Separation Problem in Satellite Gravimetry

The problem of separating gravitation from inertia is discussed in very general sense, and the conclusion is positive: man can separate gravitation from inertia, if various observation techniques are applied for. The accelerometer's position problem in satellite gravimetry is investigated, and the additional acceleration effect due to the position error of an instrument as well as the difference between the mass center and the gravity center is explored.     

方位－分维估值法进一步研究

本文通过对方位－分维估值法的进一步研究，提出了修改方法，使方位－分维估值法更符合实际情况．并且给出了方位－分维估值的估计方差的估计量，证明了该估计量具有强相合性。     

Numeric modelling and risk assessment of pollutions in the Chinese Bohai Sea

To simulate the dynamic process of total nitrogen (TN) in seas, numerical modelling combined with the adjoint method is implemented in this study. Because nonpoint source terms (ST) and initial values (IV) of TN are essential but difficult to determine, the adjoint method was applied to a numerical model, and the ST and IV terms of TN were inverted via routine monitoring data in the Bohai Sea. In twin experiments, the adjoint method was capable of inverting the prescribed spatio-temporally distributed ST and the spatial distributed IV. In practical experiments, the results demonstrated that the simulation precision with ST inversion was higher than that with IV inversion and was accurate with joint initial values and source term (IST) inversion. This result indicates that nonpoint source TN is essential for the simulation of TN concentration. Furthermore, the simulated results indicate that the pollution in three bays of the Bohai Sea is rather severe. The model in this study is not specific to the Bohai Sea and can be generalized to other areas, such as the Beibu Gulf. These findings may assist in the development of cost-effective controls for accidental or planned industrial pollutant releases into coastal waters.     

Utilization of water resources,ecological balance and land desertification in the Tarim Basin,Xinjiang

Because of the human exploitation and utilization of water resources in the Tarim Basin, the water resources consumption has changed from mainly natural ecosystem to artificial oasis ecosystem, and the environment has changed correspondingly. The basic changes are: desertification and oasis development coexist, both “the human being advance and the desert retreat” and “the desert advance and the human being retreat” coexist, but the latter is dominant. In the upper reaches, water volume drawing to irrigated agricultural areas has increased, artificial oases have been enlarging and moving from the deltas in the lower reaches of many rivers to the piedmont plains. In the middle and lower reaches of the Tarim River, the stream flow has decreased, old oases have declined, natural vegetations have been degenerating, desertification has been enlarging, and the environment has deteriorated. The transition regions, which consist of forestlands, grasslands and waters between the desert and the oases, have been decreasing continuously, their shelter function to the oases has been weakened, and the desert is threatening the oases seriously.

     

Nonlinear Analysis of Nearshore Wave Height Variation Due to Shoaling

Wave formulae derived from the dispersion relation for cnoidal waves are used to find an analytical solution to the problem of nearshore wave height variation on a simple topography, i. e., with an incrementally constant slope. The solution accounts for shoaling, frictional dissipation and will be sufficiently accurate for practical purposes considering the simplified assumptions which are necessary for the treatment of this problem by any method.     

Will Glacier No.1 Tianshan exist in the 22nd century?

Mountains have been described as the water towers of the world. Almost all major rivers have their sources in mountains; glaciers are important water resources that contribute meltwater to river discharge. Glaciers participate in the global water cycle and, with their solid water storage, are an important component of the water balance. As solid reservoirs, glaciers continue to receive the mass nourishment of solid precipitation from the atmosphere, and their meltwater feed and regulate river discharge. Physical changes in glaciers are an indicator of climate change. Over the past half century, the global temperature has increased by 1–2 °C, which emphasizes the urgent task of monitoring glaciers and predicting their trend. As an example, we have investigated, researched, and surveyed Glacier No.1 in the Urumqi River source, Tianshan (abbr. Glacier No.1 Tianshan or Glacier No.1) for half a century. We have found an increase by degrees of the glacial regression during the last 400 years and discovered a terminal moraine which is forming today. The global temperature is rising continually, while the local glacial temperature is 0.4 times that of the global temperature change. Thus, we forecast that Glacier No.1 Tianshan will disappear during the late 21^st Century (2074–2100 A.D.).     

On the dynamics of a solitary vortex

The dynamic equilibrium of a solitary vortex of permanent form but arbitrary shape is investigated on a β plane. The vortex is assumed to propagate in the east-west direction. Forces and moments acting on the vortex are computed and the balances between them obtained. The dynamic balances are required for the equilibrium of the vortex and represent the conditions necessary for the existence of a solitary vortex of permanent form. These conditions have two useful expressions, one as integral constraints on the vortex structure and the other as formulas for the propagation speed of the vortex. For the latter, the speed is shown to be proportional to the averaged velocity moment of the vortex and inversely proportional to its averaged relative vorticity. The propagation speed also depends on the size of the vortex; it increases with size for westward propagation and decreases with size for eastward propagation. The effect of current shear on the vortex is also investigated. The results of this study are applicable to the nonlinear barotropic vortex in a nondivergent fluid as well as to the baroclinic vortex, provided that the latter satisfies the quasigeostrophic approximation.     

近岸大区域水波数学模型及其数值求解

从水波发展方程出发,导出了大区域缓坡水波数学模型,并采用交错网格系统下的有限差分法对该数学模型进行了数值求解,计算结果表明该数学模型在粗网格下也能得到与实验结果比较一致的结果,从而表明该模型可用于较大区域的水波问题.该模型具有编程简单、求解比较快速、经济的优点.     

氢化物-原子荧光法快速测定化探样品中微量硒和碲

在沸水浴中用王水分解样品，以盐酸为还原剂，三价铁盐为干扰元素抑制剂（一般化探样品均含有铁，故无须另外加入），直接用氢化物一原子荧光光谱法测定化探样品中微量硒和碲。方法检出下限分别为：LD（Se）=0．1ng／L；LD（Te）=0．01ng／L。方法准确、简便、快速，可满足大批量化探样品中微量硒和碲的测定要求。用本分析方法测定不同基体成分的六个国家级化探标样中的硒、碲，测定结果与标准值基本一致，8次测定的标准偏差（RSD）分别为RSD（Se）=6．6％～9．5％，RSD（Te）=3．6％～8．4％。