自1985年以来,由苏必利尔湖上的浮标测量到的水表温度以每10年增长1.2度的速率上升,比湖面上方的空气升温速率快15%,并且是湖周围陆地升温速率的2倍。
Since 1985, surface water temperatures measured by lake buoys have climbed 1.2 degrees per decade, about 15 percent faster than the air above the lake and twice as fast as warming over nearby land.
保温系统:采用德国进口保温材料辐射材料加工而成,减低温度扩散损耗,简短加热时间升温快。
Insulation system: adopting germany-made insulation material, radiation reduction temperature, heating time brief loss of diffusion warming faster.
升温快,炉膛内温度均匀,产品成品率高。
Quickly increase temperature more uniform temperature in hearth, in hearht, higher pass-rate of production.
实验结果表明,高的反应温度和煅烧过程中快的升温速度明显增加了前驱体溶液中单斜氧化锆的形核数。
Experimental results indicate that a high reaction temperature and quickly ascending temperature speed apparently increase the nucleation number of monoclinic zirconia in the precursor solution.
脱卸式温控插头,可随意调节温度,升温快省时间,效率高;
Adjustable temperature: freely adjustable operating temperature, with fast temperature rise that saves time and high efficiency.
加热面积大、升温快、保温效果好、节能;功率调节式、温度调节式。
It features in large heating area, rapid heating up, good thermal protection effect and energy-saving effect.
由于隧道火灾温度高,升温速度快,会对衬砌结构造成严重的损坏,并影响衬砌结构体系的可靠性。
With high temperature and quick increase of temperature, the tunnel fire may do a heavy damage to tunnel lining and reduce the reliability of the structural system.
升温快,炉膛温度均匀,产品成品率高。
Quickly increase temperature, more uniform temperature in hearth, higher pass-rete of production.
它具有火焰不直接冲刷加热工件、升温速度快、加热温度均匀、节约燃料、结构新颖等特点。
It possesses the characteristics of fast speed heating up, homogeneous heating, fuel conservation and novel structure.
自动点火,风机助燃,升温快,温度高,火焰大小可自动调整。
Automatic ignition and combustion, fan, high temperature, warming faster size can automatically adjust the flame.
实验和密度泛函计算结果分析认为,高的反应温度和快的升温速度均是通过降低氧化锆前驱体网状结构的有序度来影响最终的氧化锆晶型。
The present experimental results and density functional theoretical analyses indicate that the effect of high reaction temperature and quickly ascending temperature speed on the final crystalline p…
实验和密度泛函计算结果分析认为,高的反应温度和快的升温速度均是通过降低氧化锆前驱体网状结构的有序度来影响最终的氧化锆晶型。
The present experimental results and density functional theoretical analyses indicate that the effect of high reaction temperature and quickly ascending temperature speed on the final crystalline p…
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