Aix Marseille Université (AMU), Department of General Surgery, University Hospital Aintree, Science des Procédés Céramiques et de Traitements de Surface (SPCTS), Université de Limoges (UNILIM)-Ecole Nationale Supérieure de Céramique Industrielle (ENSCI)-Institut des Procédés Appliqués aux Matériaux (IPAM), Université de Limoges (UNILIM)-Université de Limoges (UNILIM)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Centre Hospitalier Régional Universitaire [Montpellier] (CHRU Montpellier), Uppsala University, Section of Theoretical Physics, Association EURATOM-Hellenic Republic-University of Ioannina, University of Colorado Anschutz [Aurora], Indian Institute of Technology Madras (IIT Madras), Novel Materials & Structural Chemistry Division (NMSCD), Bhabha Atomic Research Center (BARC), Government of India, Department of Atomic Energy-Government of India, Department of Atomic Energy, Italian National agency for new technologies, Energy and sustainable economic development [Frascati] (ENEA), Dipartimento di Fisica G. Occhialini, Universit`a Milano-Bicocca and INFN, Centre oscar lambert, service d'hématologie chu, INFM and L-NESS, Dipartimento di Fisica del Politecnico di Milano, National Institute for Nuclear Physics (INFN), Centre de résonance magnétique biologique et médicale (CRMBM), Aix Marseille Université (AMU)-Assistance Publique - Hôpitaux de Marseille (APHM)-Centre National de la Recherche Scientifique (CNRS), Département d'Astrophysique (ex SAP) (DAP), Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Dipartimento di Scienze della Terra [Trieste], Università degli studi di Trieste, Dipartimento di Ingegneria Elettrica e delle Tecnologie dell'Informazione [Napoli] (DIETI), Università degli studi della Tuscia [Viterbo], Soltan Institute for Nuclear Studies, Laboratoire d'Etude des Matériaux en Milieux Agressifs (LEMMA), Université de La Rochelle (ULR), ISL, Blackett Laboratory, Imperial College London, Université de Rouen Normandie (UNIROUEN), Normandie Université (NU), Mullard Space Science Laboratory (MSSL), University College of London [London] (UCL), Jozef Stefan Institute [Ljubljana] (IJS), National Institute for Research and Development for Cryogenic and Isotopic Technologies [Valcea] (ICSI), Hydrosystèmes et bioprocédés (UR HBAN), Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), Service de réanimation médicale, Assistance publique - Hôpitaux de Paris (AP-HP) (APHP)-Université Paris Diderot - Paris 7 (UPD7)-Groupe Hospitalier Saint Louis - Lariboisière - Fernand Widal [Paris], Assistance publique - Hôpitaux de Paris (AP-HP) (APHP), Unité de Recherche sur les Maladies Infectieuses Tropicales Emergentes (URMITE), Unité de Recherche sur les Maladies Infectieuses et Tropicales Emergentes (URMITE), Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Institut National de la Santé et de la Recherche Médicale (INSERM)-IFR48, INSB-INSB-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Institut National de la Santé et de la Recherche Médicale (INSERM)-IFR48, INSB-INSB-Centre National de la Recherche Scientifique (CNRS), EURATOM-VR Fusion Assoc., Chalmers University of Technology [Göteborg], Faculty of Mathematics, Physics and Informatics [Bratislava], Comenius University [Bratislava], Department of Physics and Applied Physics (DPAP), University of Strathclyde, Institute of Oceanology [China], Technical Research Centre of Finland, JRC Institute for Transuranium Elements [Karlsruhe] (ITU ), European Commission - Joint Research Centre [Karlsruhe] (JRC), National Center for Scientific Research 'Demokritos' (NCSR), Laboratorio Nacional de Fusión [Madrid], Asociación Euratom-CIEMAT, Michigan State University [East Lansing], Michigan State University System, Unit of Lymphoid Malignancies, San Raffaele Scientific Institute, Università degli studi di Cassino e del Lazio Meridionale (UNICAS), Health and Safety Laboratory, Centre de Nanosciences et de Nanotechnologies [Orsay] (C2N), Université Paris-Sud - Paris 11 (UP11)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), California Institute of Technology (CALTECH)-NASA, Université de Lille, Sciences et Technologies-Centre National de la Recherche Scientifique (CNRS), Science et Ingénierie des Matériaux et Procédés (SIMaP), Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP)-Institut National Polytechnique de Grenoble (INPG)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA), Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS)-Université Paris-Saclay, COMUE Université Côte d'Azur (2015 - 2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015 - 2019) (COMUE UCA)-Centre National de la Recherche Scientifique (CNRS), Observatoire des Sciences de l'Univers de Grenoble (OSUG), Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Université Joseph Fourier - Grenoble 1 (UJF)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Université Joseph Fourier - Grenoble 1 (UJF)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS), Université de Lille-Centre National de la Recherche Scientifique (CNRS), CEA-Direction des Energies (ex-Direction de l'Energie Nucléaire) (CEA-DES (ex-DEN)), Laboratoire de Probabilités, Statistiques et Modélisations (LPSM (UMR_8001)), Université Paris Diderot - Paris 7 (UPD7)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-CEA-Direction des Energies (ex-Direction de l'Energie Nucléaire) (CEA-DES (ex-DEN)), Matériaux et nanosciences d'Alsace, Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Université de Strasbourg (UNISTRA)-Réseau nanophotonique et optique, Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA), Istituto Nazionale di Fisica Nucleare (INFN), Université Paris Diderot - Paris 7 (UPD7)-Groupe Hospitalier Saint Louis - Lariboisière - Fernand Widal [Paris], Assistance publique - Hôpitaux de Paris (AP-HP) (APHP)-Assistance publique - Hôpitaux de Paris (AP-HP) (APHP), CentraleSupélec-Centre National de la Recherche Scientifique (CNRS)-Université Paris-Saclay, and Centre National de la Recherche Scientifique (CNRS)-Aix Marseille Université (AMU)-Assistance Publique - Hôpitaux de Marseille (APHM)

Subjects

[PHYS.PHYS.PHYS-PLASM-PH]Physics [physics]/Physics [physics]/Plasma Physics [physics.plasm-ph], ComputingMilieux_MISCELLANEOUS

Abstract

International audience

Published

2019

12. ELM burn-through predictions for MAST-U Super-X plasmas

Author

Smith, S.F., Pamela, S.J.P., Fil, A., Hölzl, M., Huijsmans, G.T.A., Kirk, A., Moulton, D., Myatra, O., Thornton, A.J., Wilson, H.R., Magneto-Hydro-Dynamic Stability of Fusion Plasmas, and Science and Technology of Nuclear Fusion

Published

2019

13. Vision, Low-level Theory of

Author

Wilson, H.R., primary

Published

2001

14. Overview of the JET preparation for deuterium-tritium operation with the ITER like-wall

Author

Joffrin, E., Abduallev, S., Abhangi, M., Abreu, P., Afanasev, V., Afzal, M., Aggarwal, K.M., Ahlgren, T., Aho-Mantila, L., Aiba, N., Airila, M., Alarcon, T., Albanese, R., Alegre, D., Aleiferis, S., Alessi, E., Aleynikov, P., Alkseev, A., Allinson, M., Alper, B., Alves, E., Ambrosino, G., Ambrosino, R., Amosov, V., Sundén, E. Andersson, Andrews, R., Angelone, M., Anghel, M., Angioni, C., Appel, L., Appelbee, C., Arena, P., Ariola, M., Arshad, S., Artaud, J., Arter, W., Ash, A., Ashikawa, N., Aslanyan, V., Asunta, O., Asztalos, O., Auriemma, F., Austin, Y., Avotina, L., Axton, M., Ayres, C., Baciero, A., Baião, D., Balboa, I., Balden, M., Balshaw, N., Bandaru, V.K., Banks, J., Baranov, Y.F., Barcellona, C., Barnard, T., Barnes, M., Barnsley, R., Wiechec, A. Baron, Orte, L. Barrera, Baruzzo, M., Basiuk, V., Bassan, M., Bastow, R., Batista, A., Batistoni, P., Baumane, L., Bauvir, B., Baylor, L., Beaumont, P.S., Beckers, M., Beckett, B., Bekris, N., Beldishevski, M., Bell, K., Belli, F., Belonohy, É., Benayas, J., Bergsåker, H., Bernardo, J., Bernert, M., Berry, M., Bertalot, L., Besiliu, C., Betar, H., Beurskens, M., Bielecki, J., Biewer, T., Bilato, R., Biletskyi, O., Bílková, P., Binda, F., Birkenmeier, G., Bizarro, J.P.S., Björkas, C., Blackburn, J., Blackman, T.R., Blanchard, P., Blatchford, P., Bobkov, V., Boboc, A., Bogar, O., Bohm, P., Bohm, T., Bolshakova, I., Bolzonella, T., Bonanomi, N., Boncagni, L., Bonfiglio, D., Bonnin, X., Boom, J., Borba, D., Borodin, D., Borodkina, I., Boulbe, C., Bourdelle, C., Bowden, M., Bowman, C., Boyce, T., Boyer, H., Bradnam, S.C., Braic, V., Bravanec, R., Breizman, B., Brennan, D., Breton, S., Brett, A., Brezinsek, S., Bright, M., Brix, M., Broeckx, W., Brombin, M., Broslawski, A., Brown, B., Brunetti, D., Bruno, E., Buch, J., Buchanan, J., Buckingham, R., Buckley, M., Bucolo, M., Budny, R., Bufferand, H., Buller, S., Bunting, P., Buratti, P., Burckhart, A., Burroughes, G., Buscarino, A., Busse, A., Butcher, D., Butler, B., Bykov, I., Cahyna, P., Calabrò, G., Calacci, L., Callaghan, D., Callaghan, J., Calvo, I., Camenen, Y., Camp, P., Campling, D.C., Cannas, B., Capat, A., Carcangiu, S., Card, P., Cardinali, A., Carman, P., Carnevale, D., Carr, M., Carralero, D., Carraro, L., Carvalho, B.B., Carvalho, I., Carvalho, P., Carvalho, D.D., Casson, F.J., Castaldo, C., Catarino, N., Causa, F., Cavazzana, R., Cave-Ayland, K., Cavedon, M., Cecconello, M., Ceccuzzi, S., Cecil, E., Challis, C.D., Chandra, D., Chang, C.S., Chankin, A., Chapman, I.T., Chapman, B., Chapman, S.C., Chernyshova, M., Chiariello, A., Chitarin, G., Chmielewski, P., Chone, L., Ciraolo, G., Ciric, D., Citrin, J., Clairet, F., Clark, M., Clark, E., Clarkson, R., Clay, R., Clements, C., Coad, J.P., Coates, P., Cobalt, A., Coccorese, V., Cocilovo, V., Coelho, R., Coenen, J.W., Coffey, I., Colas, L., Colling, B., Collins, S., Conka, D., Conroy, S., Conway, N., Coombs, D., Cooper, S.R., Corradino, C., Corre, Y., Corrigan, G., Coster, D., Craciunescu, T., Cramp, S., Crapper, C., Crisanti, F., Croci, G., Croft, D., Crombé, K., Cruz, N., Cseh, G., Cufar, A., Cullen, A., Curson, P., Curuia, M., Czarnecka, A., Czarski, T., Cziegler, I., Dabirikhah, H., Molin, A. Dal, Dalgliesh, P., Dalley, S., Dankowski, J., Darrow, D., David, P., Davies, A., Davis, W., Dawson, K., Day, I., Day, C., Bock, M. De, Castro, A. de, Dominici, G. De, Cal, E. de la, Luna, E. de la, Masi, G. De, Temmerman, G. De, Tommasi, G. De, Vries, P. de, Deane, J., Dejarnac, R., Sarto, D. Del, Delabie, E., Demerdzhiev, V., Dempsey, A., Harder, N. den, Dendy, R.O., Denis, J., Denner, P., Devaux, S., Devynck, P., Maio, F. Di, Siena, A. Di, Troia, C. Di, Dickinson, D., Dinca, P., Dittmar, T., Dobrashian, J., Doerk, H., Doerner, R.P., Domptail, F., Donné, T., Dorling, S.E., Douai, D., Dowson, S., Drenik, A., Dreval, M., Drewelow, P., Drews, P., Duckworth, Ph., Dumont, R., Dumortier, P., Dunai, D., Dunne, M., Duran, I., Durodié, F., Dutta, P., Duval, B.P., Dux, R., Dylst, K., Edappala, P.V., Edwards, A.M., Edwards, J.S., Eich, Th., Eidietis, N., Eksaeva, A., Ellis, R., Ellwood, G., Elsmore, C., Emery, S., Enachescu, M., Ericsson, G., Eriksson, J., Eriksson, F., Eriksson, L.G., Ertmer, S., Esquembri, S., Esquisabel, A.L., Esser, H.G., Ewart, G., Fable, E., Fagan, D., Faitsch, M., Falie, D., Fanni, A., Farahani, A., Fasoli, A., Faugeras, B., Fazinic, S., Felici, F., Felton, R.C., Feng, S., Fernades, A., Fernandes, H., Ferreira, J., Ferreira, D.R., Ferrò, G., Fessey, J.A., Ficker, O., Field, A., Fietz, S., Figini, L., Figueiredo, J., Figueiredo, A., Fil, N., Finburg, P., Fischer, U., Fittill, L., Fitzgerald, M., Flammini, D., Flanagan, J., Flinders, K., Foley, S., Fonnesu, N., Fontdecaba, J.M., Formisano, A., Forsythe, L., Fortuna, L., Fransson, E., Frasca, M., Frassinetti, L., Freisinger, M., Fresa, R., Fridström, R., Frigione, D., Fuchs, V., Fusco, V., Futatani, S., Gál, K., Galassi, D., Galazka, K., Galeani, S., Gallart, D., Galvão, R., Gao, Y., Garcia, J., Garcia-Carrasco, A., García-Muñoz, M., Gardener, M., Garzotti, L., Gaspar, J., Gaudio, P., Gear, D., Gebhart, T., Gee, S., Geiger, B., Gelfusa, M., George, R., Gerasimov, S., Gervasini, G., Gethins, M., Ghani, Z., Ghate, M., Gherendi, M., Ghezzi, F., Giacalone, J.C., Giacomelli, L., Giacometti, G., Gibson, K., Giegerich, T., Gil, L., Gilbert, M.R., Gin, D., Giovannozzi, E., Giroud, C., Glöggler, S., Goff, J., Gohil, P., Goloborod'ko, V., Goloborodko, V., Gomes, R., Gonçalves, B., Goniche, M., Goodyear, A., Gorini, G., Görler, T., Goulding, R., Goussarov, A., Graham, B., Graves, J.P., Greuner, H., Grierson, B., Griffiths, J., Griph, S., Grist, D., Groth, M., Grove, R., Gruca, M., Guard, D., Guérard, C., Guillemaut, C., Guirlet, R., Gulati, S., Gurl, C., Gutierrez-Milla, A., Utoh, H.H., Hackett, L., Hacquin, S., Hager, R., Hakola, A., Halitovs, M., Hall, S., Hallworth-Cook, S., Ham, C., Hamed, M., Hamilton, N., Hamlyn-Harris, C., Hammond, K., Hancu, G., Harrison, J., Harting, D., Hasenbeck, F., Hatano, Y., Hatch, D.R., Haupt, T., Hawes, J., Hawkes, N.C., Hawkins, J., Hawkins, P., Hazel, S., Heesterman, P., Heinola, K., Hellesen, C., Hellsten, T., Helou, W., Hemming, O., Hender, T.C., Henderson, S.S., Henderson, M., Henriques, R., Hepple, D., Herfindal, J., Hermon, G., Hidalgo, C., Higginson, W., Highcock, E.G., Hillesheim, J., Hillis, D., Hizanidis, K., Hjalmarsson, A., Ho, A., Hobirk, J., Hogben, C.H.A., Hogeweij, G.M.D., Hollingsworth, A., Hollis, S., Hölzl, M., Honore, J.-J., Hook, M., Hopley, D., Horácek, J., Hornung, G., Horton, A., Horton, L.D., Horvath, L., Hotchin, S.P., Howell, R., Hubbard, A., Huber, A., Huber, V., Huddleston, T.M., Hughes, M., Hughes, J., Huijsmans, G.T.A., Huynh, P., Hynes, A., Igaune, I., Iglesias, D., Imazawa, N., Imrísek, M., Incelli, M., Innocente, P., Ivanova-Stanik, I., Ivings, E., Jachmich, S., Jackson, A., Jackson, T., Jacquet, P., Jansons, J., Jaulmes, F., Jednoróg, S., Jenkins, I., Jepu, I., Johnson, T., Johnson, R., Johnston, J., Joita, L., Joly, J., Jonasson, E., Jones, T., Jones, C., Jones, L., Jones, G., Jones, N., Juvonen, M., Hoshino, K.K., Kallenbach, A., Kalsey, M., Kaltiaisenaho, T., Kamiya, K., Kaniewski, J., Kantor, A., Kappatou, A., Karhunen, J., Karkinsky, D., Kaufman, M., Kaveney, G., Kazakov, Y., Kazantzidis, V., Keeling, D.L., Keenan, F.P., Kempenaars, M., Kent, O., Kent, J., Keogh, K., Khilkevich, E., Kim, H.-T., Kim, H. T., King, R., King, D., Kinna, D.J., Kiptily, V., Kirk, A., Kirov, K., Kirschner, A., Kizane, G., Klas, M., Klepper, C., Klix, A., Knight, M., Knight, P., Knipe, S., Knott, S., Kobuchi, T., Koechl, F., Kocsis, G., Kodeli, I., Kogut, D., Koivuranta, S., Kolesnichenko, Y., Kollo, Z., Kominis, Y., Köppen, M., Korolczuk, S., Kos, B., Koslowski, H.R., Kotschenreuther, M., Koubiti, M., Kovaldins, R., Kovanda, O., Kowalska-Strzeciwilk, E., Krasilnikov, A., Krasilnikov, V., Krawczyk, N., Kresina, M., Krieger, K., Krivska, A., Kruezi, U., Ksiazek, I., Kukushkin, A., Kundu, A., Kurki-Suonio, T., Kwak, S., Kwon, O.J., Laguardia, L., Lahtinen, A., Laing, A., Lalousis, P., Lam, N., Lamb, C., Lambertz, H.T., Lang, P.T., Lanthaler, S., Neto, E. Lascas, Laszyska, E., Lawless, R., Lawson, K.D., Lazaros, A., Lazzaro, E., Leach, R., Learoyd, G., Leerink, S., Lefebvre, X., Leggate, H.J., Lehmann, J., Lehnen, M., Leichauer, P., Leichtle, D., Leipold, F., Lengar, I., Lennholm, M., Lepiavko, B., Leppänen, J., Lerche, E., Lescinskis, A., Lescinskis, B., Lesnoj, S., Leyland, M., Leysen, W., Li, Y., Li, L., Liang, Y., Likonen, J., Linke, J., Linsmeier, Ch., Lipschultz, B., Litaudon, X., Liu, G., Lloyd, B., Schiavo, V.P. Lo, Loarer, T., Loarte, A., Lomanowski, B., Lomas, P.J., Lönnroth, J., López, J.M., Lorenzini, R., Losada, U., Loughlin, M., Lowry, C., Luce, T., Lucock, R., Lukin, A., Luna, C., Lungaroni, M., Lungu, C.P., Lungu, M., Lunniss, A., Lunt, T., Lupelli, I., Lutsenko, V., Lyssoivan, A., Macheta, P., Macusova, E., Magesh, B., Maggi, C., Maggiora, R., Mahesan, S., Maier, H., Mailloux, J., Maingi, R., Makwana, R., Malaquias, A., Malinowski, K., Malizia, A., Manas, P., Manduchi, G., Manso, M.E., Mantica, P., Mantsinen, M., Manzanares, A., Maquet, Ph., Marandet, Y., Marcenko, N., Marchetto, C., Marchuk, O., Marconato, N., Mariani, A., Marin, M., Marinelli, M., Marinucci, M., Markovic, T., Marocco, D., Marot, L., Marsh, J., Martin, A., Aguilera, A. Martín de, Martín-Solís, J.R., Martone, R., Martynova, Y., Maruyama, S., Maslov, M., Matejcik, S., Mattei, M., Matthews, G.F., Matveev, D., Matveeva, E., Mauriya, A., Maviglia, F., May-Smith, T., Mayer, M., Mayoral, M.L., Mazon, D., Mazzotta, C., McAdams, R., McCarthy, P.J., McClements, K.G., McCormack, O., McCullen, P.A., McDonald, D., McHardy, M., McKean, R., McKehon, J., McNamee, L., Meadowcroft, C., Meakins, A., Medley, S., Meigh, S., Meigs, A.G., Meisl, G., Meiter, S., Meitner, S., Meneses, L., Menmuir, S., Mergia, K., Merle, A., Merriman, P., Mertens, Ph., Meshchaninov, S., Messiaen, A., Meyer, H., Michling, R., Milanesio, D., Militello, F., Militello-Asp, E., Milocco, A., Miloshevsky, G., Mink, F., Minucci, S., Miron, I., Mistry, S., Miyoshi, Y., Mlynár, J., Moiseenko, V., Monaghan, P., Monakhov, I., Moon, S., Mooney, R., Moradi, S., Morales, J., Moran, J., Mordijck, S., Moreira, L., Moro, F., Morris, J., Moser, L., Mosher, S., Moulton, D., Mrowetz, T., Muir, A., Muraglia, M., Murari, A., Muraro, A., Murphy, S., Muscat, P., Muthusonai, N., Myers, C., Asakura, N.N., N'Konga, B., Nabais, F., Naish, R., Naish, J., Nakano, T., Napoli, F., Nardon, E., Naulin, V., Nave, M.F.F., Nedzelskiy, I., Nemtsev, G., Nesenevich, V., Nespoli, F., Neto, A., Neu, R., Neverov, V.S., Newman, M., Ng, S., Nicassio, M., Nielsen, A.H., Nina, D., Nishijima, D., Noble, C., Nobs, C.R., Nocente, M., Nodwell, D., Nordlund, K., Nordman, H., Normanton, R., Noterdaeme, J.M., Nowak, S., Nunes, I., O'Gorman, T., O'Mullane, M., Oberkofler, M., Oberparleiter, M., Odupitan, T., Ogawa, M.T., Okabayashi, M., Oliver, H., Olney, R., Omoregie, L., Ongena, J., Orsitto, F., Orszagh, J., Osborne, T., Otin, R., Owen, A., Owen, T., Paccagnella, R., Packer, L.W., Pajuste, E., Pamela, S., Panja, S., Papp, P., Papp, G., Parail, V., Pardanaud, C., Diaz, F. Parra, Parsloe, A., Parsons, N., Parsons, M., Pasqualotto, R., Passeri, M., Patel, A., Pathak, S., Patten, H., Pau, A., Pautasso, G., Pavlichenko, R., Pavone, A., Pawelec, E., Soldan, C. Paz, Peackoc, A., Pehkonen, S.-P., Peluso, E., Penot, C., Penzo, J., Pepperell, K., Pereira, R., Cippo, E. Perelli, Thun, C. Perez von, Pericoli, V., Peruzzo, S., Peterka, M., Petersson, P., Petravich, G., Petre, A., Petrzilka, V., Philipps, V., Pigatto, L., Pillon, M., Pinches, S., Pintsuk, G., Piovesan, P., Sa, W. Pires de, Reis, A. Pires dos, Piron, L., Piron, C., Pironti, A., Pisano, F., Pitts, R., Plyusnin, V., Poli, F.M., Pomaro, N., Pompilian, O.G., Pool, P., Popovichev, S., Poradziski, M., Porfiri, M.T., Porosnicu, C., Porton, M., Possnert, G., Potzel, S., Poulipoulis, G., Powell, T., Prajapati, V., Prakash, R., Predebon, I., Prestopino, G., Price, D., Price, M., Price, R., Primetzhofer, D., Prior, P., Pucella, G., Puglia, P., Puiatti, M.E., Purahoo, K., Pusztai, I., Pütterich, Th., Rachlew, E., Rack, M., Ragona, R., Rainford, M., Raj, P., Rakha, A., Ramogida, G., Ranjan, S., Rapson, C.J., Rasmussen, D., Rasmussen, J.J., Rathod, K., Rattá, G., Ratynskaia, S., Ravera, G., Rebai, M., Reed, A., Réfy, D., Regaña, J., Reich, M., Reid, N., Reimold, F., Reinhart, M., Reinke, M., Reiser, D., Rendell, D., Reux, C., Cortes, S.D.A. Reyes, Reynolds, S., Ricci, D., Richiusa, M., Rigamonti, D., Rimini, F.G., Risner, J., Riva, M., Rivero-Rodriguez, J., Roach, C., Robins, R., Robinson, S., Robson, D., Rodionov, R., Rodrigues, P., Rodriguez, J., Rohde, V., Romanelli, M., Romanelli, F., Romanelli, S., Romazanov, J., Rowe, S., Rubel, M., Rubinacci, G., Rubino, G., Ruchko, L., Ruset, C., Rzadkiewicz, J., Saarelma, S., Sabot, R., Sáez, X., Safi, E., Sahlberg, A., Saibene, G., Saleem, M., Salewski, M., Salmi, A., Salmon, R., Salzedas, F., Samm, U., Sandiford, D., Santa, P., Santala, M.I.K., Santos, B., Santucci, A., Sartori, F., Sartori, R., Sauter, O., Scannell, R., Schluck, F., Schlummer, T., Schmid, K., Schmuck, S., Schöpf, K., Schweinzer, J., Schwörer, D., Scott, S.D., Sergienko, G., Sertoli, M., Shabbir, A., Sharapov, S.E., Shaw, A., Sheikh, H., Shepherd, A., Shevelev, A., Shiraki, D., Shumack, A., Sias, G., Sibbald, M., Sieglin, B., Silburn, S., Silva, J., Silva, A., Silva, C., Silvagni, D., Simmons, P., Simpson, J., Sinha, A., Sipilä, S.K., Sips, A.C.C., Sirén, P., Sirinelli, A., Sjöstrand, H., Skiba, M., Skilton, R., Skvara, V., Slade, B., Smith, R., Smith, P., Smith, S.F., Snoj, L., Soare, S., Solano, E.R., Somers, A., Sommariva, C., Sonato, P., Sos, M., Sousa, J., Sozzi, C., Spagnolo, S., Sparapani, P., Spelzini, T., Spineanu, F., Sprada, D., Sridhar, S., Stables, G., Stallard, J., Stamatelatos, I., Stamp, M.F., Stan-Sion, C., Stancar, Z., Staniec, P., Stankunas, G., Stano, M., Stavrou, C., Stefanikova, E., Stepanov, I., Stephen, A.V., Stephen, M., Stephens, J., Stevens, B., Stober, J., Stokes, C., Strachan, J., Strand, P., Strauss, H.R., Ström, P., Studholme, W., Subba, F., Suchkov, E., Summers, H.P., Sun, H., Sutton, N., Svensson, J., Sytnykov, D., Szabolics, T., Szepesi, G., Suzuki, T.T., Tabarés, F., Tadic, T., Tál, B., Tala, T., Taliercio, C., Tallargio, A., Tanaka, K., Tang, W., Tardocchi, M., Tatali, R., Taylor, D., Tegnered, D., Telesca, G., Teplova, N., Teplukhina, A., Terranova, D., Terry, C., Testa, D., Tholerus, E., Thomas, J., Thompson, V.K., Thornton, A., Tierens, W., Tiseanu, I., Tojo, H., Tokitani, M., Tolias, P., Tomes, M., Trimble, P., Tripsky, M., Tsalas, M., Tsavalas, P., Tskhakaya, D., Jun, D. Tskhakaya, Turner, I., Turner, M.M., Turnyanskiy, M., Tvalashvili, G., Tyshchenko, M., Uccello, A., Uljanovs, J., Urano, H., Urban, A., Urbanczyk, G., Uytdenhouwen, I., Vadgama, A., Valcarcel, D., Vale, R., Valentinuzzi, M., Valerii, K., Valisa, M., Olivares, P. Vallejos, Valovic, M., Eester, D. Van, Renterghem, W. Van, Rooij, G.J. van, Varje, J., Vartanian, S., Vasava, K., Vasilopoulou, T., Vecsei, M., Vega, J., Ventre, S., Verdoolaege, G., Verona, C., Rinati, G. Verona, Veshchev, E., Vianello, N., Vicente, J., Viezzer, E., Villari, S., Villone, F., Vincent, M., Vincenzi, P., Vinyar, I., Viola, B., Vitins, A., Vizvary, Z., Vlad, M., Voitsekhovitch, I., Voltolina, D., Toussaint, U. von, Vondrácek, P., Vuksvic, M., Wakeling, B., Waldon, C., Walkden, N., Walker, R., Walker, M., Walsh, M., Wang, N., Wang, E., Warder, S., Warren, R., Waterhouse, J., Watts, C., Wauters, T., Webb, M., Weckmann, A., Weiland, J., Weiland, M., Weisen, H., Weiszflog, M., Welch, P., West, A., Wheatley, M., Wheeler, S., Whitehead, A.M., Whittaker, D., Widdowson, A.M., Wiesen, S., Wilkie, G., Williams, J., Willoughby, D., Wilson, J., Wilson, I., Wilson, H.R., Wischmeier, M., Withycombe, A., Witts, D., Wolfrum, E., Wood, R., Woodley, R., Woodley, C., Wray, S., Wright, J.C., Wright, P., Wukitch, S., Wynn, A., Xiang, L., Xu, T., Xue, Y., Yadikin, D., Yakovenko, Y., Yanling, W., Yavorskij, V., Young, I., Young, R., Young, D., Zacks, J., Zagorski, R., Zaitsev, F.S., Zakharov, L., Zanino, R., Zarins, A., Zarins, R., Fernandez, D. Zarzoso, Zastrow, K.D., Zerbini, M., Zhang, W., Zhou, Y., Zilli, E., Zocco, A., Zoita, V., Zoletnik, S., Zwingmann, W., Zychor, I., Joffrin, E., Abduallev, S., Abhangi, M., Abreu, P., Afanasev, V., Afzal, M., Aggarwal, K.M., Ahlgren, T., Aho-Mantila, L., Aiba, N., Airila, M., Alarcon, T., Albanese, R., Alegre, D., Aleiferis, S., Alessi, E., Aleynikov, P., Alkseev, A., Allinson, M., Alper, B., Alves, E., Ambrosino, G., Ambrosino, R., Amosov, V., Sundén, E. Andersson, Andrews, R., Angelone, M., Anghel, M., Angioni, C., Appel, L., Appelbee, C., Arena, P., Ariola, M., Arshad, S., Artaud, J., Arter, W., Ash, A., Ashikawa, N., Aslanyan, V., Asunta, O., Asztalos, O., Auriemma, F., Austin, Y., Avotina, L., Axton, M., Ayres, C., Baciero, A., Baião, D., Balboa, I., Balden, M., Balshaw, N., Bandaru, V.K., Banks, J., Baranov, Y.F., Barcellona, C., Barnard, T., Barnes, M., Barnsley, R., Wiechec, A. Baron, Orte, L. 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Abstract

For the past several years, the JET scientific programme (Pamela et al 2007 Fusion Eng. Des. 82 590) has been engaged in a multi-campaign effort, including experiments in D, H and T, leading up to 2020 and the first experiments with 50%/50% D–T mixtures since 1997 and the first ever D–T plasmas with the ITER mix of plasma-facing component materials. For this purpose, a concerted physics and technology programme was launched with a view to prepare the D–T campaign (DTE2). This paper addresses the key elements developed by the JET programme directly contributing to the D–T preparation. This intense preparation includes the review of the physics basis for the D–T operational scenarios, including the fusion power predictions through first principle and integrated modelling, and the impact of isotopes in the operation and physics of D–T plasmas (thermal and particle transport, high confinement mode (H-mode) access, Be and W erosion, fuel recovery, etc). This effort also requires improving several aspects of plasma operation for DTE2, such as real time control schemes, heat load control, disruption avoidance and a mitigation system (including the installation of a new shattered pellet injector), novel ion cyclotron resonance heating schemes (such as the three-ions scheme), new diagnostics (neutron camera and spectrometer, active Alfvèn eigenmode antennas, neutral gauges, radiation hard imaging systems…) and the calibration of the JET neutron diagnostics at 14 MeV for accurate fusion power measurement. The active preparation of JET for the 2020 D–T campaign provides an incomparable source of information and a basis for the future D–T operation of ITER, and it is also foreseen that a large number of key physics issues will be addressed in support of burning plasmas.

Published

2019

15. Construct-PV: Constructing Buildings with Customizable-size PV Modules Integrated in the Opaque Part of the Building Skin

Author

Wilson, H.R. and Fath, K.

Published

2018

16. Mosaic Module Concept for Cost-Efficient and Aesthetic BIPV Modules

Author

Mittag, M., Ebert, M., Wilson, H.R., and Fellmeth, T.

Subjects

PV Systems - Performance, Applications and Integration, Building, Infrastructure, Landscape and Other Applications of PV

Abstract

35th European Photovoltaic Solar Energy Conference and Exhibition; 1458-1462, We present a module concept based on metal-wrap-through solar cells and conductive copper backsheets that offers a high degree of aesthetic freedom and allows individual designs. Our metal-wrap-through cell design features sub-cells that allow splitting and individual cell sizes enabling a flexible module design. We show results from sample manufacturing and façade mock-up implementation. The manufacturing is performed using automated equipment and low-temperature solder pastes. The process step of “tabbing/stringing” can be omitted compared to conventional PV module manufacturing. We perform IV measurements and a cell-to-module loss analysis. Results show that, considering the aperture area of the cells, competitive cell-to-module power ratios (~95%) are achieved. We estimate the mosaic module costs to be between 57 and 68 €/m² (depending on specific design) compared to 45 €/m² for common industrial, utility scale solar modules.

Published

2018

17. Using Digitalization for More Reliable and Less Expensive Building Performance Analysis

Author

Maurer, C., Wilson, H.R., Curcija, D.C., and Kuhn, T.E.

Published

2018

18. Pedestal evolution physics in low triangularity JET tokamak discharges with ITER-like wall

Author

Bowman, C., Dickinson, D., Horvath, L., Lunniss, A.E., Wilson, H.R., Jet Contributors, García Muñoz, Manuel, Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear, and Universidad de Sevilla. RNM138: Física Nuclear Aplicada

Subjects

Physics::Plasma Physics, ELMs, JET, Pedestal, Stability

Abstract

The pressure gradient of the high confinement pedestal region at the edge of tokamak plasmas rapidly collapses during plasma eruptions called edge localised modes (ELMs), and then re-builds over a longer time scale before the next ELM. The physics that controls the evolution of the JET pedestal between ELMs is analysed for 1.4 MA, 1.7 T, low triangularity, δ = 0.2, discharges with the ITER-like wall, finding that the pressure gradient typically tracks the ideal magneto-hydrodynamic ballooning limit, consistent with a role for the kinetic ballooning mode. Furthermore, the pedestal width is often influenced by the region of plasma that has second stability access to the ballooning mode, which can explain its sometimes complex evolution between ELMs. A local gyrokinetic analysis of a second stable flux surface reveals stability to kinetic ballooning modes; global effects are expected to provide a destabilising mechanism and need to be retained in such second stable situations. As well as an electronscale electron temperature gradient mode, ion scale instabilities associated with this flux surface include an electro-magnetic trapped electron branch and two electrostatic branches propagating in the ion direction, one with high radial wavenumber. In these second stability situations, the ELM is triggered by a peeling-ballooning mode; otherwise the pedestal is somewhat below the peeling-ballooning mode marginal stability boundary at ELM onset. In this latter situation, there is evidence that higher frequency ELMs are paced by an oscillation in the plasma, causing a crash in the pedestal before the peeling-ballooning boundary is reached. A model is proposed in which the oscillation is associated with hot plasma filaments that are pushed out towards the plasma edge by a ballooning mode, draining their free energy into the cooler plasma there, and then relaxing back to repeat the process. The results suggest that avoiding the oscillation and maximising the region of plasma that has second stability access will lead to the highest pedestal heights and, therefore, best confinement—a key result for optimising the fusion performance of JET and future tokamaks, such as ITER. EURATOM 633053 EPSRC EP/K504178/1 EPSRC EP/L01663X/1 Plasma HEC Consortium EPSRCV EP/L000237/1

Published

2018

19. Building-Integrated Photovoltaics - Combining Colour and Efficient Power Generation

Author

Wilson, H.R.

Published

2018

20. DC-DC Power Optimizers for Building-Integrated Photovoltaic Applications - A Simulation-Based Evaluation

Author

Eisenlohr, J., Gasparotto, S., Wilson, H.R., and Kuhn, T.E.

Subjects

Inverters and Balance of System Components, Photovoltaic Modules and BoS Components

Abstract

35th European Photovoltaic Solar Energy Conference and Exhibition; 1123-1126, DC-DC power optimizers present a promising approach to minimize losses in photovoltaic systems integrated into buildings (BIPV). Compared to free-standing PV plants, BIPV systems are often geometrically very complex, leading to a more complicated electric circuit and effects like partial shading and hot spots. We addressed the complex electrical design with a detailed modeling approach that includes the relevant physical quantities to analyze the time-resolved yield of a BIPV system. This comprises the calculation of the time-resolved irradiance on each individual solar cell by ray-tracing, the temperature-dependent electric performance of each solar cell, the electrical interconnection including bypass and blocking diodes and the DC/AC conversion. As each BIPV system is geometrically unique and requires detailed electrical planning, DC-DC power optimizers, which ensure that individual modules are always operated at their individual maximum power point, could simplify this planning process. However, this requires DC-DC converters that are highly efficient also under the specific operation conditions that can strongly vary between different BIPV systems, during the day or the year. In this work, we extended the Fraunhofer ISE BIPV simulation tool and included DC-DC optimizers to be able to quantify the benefits of optimizers for specific BIPV projects.

Published

2018

21. Architektonisch anspruchsvolle, fassadenintegrierte Photovoltaik am ZÜBLIN-Gebäude Z3

Author

Fath, K., Eisenlohr, J., Wilson, H.R., and Kuhn, T.

Published

2018

22. Light Attenuation Model to Predict Nominal Power of Modules with Light-Scattering Ceramic Printed Front Glasses

Author

Kutter, C., Wilson, H.R., Pfreundt, A., Heinrich, M., and Wirth, H.

Subjects

PV Systems - Performance, Applications and Integration, Building, Infrastructure, Landscape and Other Applications of PV

Abstract

35th European Photovoltaic Solar Energy Conference and Exhibition; 1801-1804, One feasible design for Building-Integrated Photovoltaic modules applies ceramic printed glass covers. Power prediction of such modules is difficult as transmittance of printed glass panes in air was shown to be much lower than the relative power loss in the respective modules for the same print coverage ratio. Applying a matrix-based approach, we developed a light attenuation model, which can describe the relative transmittance decrease of glass panes in air and relative power decrease of modules for glass covers with arbitrary coverage ratios. The model shows good correlation with measured data. The modelled transmittance of glass panes deviate with a root mean square error of 0.55% from the measured transmittance values. The model can compute the module performance loss for investigated coverage ratios with a RMSE of 0.73%.

Published

2018

23. Decorated Building-Integrated Photovoltaic Modules: Power Loss, Color Appearance and Cost Analysis

Author

Kutter, C., Bläsi, B., Wilson, H.R., Kroyer, T., Mittag, M., Höhn, O., and Heinrich, M.

Subjects

PV Systems - Performance, Applications and Integration, Building, Infrastructure, Landscape and Other Applications of PV

Abstract

35th European Photovoltaic Solar Energy Conference and Exhibition; 1488-1492, We evaluate three design solutions for BIPV modules: colored encapsulants, ceramic printed glass covers and spectral-selective photonic Morpho structures, regarding their electrical performance, their optical appearance and their cost. We built single-cell samples on which we perform IV measurements at STC and normal-hemispheric reflectance measurements. We derive color coordinates in CIE L*a*b* space out of the reflectance spectra to quantify color and intensity. Colored encapsulants as well as ceramic prints show low color saturation and high power loss relative to a conventional module (-6 to -31%). The spectrally selective Morpho structure shows strongest color saturation, enhanced brightness and best electrical performance (-3 to -7%). We research module component prices and perform a manufacturing cost analysis for glass-glass modules with the respective decoration and find that decoration of BIPV modules increases the specific module cost, caused by less power output and higher material cost. We find the manufacturing cost of decorated BIPV modules (74-163 €/m²) is within the range of classic cladding materials, such as bricks (60-100 €/m²) or wood (50-180 €/m²) but provide additional benefits regarding power generation.

Published

2018

24. Non-axisymmetric equilibrium and stability using the ELITE stability code

Author

Anastopoulos-Tzanis, M.S., primary, Dudson, B.D., additional, Ham, C.J., additional, Hegna, C.C., additional, Snyder, P.B., additional, and Wilson, H.R., additional

Published

2019

25. High fusion performance in Super H-mode experiments on Alcator C-Mod and DIII-D

Author

Snyder, P.B., primary, Hughes, J.W., additional, Osborne, T.H., additional, Paz-Soldan, C., additional, Solomon, W.M., additional, Knolker, M., additional, Eldon, D., additional, Evans, T., additional, Golfinopoulos, T., additional, Grierson, B.A., additional, Groebner, R.J., additional, Hubbard, A.E., additional, Kolemen, E., additional, LaBombard, B., additional, Laggner, F.M., additional, Meneghini, O., additional, Mordijck, S., additional, Petrie, T., additional, Scott, S., additional, Wang, H.Q., additional, Wilson, H.R., additional, and Zhu, Y.B., additional

Published

2019

26. Stability analysis of secondary modes, driven by the phase space island

Author

Dudkovskaia, A.V., primary, Garbet, X., additional, Lesur, M., additional, and Wilson, H.R., additional

Published

2019

27. Finite ion orbit width effect on the neoclassical tearing mode threshold in a tokamak plasma

Author

Imada, K., primary, Wilson, H.R., additional, Connor, J.W., additional, Dudkovskaia, A.V., additional, and Hill, P., additional

Published

2019

28. Development of the spherical tokamak power plant

Author

Voss, G.M, Bond, A, Hicks, J.B, and Wilson, H.R

Published

2002

29. In vitro and in vivo activity of the GAR transformylase inhibitor 5-deazacyclotetrahydrofolate

Author

Wilson, H.R., primary, Singer, S., additional, Mullin, R.J., additional, McLean, E.W., additional, Knick, V., additional, Kelley, J.L., additional, Humphreys, J., additional, Heath, L.S., additional, Hanlon, M.H., additional, Ferone, R., additional, Edelstein, M.P., additional, Duch, D.S., additional, Cohn, N.K., additional, Bigham, E.C., additional, Banks, S.D., additional, Smith, G.K., additional, and Houghton, J., additional

Published

1990

30. 8 - Building-integrated photovoltaics (BIPV)

Author

Ferrara, C., Wilson, H.R., and Sprenger, W.

Published

2017

31. Application of PV modules for BIPV - new challenges for performance and durability assessment and the European response

Author

Wilson, H.R.

Published

2017

32. Power Loss through Decorative Elements in the Front Glazing of BIPV Modules

Author

Mittag, M., Kutter, C., Ebert, M., Wilson, H.R., and Eitner, U.

Subjects

Building, Infrastructure and Landscape Applications, PV System Performance and Integration

Abstract

33rd European Photovoltaic Solar Energy Conference and Exhibition; 2609-2613, Printed module front covers can be designed to mask the geometry of solar cells for Building-Integrated Photovoltaics (BiPV). Such prints reduce the transmittance of the module front layer, which decreases module power. We performed transmittance measurements with large-area and small-area measurement equipment (220 mm / 620 mm integrating sphere) on different samples and find measurements applying small-area illumination to result in lower transmittance ( = 3.1abs% at 40% coverage) due to lateral losses in the samples. By measuring the power of modules with different design prints we find that the results do not correspond to transmittance measurements of the glass covers alone, even if a large-area transmittance measurement setup is used ( = 16%abs at 40% coverage). We attribute the differences between optical and electrical measurements to module internal reflection, optical coupling of the solar cell, partial transmittance by coatings and diffuse scattering of decorative prints. Differences increase with the share of coated glass area. We perform electrical and LBIC measurements on modules with printed and unprinted reference glass covers and calculate the effective transmittance. Short circuit currents calculated by spatial integration of LBIC results are in good agreement with results from ISC measurements. We predict the effective transmittance for arbitrary prints based on selected ISC measurements and find them to be in good agreement to measurements. In conclusion, we find transmittance measurements on printed glass alone to be insufficient to predict the optical power losses as they overestimate the optical loss.

Published

2017

33. Detailed Modelling of Building-Integrated Photovoltaics - From Component and Environmental Data to the System Output

Author

Eisenlohr, J., Wilson, H.R., and Kuhn, T.E.

Subjects

Building, Infrastructure and Landscape Applications, PV System Performance and Integration

Abstract

33rd European Photovoltaic Solar Energy Conference and Exhibition; 2118-2122, Photovoltaic systems that are integrated into buildings face several challenges compared to freestanding PV plants. Besides their multi-functionality and a more complex construction process with the constraints given by a building and its facades and roof, BIPV systems are often geometrically very complex, leading to a more complicated electric circuit and effects like partial shading and hot spots. We addressed the complex electrical design with a detailed modeling approach that includes the relevant physical quantities to analyze the time-resolved yield of a BIPV system. This comprises the calculation of the time-resolved irradiance on each individual solar cell by raytracing, the temperature-dependent electric performance of each solar cell, the electrical interconnection including bypass and blocking diodes and the inverter behaviour. Beyond BIPV systems, our developed tools can also be beneficial for the planning of all PV systems, where partial shading occurs, e.g. for bifacial modules.

Published

2017

34. Photovoltaik in der Gebäudehülle - Normierung und Prüfung

Author

Rehde, F. and Wilson, H.R.

Published

2017

35. What does 'normal-normal transmittance' mean for light-scattering materials?

Author

Wilson, H.R., Bueno, B., Hanek, J., Riethmüller, C., Illg, H., Deroisy, B., and Kuhn, T.

Published

2017

36. A conceptual design of a spherical tokamak power plant

Author

Voss, G.M., Allfrey, S., Bond, A., Huang, Q., Knight, P.J., Riccardo, V., and Wilson, H.R.

Published

2000

37. Spherical tokamak power plant design issues

Author

Hender, T.C, Bond, A, Edwards, J, Karditsas, P.J, McClements, K.G, Mustoe, J, Sherwood, D.V, Voss, G.M, and Wilson, H.R

Published

2000

38. Peeling-ballooning stability of tokamak plasmas with applied 3D magnetic fields.

Author

Tzanis, M.S. Anastopoulos, Ham, C.J., P.B., Snyder, and Wilson, H.R.

Subjects

PLASMA stability, MAGNETIC fields, TOROIDAL harmonics, TOROIDAL plasma, BALLOONING

Abstract

The poloidal harmonics of the toroidal normal modes of an unstable axisymmetric tokamak plasma are employed as basis functions for the minimisation of the 3D energy functional. This approach presents a natural extension of the perturbative method considered in Anastopoulos Tzanis et al (2019 Nucl. Fusion 59 126028). This variational formulation is applied to the stability of tokamak plasmas subject to external non-axisymmetric magnetic fields. A comparison of the variational and perturbative methods shows that for D-shaped, high βN plasmas, the coupling of normal modes becomes strong at experimentally relevant applied 3D fields, leading to violation of the assumptions that justify a perturbative analysis. The variational analysis employed here addresses strong coupling, minimising energy with respect to both toroidal and poloidal Fourier coefficients. In general, it is observed that ballooning unstable modes are further destabilised by the applied 3D fields and field-aligned localisation of the perturbation takes place, as local ballooning theory suggests. For D-shaped high βN plasmas, relevant to experimental cases, it is observed that the existence of intermediate n unstable peeling-ballooning modes, where a maximum in the growth rate spectrum typically occurs, leads to a destabilising synergistic coupling that strongly degrades the stability of the 3D system. [ABSTRACT FROM AUTHOR]

Published

2020

39. Simulations of edge localised mode instabilities in MAST-U Super-X tokamak plasmas.

Author

Smith, S.F., Pamela, S.J.P., Fil, A., Hölzl, M., Huijsmans, G.T.A., Kirk, A., Moulton, D., Myatra, O., Thornton, A.J., Wilson, H.R., and JOREK

Subjects

FUSION reactor divertors, HEAT flux, ELECTRON density, ACTINIC flux, EDGES (Geometry)

Abstract

The high heat fluxes to the divertor during edge localised mode (ELM) instabilities have to be reduced for a sustainable future tokamak reactor. A solution to reduce the heat fluxes could be the Super-X divertor, which will be tested on MAST-U. ELM simulations for MAST-U Super-X tokamak plasmas have been obtained, using JOREK. A factor 10 decrease in the peak heat flux to the outer target and almost a factor 8 decrease in the ELM energy fluence when comparing the Super-X to a conventional divertor configuration has been found. A detached MAST-U case, after the roll-over in the target parallel electron density flux, is used as a starting point for ELM burn-through simulations. The plasma burns through the neutrals front during the ELM causing the divertor plasma to re-attach. After the crash a transition back to detachment is indicated, where the recovery to pre-ELM divertor conditions occurs in a few milliseconds, when the neutral pressure is high in the divertor. Recovery times are shorter than the inter-ELM phase in previous MAST experiments. The peak ELM energy fluence obtained after the ELM burn-through is 0.82 kJ/m2, which is significantly lower than that predicted from the empirical scaling of the ELM energy fluence - indicating promising results for future MAST-U operations. [ABSTRACT FROM AUTHOR]

Published

2020

40. Raout-in: Color rendering of objects in a daylit room viewed from outdoors

Author

Kuhn, T.E. Wilson, H.R. Hanek, J. Santamouris, M.

Abstract

This paper addresses the definition of a new criterion Raout-in to evaluate the color rendering of objects in a room viewed by an observer who is outdoors. This is not only relevant when outdoor observers are viewing persons in the room. It is also frequently taken into account when the color of internal solar-control or glare protection systems is selected so that they have a pleasing appearance for both indoor and outdoor observers. The relation of the new criterion to the general color rendering index Ra as applied for daylight transmitted through glazing is discussed and several solar control systems are assessed with respect to Ra and Raout-in. Both color rendering indices are based on an evaluation of the color rendering of eight moderately saturated test colors illuminated with the reference illuminant D65 and the illuminant under consideration (e.g. the same illuminant transmitted through a spectrally selective solar-control glazing). A discussion about an extension of the range of test colors by addition of strongly saturated test colors is also included in the paper. © 2016, Elsevier B.V. All rights reserved.

Published

2016

41. Komplettcharakterisierung der winkelselektiven Photovoltaik-Verglasung PVShade®

Author

Wilson, H.R., Sprenger, W., Fath, K., Erban, C., Kuhn, T.E., and Publica

Abstract

Seit Sommer 2013 bieten 15 m2 winkelselektive PVShade®-Verglasungen im Brüstungsbereich eines Seminarraums am Fraunhofer-Institut für Solare Energiesysteme ISE in Freiburg saisonalen Sonnenschutz und selektive Durchsicht und erzeugen Strom photovoltaisch (PV). Das PVShade®-Element wurde von einem der Autoren erfunden und patentiert. Während mehrerer Forschungsprojekte wurden die technischen, energetischen und ökonomischen Eigenschaften dieser PV-Verglasungen durch Messungen und modellbasierte Simulationsrechnungen umfassend untersucht. Zu den untersuchten Eigenschaften gehören der winkelabhängige Gesamtenergiedurchlassgrad (g-Wert), der Wärmedurchgangskoeffizient (U-Wert), die Eignung als absturzsichernde Verglasung, die Auswirkung der Verglasungen auf den Energiebedarf im Seminarraum, die Strom-Spannungskennlinien der PV-Module, der elektrische Ertrag der PV-Anlage, die Temperaturentwicklung der PV-Ebenen und die Lebenszykluskosten. In diesem Beitrag werden sowohl die Untersuchungsmethoden als auch Ergebnisse der verschiedenen Charakterisierungsansätze für diese besonderen Verglasungen jeweils kurz vorgestellt.

Published

2016

42. Raout-in: Color rendering of objects in a daylit room viewed from outdoors

Author

Kuhn, T.E., Wilson, H.R., Hanek, J., Santamouri, M., and Publica

Subjects

Thermische Anlagen und Gebäudetechnik, Ra out-in, color rendering, complex glazing, complex fenestration system, Ra out, visual comfort, Servicebereiche, Energieeffiziente Gebäude, glazing, light transmittance, general color rendering index CRI, Lichttechnik, Ra, solar-control, Fassaden und Fenster, TestLab Solar Façades

Abstract

This paper addresses the definition of a new criterion Raout-in to evaluate the color rendering of objects in a room viewed by an observer who is outdoors. This is not only relevant when outdoor observers are viewing persons in the room. It is also frequently taken into account when the color of internal solar control or glare protection systems is selected so that they have a pleasing appearance for both indoor and outdoor observers. The relation of the new criterion to the general color rendering index R-a as applied for daylight transmitted through glazing is discussed and several solar control systems are assessed with respect to R-a and Raout-in. Both color rendering indices are based on an evaluation of the color rendering of eight moderately saturated test colors illuminated with the reference illuminant D65 and the illuminant under consideration (e.g. the same illuminant transmitted through a spectrally selective solar-control glazing). A discussion about an extension of the range of test colors by addition of strongly saturated test colors is also included in the paper.

Published

2016

43. Electricity yield simulation for the building-integrated photovoltaic system installed in the main building roof of the Fraunhofer Institute for Solar Energy Systems ISE

Author

Sprenger, W., Wilson, H.R., Kuhn, T.E., and Publica

Subjects

solare Gebäudehülle, energieeffizientes Gebäude, Fassaden und Fenster

Abstract

The generated electricity of a rather complex building-integrated photovoltaic system, installed in the main building of the Fraunhofer Institute for Solar Energy Systems, is analyzed in detail. For this purpose, the measured irradiance on the tilted surface, the temperatures of the PV modules, the DC power and the AC power are compared with the results of an advanced electricity yield simulation program that has been developed at the institute. The chosen building-integrated photovoltaic (BIPV) system allows detailed investigation of complex shading patterns, improved electrical cell connection and the temperature characteristics of building-integrated photovoltaic modules when they simultaneously function as insulating glazing units with a low U value.

Published

2016

44. A method for predicting the economic potential of (building-integrated) photovoltaics in urban areas based on hourly Radiance simulations

Author

Fath, K., Stengel, J., Sprenger, W., Wilson, H.R., Schultmann, F., Kuhn, T.E., and Publica

Subjects

Thermische Anlagen und Gebäudetechnik, city model, photovoltaics, radiance, economic potential, Fassaden und Fenster, Energieeffiziente Gebäude

Abstract

This study presents and demonstrates a methodology for calculating the economic potential of photovoltaic installations in urban areas including the previously often disregarded potential on building façades. The analysis of a 2km2 urban area has shown that building façades there provide almost triple the area of building roofs. However due to non-optimal inclination and orientation, they receive only 41% of the total irradiation. From this, the economic potential under present market conditions was calculated, resulting in 17% of all analyzed building surfaces, i.e. 0.3km2 of roof surfaces being economically exploitable for photovoltaic installations already now which corresponds to an installed capacity of 47MWp. Considering further a material substitution from the building integration of the photovoltaic installations, an economic potential of up to 56MWp or 0.4km2 results, of which up to 6MWp or 0.04km2 are economically installable on building façades. Façade-mounted installations would then account for 13% of the economic potential. The calculation of an economic potential and additionally considering the material substitution from building integration both constitute an extension to many existing renewable energy potential studies just focusing on the technical potential. However, only the economic potential allows forecasts of the future diffusion of this technology.

Published

2015

45. Structure and damping of toroidal drift waves (and their implications for anomalous transport)

Author

Taylor, J.B., primary, Connor, J., additional, and Wilson, H.R., additional

Published

1993

46. Solarvalley-BIPV: Ertrags- und Wirtschaftlichkeitsanalyse von BIPV-Anlagen mit CIGS-Modulen

Author

Wilson, H.R., Sprenger, W., Kröger-Vodde, A., Fath, K., Münch, M., Caspary, D., Bayer, L., and Kuhn, T.E.

Published

2014

47. Fenestration energy rating in the german context

Author

Wilson, H.R.

Published

2014

48. Solar Reflectance Index (SRI) - Background and Spectrometric Determination

Author

Wilson, H.R., Hanek, J., and Kuhn, T.E.

Published

2014

49. A New Approach to Simulating the Electricity Yield of Complex BIPV Structures

Author

Sprenger, W., Solntsev, S., Wilson, H.R., Kuhn, T.E., and Zeman, M.

Subjects

PV and Architecture, PV Systems

Abstract

26th European Photovoltaic Solar Energy Conference and Exhibition; 4094-4098, A new methodology of simulating the electricity yield of complex BIPV systems is presented. The methodology allows a detailed optical analysis of the surroundings of the BIPV system by separating the time-independent ray-tracing of the given geometry from the time-dependent sky simulation when the radiation incident on a photovoltaic element is calculated. This separation is achieved through the discretization of the sky and by calculating the contribution of every sky region on the incidence-angle-dependent irradiance. The method allows the impact of shading, reflected light from other buildings, shading of the ground, and many other effects to be analyzed. The time-dependent results of the optical simulation under the assumption of a power spectral density function dependent on the air mass are forwarded to the PV device simulator ASA that calculates the generation profile in the photovoltaic layers. Taking material parameters into account, ASA calculates the I-V characteristics of every cell of the BIPV system at each point in time. Under the assumption of linear resistive losses within the modules, these functions are coupled to a system I-V function.

Published

2011

50. Super H-mode: theoretical prediction and initial observations of a new high performance regime for tokamak operation

Author

Snyder, P.B., primary, Solomon, W.M., additional, Burrell, K.H., additional, Garofalo, A.M., additional, Grierson, B.A., additional, Groebner, R.J., additional, Leonard, A.W., additional, Nazikian, R., additional, Osborne, T.H., additional, Belli, E.A., additional, Candy, J., additional, and Wilson, H.R., additional

Published

2015