排序方式: 共有15条查询结果,搜索用时 31 毫秒
1.
Yuki Kano Toru Sato Jun Kita Shinichiro Hirabayashi Shigeru Tabeta 《International Journal of Greenhouse Gas Control》2009,3(5):617-625
A numerical study was conducted to predict pCO2 change in the ocean on a continental shelf by the leakage of CO2, which is originally stored in the aquifer under the seabed, in the case that a large fault connects the CO2 reservoir and the seabed by an earthquake or other diastrophism. The leakage rate was set to be 6.025 × 10−4 kg/m2/sec from 2 m × 100 m fault band, which corresponds to 3800 t-CO2/year, referring to the monitored seepage rate from an existing EOR field. The target space in this study was limited to the ocean above the seabed, the depth of which was 200 or 500 m. The computational domain was idealistically rectangular with the seabed fault-band perpendicular to the uniform flow. The CO2 takes a form of bubbles or droplets, depending on the depth of water, and their behaviour and dissolution were numerically simulated during their rise in seawater flow. The advection–diffusion of dissolved CO2 was also simulated. As a result, it was suggested that the leaked CO2 droplets/bubbles all dissolve in the seawater before spouting up to the atmosphere, and that the increase in pCO2 in the seawater was smaller than 500 μ atm. 相似文献
2.
Tov Elperin Nathan Kleeorin Michael A. Liberman Victor S. L’vov Igor Rogachevskii 《Environmental Fluid Mechanics》2007,7(2):173-193
A mechanism of formation of small-scale inhomogeneities in spatial distributions of aerosols and droplets associated with
clustering instability in the atmospheric turbulent flow is discussed. The particle clustering is a consequence of a spontaneous
breakdown of their homogeneous space distribution due to the clustering instability, and is caused by a combined effect of
the particle inertia and a finite correlation time of the turbulent velocity field. In this paper a theoretical approach proposed
in Elperin et al. (2002) Phys Rev E 66:036302 is further developed and applied to investigate the mechanisms of formation
of small-scale aerosol inhomogeneities in the atmospheric turbulent flow. The theory of the particle clustering instability
is extended to the case when the particle Stokes time is larger than the Kolmogorov time scale, but is much smaller than the
correlation time at the integral scale of turbulence. We determined the criterion of the clustering instability for the Stokes
number larger than 1. We discussed applications of the analyzed effects to the dynamics of aerosols and droplets in the atmospheric
turbulent flow. 相似文献
3.
2009年5~10月在石家庄地区对雾霾天气下的近地面到高空的云雾滴和云凝结核(CCN)进行了7架次飞机探测.利用PMS云粒子测量仪器、机载温湿仪和连续气流纵向热梯度云凝结核仪获得的云雾粒子和云凝结核(CCN)探测资料,分析了层积云(Sc)和高积云(Ac)中云粒子浓度、液态含水量、粒子算术平均直径和粒子有效平均直径的垂直分布特征;分析了CCN垂直和水平分布特征以及谱分布.结果表明雾霾天气状况下,云滴数浓度在102个/cm3量级上.高云粒子粒径总体大于低云粒子.云含水量平均值范围为0.03~0.14g/m3;地面到600 m高度内, CCN值的平均值为3034cm-3(过饱和度S=0.3%).对CCN的活化谱进行拟合表明石家庄属于典型大陆性核谱,云对CCN有消耗作用,逆温层的存在使得该区CCN浓度累积增加. 相似文献
4.
5.
F.R. Hall A.C. Chappie R.A.J. Taylor R.A. Downer 《Journal of environmental science and health. Part. B》2013,48(4):661-678
Abstract The application of agrichemicals is a highly inefficient process and one of the main causes of the environmental and health risks currently associated with pesticide usage. Efforts to mitigate this inefficiency have largely been unsuccessful, due principally to the poor understanding of the processes involved in the spray application of pesticides, from atomization to biological effect. A generalized model of the application system for pesticides from atomization to biological result is described in this overview. The model allows the investigation of the biological consequences of altering the application parameters for the bacterial insecticide Bacillus thuringiensis when used against the diamondback moth (Plutella xylostella L.) with cabbage as the substrate. Parameters input into the model include the in‐flight droplet size frequency distribution of the spray cloud, spatial distribution of the deposit, spread and subsequent environmental degradation of the deposit, and behavioral and toxicological effects. It is hoped that such a modelling approach can afford insights into the application process, and, through a better understanding of the inefficient but still highly effective hydraulic application systems used worldwide, reduce that inefficiency to tolerable levels. 相似文献
6.
管孝瑞 《安全.健康和环境》2019,19(1):13-18
基于管内气液两相流动理论,建立了低含液管道两相流动数学模型,对管路内气相流场、液滴空间分布进行了研究。结果表明:运用边界层网格与增强壁面函数相结合的方法,能够很好地模拟近壁处流场;水平管内液滴群主要集中在中下部区域;弯头内离心力促使液滴群向外侧运动;受上游弯头的影响,竖直管内存在一对涡核,沿流动方向,竖直管右侧液滴群浓度逐渐下降,液滴群分布范围变大,有向左侧运动的行为。 相似文献
7.
气动雾化含有酚、甲醛的标样产生气溶胶,因其微粒中金属元素在炬焰中原子化效率的提高,结果ICP-AES法的检测能力提高了1~2个数量级。 相似文献
8.
Reinke N. Voßnacke A. Schütz W. Koch M. K. Unger H. 《Water, Air, & Soil Pollution: Focus》2001,1(5-6):333-340
Sea salt particles are part ofmarine aerosols in the troposphere. A fraction ofthese particles is released by droplets generatedduring the bursting of bubbles at the ocean surface.Droplets result from fragmentation of film caps (filmdroplets) and the disintegration of water jets formedsubsequent to the bubble collapse (jet droplets).This release process is also of importance fortechnical applications and, consequently, simulationtools have been developed, which now may be used toquantify the contribution of these effects to marineaerosol generation. To calculate the amount of filmdroplets generated, it is necessary to determine thevolume of the film cap, which is a function of itsthickness and surface area. While surface areas ofsmall bubbles can be determined by an analyticalsolution of a simplified balance of forces, shapes oflarge non-spherical bubbles are calculatednumerically. The determination of the film thicknessis based on a resonance model for bubbleoscillations. For a detailed analysis of the jetdroplet generation, the bubble burst induced jetformation and disintegration is simulated numericallyusing a SOLA-MAC algorithm. 相似文献
9.
10.
Chandra Nath Shiv G. Kapoor Anil K. Srivastava Jon Iverson 《Journal of Manufacturing Processes》2013,15(4):419-425
The aim of this work is to investigate the effect of metal-working fluid (MWF) concentration on the machining responses including tool life and wear, cutting force, friction coefficient, chip morphology, and surface roughness during the machining of titanium with the use of the ACF spray system. Five different concentrations from 5 to 15% of a water-soluble metalworking fluid (MWF) were applied during turning of a titanium alloy, Ti–6Al–4V. The thermo-physical properties such as viscosity, surface tension and thermal conductivity of these concentrations were also measured. The test results demonstrate that the tool life first extends with the increase in MWF concentration and then drops with further increase. At low concentration (e.g., 5%), a lack of the lubrication effect causes to increase in a higher friction at the tool–chip interface resulting in severe chipping and tool nose/flank wear within a short machining time. On the other hand, at high concentration, the cooling effect is less. This increases cutting temperature and a faster thermal softening/chipping/notching of the tool material and higher friction at the tool–chip–workpiece interaction zones resulting in early tool failure. A good balance between the cooling and the lubrication effects seems to be found at the 10% MWF concentration as it offers the best machining performance. However, machining with flood coolant is observed to perform the best in the range of 5–7%. 相似文献