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Carman P.C. — Flow of gases through porous media
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Название: Flow of gases through porous mediaАвтор: Carman P.C. Аннотация: The question of the permeability of porous media to gases, as also to liquids, has always attracted a considerable amount of attention. Interest in such studies has been motivated bv their manv fields of application: soil physics, petroleum technology, surface measurement, gas separations, etc. These are referred lo in the text, and Chapters IV and VI, respectively, deal with surface measurement and with separation of gas mixtures in some detail. A full account of work on gas permeabilities would be rather long: but the object of the writer has been rather to present an integrated and, as far as possible, quantitative account of the flow processes involved when gases flow into or through porous media. It has only become possible in relatively recent years to develop such a viewpoint, and the bulk of the references cited lies, in fact, within the last fifteen years.
Язык: Рубрика: Физика /Статус предметного указателя: Готов указатель с номерами страниц ed2k: ed2k stats Год издания: 1956Количество страниц: 187Добавлена в каталог: 12.04.2013Операции: Положить на полку |
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Leas, W. J. 61 Leather 135 Ledoux, E. 153 Lee, J. A. 169 Leeman, E. H. 61 Leger, A. E. 129 138 Leva, M. 32 157 166 167 168 169 Leverett, M. C. 56 57 59 61 Lewis, J. S. 148 153 Lewis, W. K. 32 169 Lietz, W. T. 58 61 Light extinction methods 82 99 Lindquist, E. 155 168 Linnett, J. W. 32 59 Littlewood, A. B. 153 Livingston, H. K. 102 Loeser, E. H 124 137 Lord, E. 15 24 32 101 103 Lorenz, P. B. 59 102 M 138 M 153 Maass, O. 14 15 18 24 32 102 MacRoberts, D. T. 31 Maier, C. G. 153 Malherbe, P. le R. 38 59 76 80 97 98 102 104 107 Manegold, E. 38 59 Mantell, C. L. 153 Marshall, P. L. 43 60 Martin, A. J. P. 144 146 147 153 Martin, J. J. 30 33 Mason, S. G. 21 23 33 Mavis, F. T. 168 Maxwell, J. C. 47 60 63 79 McCabe, W. I. 30 33 McCune, L. K. 159 Mercury penetration 43 Mertes, J. S. 26 33 Mica particles 17 49 Mickley, H. S. 169 Millikan, R. 63 65 79 Mitton, R. G. 135 138 Mixed particle sizes 18 36 Molecular sieves 132 142 Monolayer adsorption 114 115 Monrad, C. C. 30 33 Morcom, A. R. 32 155 168 Morse, R. A. 61 Morton, W. E. 103 Mukherjee, R. R. 33 Multilayer adsorption 114 127 Murphree, E. V. 168 Muskat, M. 1 14 31 32 Newman, L. L. 169 Nieradka, M. 86 102 Nitrogen adsorption 75 82 98 Nobel, A. P. P. 169 Non-circular capillaries 10 65 Non-spherical particles 17 73 Non-uniform pore size 34 52 Nordberg, M. E. 78 80 Northropp, L. 103 Nurse, R. W. 70 73 80 88 90 99 101 102 Oman, A. O. 168 Orning, A. A. 32 155 168 Osoba, J. S. 61 Osterhof, H. J. 45 60 Owens, W. W. 61 Packing of spheres 8 Pahl, M. 64 67 68 71 80 Pannell, J. R. 32 PAPER 135 160 Parallel-oriented fibres 26 Parent, J. D. 164 169 Park, H. 60 Parrish, D. R. 61 Particle shape 14 17 Particle size 9 11 17 Particle-size distribution 36 81 Partition Chromatography 144 146 Patterson, D. 138 Patton, H. W. 148 153 Peaceman, D. W. 31 Pechukas, A. 93 102 Penman, H. L. 47 49 60 Permeability coefficients 1 2 Permeability measurement 85 Permeability method 6 81 Permeability of solid septa 132 Petroleum production 3 Pfalzner, P. M. 135 138 Pfeiffenberger, G. W. 103 Phillips, C. S. G. 147 148 149 150 153 Pidgeon, F. G. 32 59 87 95 102 Piercey, N. A. V. 32 Piret, E. L. 49 60 101 103 Pirie, J. M. 8 31 Plummer, W. B. 32 168 Poiseuille tube 140 Poiseuille’s law 6 8 62 Pollard, W. G. 71 80 Pollchik, M. 32 169 Pore size 6 8 34 39 Pore texture 6 Pore-size distribution 39 40 Porosity 4 Porosity functions 9 18 38 Porous carbons 7 Porous glass 7 78 116 136 Porous particles 37 Powers, T. C. 103 Present, R. D. 71 80 Price, D. T. 153 Principal permeability axes 6 Prior, F. 153 Purcell, W. R. 44 52 60 Purnell, J. H. 146 153 Raal, F. A. 107 112 113 115 117 121 136 137 Rabson, S. R. 36 59 Rachford, H. H. 31 Radhakrishnan, S. 103 Ramsay, Sir W. 139 Randomizing effects 24 28 35 Rapier, A. C. 22 23 33 Rapoport, L. A. 61 Raumann, G. 142 153 Ray, N. H. 147 148 153 Rayleigh, Lord 129 138 139 Raynor, E. J. 32 59 Reboux, P. 168 Reekie, J. 80 Rees, L. V. 138 Regular packing or arrays 26 30 Reichertz, P. P. 60 Reisenfeld, E. H. 106 136 Relative permeability 55 128 Relative permeability equations 57 Reynolds, O. 9 140 155 168 Reynold’s number 9 156 Rhodes, H. B. 26 33 Rice, J. D. 31 Rice, R. R. 61 Richards, L. A. 43 55 59 60 Richardson, J. G. 61 Rigden, P. J. 38 59 70 73 80 86 90 95 100 101 102 103 Ritter, L. C. 44 60 Rizk, A. M. 168 Roberts, A. L. 169 Roberts, E. J. 169 Roberts, R. S. 31 Robertson, A. F. 160 168 Robins, A. B. 138 152 153 Romer, J. B. 101 103 Rose, H. E. 21 22 23 32 158 168 Rose, W. D. 43 47 51 60 Ross, J. W. 72 75 80 Ross, S. 124 137 Roughness 36 Roy, M. M. 30 33 Rumford, F. 169 Russell, C. D. 61 Rutkowski, C. P. 124 137 Sandstones 7 Saunders, O. A. 32 168 Scheidegger, A. E. 6 31 51 60 Schiller, L. 10 12 32 Schofield, R. K. 46 60 Schriever, W. 14 32 Schultze, K. 40 59 Schweizer, E. D. 138 Schwertz, F. A. 69 77 80 93 102 Segregated beds 50 Sen, M. K. 33 Separation by membranes 142 Separation of gases 139 Shape factors 18 29 46 66 Short capillaries 66 Silica, vitreous 130 Sington, E. P. C. 32 59 Sintered glass 7 Sintered metals 7 Skinner, D. G. 101 103 Skold, R. 60 Slichter, C. 9 31 Slip flow 62 72 Slobod, R. L. 61 Smith, C. M. 90 102 Smith, R. N. 124 137 Smith, W. O. 8 9 31 59 Smoluchowski, M. 63 66 80 Smythe, H. de W. 139 152 153 Sorbable gases 104 Sorption 104 Sorption coefficient 108 130 Spangler, M. B. 51 53 57 60 Specific surface 6 10 13 72 81 Spencer, M. S. 146 153 Spherical particles 8 14 25 30 34 49 71 157 166 Stanton, T. E. 9 32 169 Steiner, C. S. 169 Steinour, H. H. 26 33 Stokes’s law 25 81 161 Storrow, J. A. 169 Strachan, E. 136 138 Strettan, J. S. 59 Sullivan, R. R. 15 20 23 26 28 29 32 33 61 91 93 100 101 102 103 Surface diffusion 105 141 144 Surface diffusion, nature of 118 Surface mean particle size 11 18 81 Surface pressure 122 Sweeney, W. J. 168 Synge, R. L. 144 146 153 Teller, E. 82 Terwilliger, P. L. 61 Terzaghi, K. 9 31 Textile fibres 14 19 Thermal osmosis 124 Thermal transpiration 140 Thiem, J. R. 93 102 Thomas, D. G. 134 138 Thornton, D. F. 43 60 Tomlinson, R. H. 105 129 136 138 Tortuosity factors 12 13 17 45 51 77 113 117 Tortuosity measurement 46 Tovarov, V. V. 95 102 Transient flow 3 111 Traxler, R. W. 32 Trilling, C. A. 169 Tschachotin, B. 145 153 Turbulent flow 10 12 154 Twiss, S. B. 124 137 Two-phase flow 54 Tykodi, R. J. 124 137 Unconsolidated media 7 8 70 79 81 159 Unglazed ceramics 7 Utsugi, H. 124 137 van Bavel, C. H. M. 60 van Heerden, C. 169 van Krevelen, D. W. 169 Verschoor, H. 26 32 33 158 168 Vickers, R. A. 135 138 Voigt, U. 105 108 136 Volmer, M. 105 135 136 138 von Engelhardt, W. 59 Vreedenberg, H. A. 169 Wagner method 99 Walker, W. C. 138 Wall corrections 13 Wallick, G. C. 80 Walther, H. 18 32 87 101 102 Warburg, E. 62 79 Warburton, F. L. 29 33 101 103 Watson, K. M. 168 Weatherford, W. D. 153 Weaver, L. R. 60 Weintraub, M. 32 169 Wetting phase 39 41 54 White, M. C. 32 Whitney, R. P. 168 Wicke, E. 78 80 105 106 107 108 110 136 Wiggins, E. J. 14 15 18 23 24 32 87 102 Wilhelm, R. H. 169 Williams, G. A. 138 Wilsey, E. F. 168 Wilson, B. W. 26 33 38 59 Winkler, W. 124 137 Winney, H. F. 32 Wirth, H. 150 153 Wooldridge, D. E. 139 152 Wyckoff, R. D. 55 61 Wyllie, M. R. J. 16 17 32 47 49 51 53 57 58 59 60 61 Yagol, N. 169 Young, D. M. 124 137 Young, R. 169 Yuster, S. T. 61 80 Zeolites 132 150 151 Zeta-function 26 Zettlemoyer, A. C. 135 138 180
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