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20 0 1年冬季 ,的确让人们体会到暖冬的滋味。不仅很少遇上“萧条起关塞 ,摇扬下蓬瀛”的凛冽寒风 ,亦少见“一夜寒生骨 ,满天飞散花”的冰雪天气。相反 ,在“三九”天里 ,不仅闻到了雷声 ,而且“九”未尽 ,倒有几分春讯闹枝头 ,杏花已开 ,杨柳披绿了。如果把我们的思绪再往前延伸 ,就不难发现 ,冬季偏暖又何止是 2 0 0 1年 ?除去偏暖程度和地域范围的差异 ,已经是十几个冬季偏暖了。尽管如此 ,它对人们的生产、生活并未带来多大的影响。我们所说的偏暖 ,只是以建国以后或有记载以来的资料进行对比后得出的结论 ,这就难免有局限性。测定空气… 相似文献
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INTRODUCTIONBased onthe results gathered after manyyears of seismic groundwater observation,itisfoundthatthe water level in deep wells responds to the earth’s tide and atmospheric pressure and changesaccordingly,not onlyin amplitude ,but also in the phase lag by different degrees .Some phase lagslast onlyfor several minutes ,while some last aslong as more than one hour (Zhang Zhaodong,1988 ;Wang Chengmin,1990) .The result of this theoretical research shows that the phase lag response to… 相似文献
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以自然解吸样品为对象,研究大气压力对煤样解吸气含量测试结果的影响。结果表明:当样品从大气压力较低的采样地点返回大气压力较高的实验室后,每24 h的解吸气含量测试结果明显减小,减小的幅度明显大于采样地点每24 h减小的幅度;对于开始7 d解吸气含量测试结果为零或者较小、按照标准可以结束测试的样品,建议将测试时间延长在3周左右,若按照标准仍旧可以结束测试时,再停止实验;如果样品在采样地点进行解吸实验直到结束,总解吸气含量测试结果将大于实验室。 相似文献
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Phengites in ecologites of the Dabieshan region can be divided into three enerations:primary phengite formed during ecologite-facies prograde metamorphism(Phel),phengite formed during the late stage of eclogite-facies retrograde metamorphism(Phe2)and phengite formed during amphibolite-to greenschist-facies diaphthoresis(Phe3).Electron microprobe analyses show that the Si and Fe^2 Mg contents of Phel are unexpectedly lower than those of Phe3.Therefore,much caution should be exerciesed while using the Si content of phengite to estimate the pressure of a retrograde process. 相似文献
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简述了压力传感器的温度补偿技术以及如何选择恒流源和数据放大器,重点对气压计的系统电路进行了设计。安装调试,结果证明,线性很好,完全符合设计要求。 相似文献
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Seasonal cycle is the most significant signals of topography and circulation in the Bohai Sea (BS)and Yellow Sea (YS) forced by prevailing monsoon and is still poorly understood due to lack of data in their interiors. In the present study, seasonal cycles of topography in the BS and YS and its relationship with atmospheric forcing and oceanic adjustment were examined and discussed using TOPEX/Poseidon and ERS-I/2 Sea Level Anomalies (SLA) data. Analyses revealed complicated seasonal cycles of topography composed mainly of 2 REOF modes, the winter-summer mode (WlM) and spring-autumn mode (SAM). The WlM with action center in the BS displayed peak and southward pressure gradient in July, and valley and northward pressure gradient in January, which is obviously the direct response to monsoon with about l-month response time. The SAM with action center in the western south YS displayed peak and northward pressure gradient in October and valley and southward pressure gradient in April. After the mature period of monsoon, the action center in the BS becam eweakened while that in the western south YS became strengthened because of regional convergence or divergence induced by seasonal variations of the Taiwan Warm Current and Yellow Sea Coastal Current. The direct response of topography to monsoon resulted in the WIM, while oceanic adjustment of topography played an important role in the forming of the SAM. 相似文献
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1原理
二氧化碳和甲烷的不同吸附特征可以用于封存二氧化碳并且提高不可开采煤层中甲烷气体回采率。在5-8个大气压力下,一吨煤能吸收二氧化碳气体30-35立方米。使用适当的压力,每摩尔甲烷可以置换二氧化碳气体1.5到5或6摩尔。利用上述提到的文献资料计算出二氧化碳的封存量。 相似文献