. . "Hydrog\u00E8ne p\u00E2teux"@fr . . . . . . . . . . . . . "Slush hydrogen is a combination of liquid hydrogen and solid hydrogen at the triple point with a lower temperature and a higher density than liquid hydrogen. It is commonly formed by repeating a freeze-thaw process. This is most easily done by bringing liquid hydrogen near its boiling point and then reducing pressure using a vacuum pump. The decrease in pressure causes the liquid hydrogen to vaporize/boil - which removes latent heat, and ultimately decreases the temperature of the liquid hydrogen. Solid hydrogen is formed on the surface of the boiling liquid (between the gas/liquid interface) as the liquid is cooled and reaches its triple point. The vacuum pump is stopped, causing an increase of pressure, the solid hydrogen formed on the surface partially melts and begins to sink. The soli"@en . "Slush (van het Engelse slush, 'brij') is de benaming die wordt gegeven aan een mengsel van vaste en vloeibare waterstof op het tripelpunt met een lagere temperatuur en hogere dichtheid dan vloeibare waterstof. Dit pasteuze mengsel, in het Engels slush hydrogen genoemd, wordt gevormd door de temperatuur van vloeibare waterstof te verlagen tot net onder het smeltpunt van 14,01 K (-259,14 \u00B0C), met als gevolg een toename in dichtheid van 16-20% in vergelijking met vloeibare waterstof."@nl . . . . . "3570"^^ . . . "\u4E09\u76F8\u70B9\u4E0A\u7684\u6C22\u662F\u56FA\u6001\u6DB2\u6001\u6C22\u5728\u6C22\u4E09\u76F8\u70B9\u4E0A\u7684\u6DF7\u5408\u7269\u3002\u6B64\u5F62\u6001\u7684\u6C22\u6BD4\u666E\u901A\u7684\u6DB2\u6001\u6C22\u6709\u66F4\u4F4E\u7684\u6E29\u5EA6\u548C\u66F4\u9AD8\u7684\u5BC6\u5EA6\u589E\u52A016\u201320%\uFF09\u3002\u628A\u6DB2\u6001\u6C22\u51B7\u5374\u5230\u5C06\u8FD1\u7194\u70B9 (14.01 K \u6216 \u2212259.14 \u00B0C)\uFF0C\u538B\u529B\u4E0B\u964D\uFF0C\u4E09\u76F8\u70B9\u4E0A\u7684\u6C22\u5C31\u4EA7\u751F\u4E86\u3002\u53EF\u7528\u4E8E\u706B\u7BAD\u71C3\u6599\uFF0C\u4EE5\u4FBF\u7528\u66F4\u5C0F\u7684\u7A7A\u95F4\u50A8\u5B58\u66F4\u591A\u71C3\u6599\u3002"@zh . . . "\u4E09\u76F8\u70B9\u4E0A\u7684\u6C22"@zh . . . "18189758"^^ . . . . "L'hidrogen past\u00F3s \u00E9s una combinaci\u00F3 d'hidrogen l\u00EDquid i hidrogen s\u00F2lid al punt triple amb una temperatura inferior i densitat m\u00E9s elevada que l'hidrogen l\u00EDquid. Es forma fent baixar la temperatura de l'hidrogen l\u00EDquid fins a gaireb\u00E9 el punt de fusi\u00F3 (14,01 K o \u2212259,14 \u00B0C) que incrementa la densitat en un 16-20% en comparaci\u00F3 amb l'hidrogen l\u00EDquid. S'ha proposat com a propergol en lloc de l'hidrogen l\u00EDquid per millorar-ne l'emmagatzematge i reduir el pes sec del vehicle. \n* 0,085 g/cm\u00B3 \n* Punt de fusi\u00F3 \u2212259 \u00B0C \n* Punt d'ebullici\u00F3 \u2212259 \u00B0C"@ca . . . . "Slush hydrogen is a combination of liquid hydrogen and solid hydrogen at the triple point with a lower temperature and a higher density than liquid hydrogen. It is commonly formed by repeating a freeze-thaw process. This is most easily done by bringing liquid hydrogen near its boiling point and then reducing pressure using a vacuum pump. The decrease in pressure causes the liquid hydrogen to vaporize/boil - which removes latent heat, and ultimately decreases the temperature of the liquid hydrogen. Solid hydrogen is formed on the surface of the boiling liquid (between the gas/liquid interface) as the liquid is cooled and reaches its triple point. The vacuum pump is stopped, causing an increase of pressure, the solid hydrogen formed on the surface partially melts and begins to sink. The solid hydrogen is agitated in the liquid and the process is repeated. The resulting hydrogen slush has an increased density of 16\u201320% when compared to liquid hydrogen. It is proposed as a rocket fuel in place of liquid hydrogen in order to use smaller fuel tanks and thus reduce the dry weight of the vehicle."@en . . . . "Hidrogen past\u00F3s"@ca . . . "1093531693"^^ . . . . . "\u30B9\u30E9\u30C3\u30B7\u30E5\u6C34\u7D20\uFF08\u30B9\u30E9\u30C3\u30B7\u30E5\u3059\u3044\u305D\u3001Slush hydrogen\uFF09\u306F\u3001\u6DB2\u4F53\u6C34\u7D20\u3088\u308A\u3082\u4F4E\u6E29\u9AD8\u5BC6\u5EA6\u3067\u3001\u6DB2\u4F53\u6C34\u7D20\u3068\u56FA\u4F53\u6C34\u7D20\u304C\u5165\u308A\u6DF7\u3058\u3063\u305F\u3001\u6C34\u7D20\u306E\u4E09\u91CD\u70B9\u306B\u304A\u3051\u308B\u72B6\u614B\u3067\u3042\u308B\u3002\u6DB2\u4F53\u6C34\u7D20\u3092\u6C34\u7D20\u306E\u878D\u70B9\uFF08-259.14\u2103\uFF09\u4ED8\u8FD1\u307E\u3067\u51B7\u5374\u3059\u308B\u3053\u3068\u3067\u5F97\u3089\u308C\u308B\u3002\u3053\u306E\u6E29\u5EA6\u3067\u306F\u3001\u6DB2\u4F53\u6C34\u7D20\u3068\u6BD4\u3079\u3001\u5BC6\u5EA6\u304C16-20%\u5927\u304D\u304F\u306A\u308B\u3002\u30BF\u30F3\u30AF\u5BB9\u91CF\u3092\u6E1B\u3089\u3057\u3001\u30ED\u30B1\u30C3\u30C8\u306E\u91CD\u91CF\u3092\u524A\u6E1B\u3067\u304D\u308B\u305F\u3081\u3001\u6DB2\u4F53\u6C34\u7D20\u306E\u4EE3\u66FF\u3068\u3057\u3066\u30ED\u30B1\u30C3\u30C8\u71C3\u6599\u306B\u7528\u3044\u308B\u3053\u3068\u304C\u63D0\u6848\u3055\u308C\u3066\u3044\u308B\u3002"@ja . . . . . . . . . . . . . "L\u2019hydrog\u00E8ne p\u00E2teux[r\u00E9f. n\u00E9cessaire] (en anglais slush hydrogen : \u00AB slush \u00BB signifie \u00AB neige fondante \u00BB, soit un m\u00E9lange solide et liquide) est une combinaison d'hydrog\u00E8ne liquide (LH2) et solide au point triple dont la particularit\u00E9 est d'avoir une temp\u00E9rature inf\u00E9rieure et une plus haute densit\u00E9 que l'hydrog\u00E8ne liquide. Il se forme en abaissant la temp\u00E9rature de l'hydrog\u00E8ne liquide \u00E0 proximit\u00E9 de son point de fusion, \u00E0 14,01 K (\u2212259,14 \u00B0C). Sa densit\u00E9 est sup\u00E9rieure de 16 \u00E0 20 % \u00E0 celle de l'hydrog\u00E8ne liquide. Il a \u00E9t\u00E9 utilis\u00E9 comme carburant de remplacement du LH2 pour moteur-fus\u00E9e, afin de diminuer le poids de certains v\u00E9hicules spatiaux."@fr . . "L\u2019hydrog\u00E8ne p\u00E2teux[r\u00E9f. n\u00E9cessaire] (en anglais slush hydrogen : \u00AB slush \u00BB signifie \u00AB neige fondante \u00BB, soit un m\u00E9lange solide et liquide) est une combinaison d'hydrog\u00E8ne liquide (LH2) et solide au point triple dont la particularit\u00E9 est d'avoir une temp\u00E9rature inf\u00E9rieure et une plus haute densit\u00E9 que l'hydrog\u00E8ne liquide. Il se forme en abaissant la temp\u00E9rature de l'hydrog\u00E8ne liquide \u00E0 proximit\u00E9 de son point de fusion, \u00E0 14,01 K (\u2212259,14 \u00B0C). Sa densit\u00E9 est sup\u00E9rieure de 16 \u00E0 20 % \u00E0 celle de l'hydrog\u00E8ne liquide. Il a \u00E9t\u00E9 utilis\u00E9 comme carburant de remplacement du LH2 pour moteur-fus\u00E9e, afin de diminuer le poids de certains v\u00E9hicules spatiaux."@fr . . . . . . "Waterstof-slush"@nl . . . . . . . . . "\u4E09\u76F8\u70B9\u4E0A\u7684\u6C22\u662F\u56FA\u6001\u6DB2\u6001\u6C22\u5728\u6C22\u4E09\u76F8\u70B9\u4E0A\u7684\u6DF7\u5408\u7269\u3002\u6B64\u5F62\u6001\u7684\u6C22\u6BD4\u666E\u901A\u7684\u6DB2\u6001\u6C22\u6709\u66F4\u4F4E\u7684\u6E29\u5EA6\u548C\u66F4\u9AD8\u7684\u5BC6\u5EA6\u589E\u52A016\u201320%\uFF09\u3002\u628A\u6DB2\u6001\u6C22\u51B7\u5374\u5230\u5C06\u8FD1\u7194\u70B9 (14.01 K \u6216 \u2212259.14 \u00B0C)\uFF0C\u538B\u529B\u4E0B\u964D\uFF0C\u4E09\u76F8\u70B9\u4E0A\u7684\u6C22\u5C31\u4EA7\u751F\u4E86\u3002\u53EF\u7528\u4E8E\u706B\u7BAD\u71C3\u6599\uFF0C\u4EE5\u4FBF\u7528\u66F4\u5C0F\u7684\u7A7A\u95F4\u50A8\u5B58\u66F4\u591A\u71C3\u6599\u3002"@zh . . "\u30B9\u30E9\u30C3\u30B7\u30E5\u6C34\u7D20"@ja . . . . "Slush (van het Engelse slush, 'brij') is de benaming die wordt gegeven aan een mengsel van vaste en vloeibare waterstof op het tripelpunt met een lagere temperatuur en hogere dichtheid dan vloeibare waterstof. Dit pasteuze mengsel, in het Engels slush hydrogen genoemd, wordt gevormd door de temperatuur van vloeibare waterstof te verlagen tot net onder het smeltpunt van 14,01 K (-259,14 \u00B0C), met als gevolg een toename in dichtheid van 16-20% in vergelijking met vloeibare waterstof."@nl . . . "\u30B9\u30E9\u30C3\u30B7\u30E5\u6C34\u7D20\uFF08\u30B9\u30E9\u30C3\u30B7\u30E5\u3059\u3044\u305D\u3001Slush hydrogen\uFF09\u306F\u3001\u6DB2\u4F53\u6C34\u7D20\u3088\u308A\u3082\u4F4E\u6E29\u9AD8\u5BC6\u5EA6\u3067\u3001\u6DB2\u4F53\u6C34\u7D20\u3068\u56FA\u4F53\u6C34\u7D20\u304C\u5165\u308A\u6DF7\u3058\u3063\u305F\u3001\u6C34\u7D20\u306E\u4E09\u91CD\u70B9\u306B\u304A\u3051\u308B\u72B6\u614B\u3067\u3042\u308B\u3002\u6DB2\u4F53\u6C34\u7D20\u3092\u6C34\u7D20\u306E\u878D\u70B9\uFF08-259.14\u2103\uFF09\u4ED8\u8FD1\u307E\u3067\u51B7\u5374\u3059\u308B\u3053\u3068\u3067\u5F97\u3089\u308C\u308B\u3002\u3053\u306E\u6E29\u5EA6\u3067\u306F\u3001\u6DB2\u4F53\u6C34\u7D20\u3068\u6BD4\u3079\u3001\u5BC6\u5EA6\u304C16-20%\u5927\u304D\u304F\u306A\u308B\u3002\u30BF\u30F3\u30AF\u5BB9\u91CF\u3092\u6E1B\u3089\u3057\u3001\u30ED\u30B1\u30C3\u30C8\u306E\u91CD\u91CF\u3092\u524A\u6E1B\u3067\u304D\u308B\u305F\u3081\u3001\u6DB2\u4F53\u6C34\u7D20\u306E\u4EE3\u66FF\u3068\u3057\u3066\u30ED\u30B1\u30C3\u30C8\u71C3\u6599\u306B\u7528\u3044\u308B\u3053\u3068\u304C\u63D0\u6848\u3055\u308C\u3066\u3044\u308B\u3002"@ja . . "L'hidrogen past\u00F3s \u00E9s una combinaci\u00F3 d'hidrogen l\u00EDquid i hidrogen s\u00F2lid al punt triple amb una temperatura inferior i densitat m\u00E9s elevada que l'hidrogen l\u00EDquid. Es forma fent baixar la temperatura de l'hidrogen l\u00EDquid fins a gaireb\u00E9 el punt de fusi\u00F3 (14,01 K o \u2212259,14 \u00B0C) que incrementa la densitat en un 16-20% en comparaci\u00F3 amb l'hidrogen l\u00EDquid. S'ha proposat com a propergol en lloc de l'hidrogen l\u00EDquid per millorar-ne l'emmagatzematge i reduir el pes sec del vehicle. \n* 0,085 g/cm\u00B3 \n* Punt de fusi\u00F3 \u2212259 \u00B0C \n* Punt d'ebullici\u00F3 \u2212259 \u00B0C"@ca . . . "Slush hydrogen"@en .