A rock damage constitutive model and damage energy dissipation rate analysis for characterising the crack closure effect     

Tao Wen  Chenggang Yang  Xianlong Yi 《Geomechanics and Geoengineering》2018,13(1):54-63

Due to the insufficiency of the previous damage constitutive model for rock, an improved damage mechanics model for rock is proposed with characterising the crack closure effect. Otherwise, the effective methods of determining the model parameters and crack closure coefficient are proposed. The results represent that the model can reflect the damage evolution of rocks in the deformation process in the crack closure stage and this improved model is more reasonable than the previous model. Crack closure coefficient also has great effect on distribution parameters. The calculation formula of damage energy dissipation rate considered that crack closure effect is derived and the relationships between damage energy dissipation rate and crack closure coefficient are analysed. Crack closure coefficient has great effect on damage dissipation energy rate. Damage energy dissipation rate increases with the decrease of crack closure coefficient and damage energy dissipation rate increases quickly in the post-peak stage.  相似文献   

草原生长期地表辐射和能量通量月平均日变化特征   总被引：5，自引：1，他引：4  

岳平  张强  邓振镛  杨金虎  孙旭映 《冰川冻土》2010,32(5)

利用2008年5—9月锡林浩特国家气候观象台辐射和通量观测资料,分析了锡林浩特典型草原生长期各辐射分能量和同期能量通量的月平均日变化以及地表能量闭合度.结果表明:草原生长期总辐射月平均日最大值出现在7月,平均日最大辐射强度达到753.14W·m-2,最小值出现在5月,为697.27W·m-2.受地表反照率和太阳总辐射的影响,生长期反射辐射最大值出现在5月份,平均日积分值为4.92MJ·m-2;9月份最小,平均日积分值为3.76MJ·m-2.生长期获得的辐射能量为1385.67MJ·m-2,平均净辐射(Rn)强度为104.52W·m-2;感热通量(H)共支出640.39MJ·m-2,日平均强度为53.40W·m-2;潜热通量(LH)共支出772.96M·m-2,日平均强度为55.10W·m-2.Rn和H+HL+G线性回归的结果显示,草原生长期日平均能量闭合率为90%,能量不闭合程度为10%.  相似文献   

夏季敦煌稀疏植被下垫面物质和能量交换的观测研究   总被引：1，自引：0，他引：1  

王超  韦志刚  高晓清  李振朝  侯旭宏  刘慧  魏红 《高原气象》2012,31(3):622-628

利用2009年夏季敦煌地区加强期观测资料,分析了稀疏植被下垫面CO2、水汽的通量输送规律和地表辐射、能量平衡等微气象的变化特征。结果表明,敦煌地区夏季CO2、水汽通量有明显的日变化,其平均通量分别为-0.023mg.m-2.s-1和2.90mg.m-2.s-1;地表平均反照率为0.24,低于绿洲内部;感热是该地区地表热量流失的主要形式,潜热和土壤热通量相对较小,平均波文比为3.08;观测中也发现了有较大的能量不平衡现象,利用试验资料估算了土壤容积热容量,并在能量平衡方程中加入了土壤热储量,提高了能量平衡度。  相似文献   

湖南岳阳一次重度霾过程近地层物理量场异常特征分析     

覃军  袁正旋  曾向红  吴浩 《气候与环境研究》2018,23(5):533-542

利用杭瑞高速公路洞庭湖大桥北岸测风塔的梯度风观测资料、三维超声风温仪资料以及岳阳气象站提供的逐小时气溶胶浓度和能见度观测资料,对湖南岳阳2017年1月28日的一次重度霾天气中的重污染过程的近地层物理量变化特征进行了分析,结果表明:（1）重污染来临前约130 min即28日01:50（北京时间,下同）,水平风速、垂直风速、高低层风切变都出现零值,大气处于静稳状态。重污染结束前180 min即28日09:00,上述物理量和高低层温度切变出现零值。（2）湍流强度在重污染来临前有强烈异常信号,其中水平纵向湍流强度异常信号最明显,于重污染发生前130 min出现异常峰值4.15,重污染结束前180 min出现异常峰值3.24。（3）湍流动能和动量通量都在重污染来临前130 min接近0.0 m2/s2,即湍流交换最弱,有利于污染物在近地面的持续堆积和重污染过程的发生。近地层的平均物理量和湍流特征量的异常信号的出现时间有较好的一致性,即出现在重污染来临前的130 min和结束前的180 min。揭示了重度霾污染天气的近地层物理量时间变化规律,着重分析了霾污染的生成、发展、消亡全过程的边界层湍流异常的前期信号,为深入认识霾污染天气进行有益的探索并为这类天气的预测预警提供科学依据。  相似文献   

Weak vertical diffusion allows maintenance of cold halocline in the central Arctic   总被引：3，自引：0，他引：3       下载免费PDF全文

Ilker FER 《大气和海洋科学快报》2009,2(3):148-152

In spring preceding the record minimum summer ice cover detailed microstructure measurements were made from drifting pack ice in the Arctic Ocean, 110 km from the North Pole. Profiles of hydrography, shear, and temperature microstructure collected in the upper water column covering the core of the Atlantic Water are analyzed to determine the diapycnal eddy diffusivity, the eddy diffusivity for heat, and the turbulent flux of heat. Turbulence in the bulk of the cold halocline layer was not strong enough to generate significant buoyancy flux and mixing. Resulting turbulent heat flux across the upper cold halocline was not significantly different than zero. The results show that the low levels of eddy diffusivity in the upper cold halocline lead to small vertical turbulent transport of heat, thereby allowing the maintenance of the cold halocline in the central Arctic.  相似文献   

A Wind-Tunnel Investigation of Wind-Turbine Wakes: Boundary-Layer Turbulence Effects   总被引：1，自引：1，他引：0  

Leonardo P. Chamorro  Fernando Porté-Agel 《Boundary-Layer Meteorology》2009,132(1):129-149

Wind-tunnel experiments were performed to study turbulence in the wake of a model wind turbine placed in a boundary layer developed over rough and smooth surfaces. Hot-wire anemometry was used to characterize the cross-sectional distribution of mean velocity, turbulence intensity and kinematic shear stress at different locations downwind of the turbine for both surface roughness cases. Special emphasis was placed on the spatial distribution of the velocity deficit and the turbulence intensity, which are important factors affecting turbine power generation and fatigue loads in wind energy parks. Non-axisymmetric behaviour of the wake is observed over both roughness types in response to the non-uniform incoming boundary-layer flow and the effect of the surface. Nonetheless, the velocity deficit with respect to the incoming velocity profile is nearly axisymmetric, except near the ground in the far wake where the wake interacts with the surface. It is found that the wind turbine induces a large enhancement of turbulence levels (positive added turbulence intensity) in the upper part of the wake. This is due to the effect of relatively large velocity fluctuations associated with helicoidal tip vortices near the wake edge, where the mean shear is strong. In the lower part of the wake, the mean shear and turbulence intensity are reduced with respect to the incoming flow. The non-axisymmetry of the turbulence intensity distribution of the wake is found to be stronger over the rough surface, where the incoming flow is less uniform at the turbine level. In the far wake the added turbulent intensity, its positive and negative contributions and its local maximum decay as a power law of downwind distance (with an exponent ranging from −0.3 to −0.5 for the rough surface, and with a wider variation for the smooth surface). Nevertheless, the effect of the turbine on the velocity defect and added turbulence intensity is not negligible even in the very far wake, at a distance of fifteen times the rotor diameter.  相似文献   

Mixing efficiency in decaying stably stratified turbulence     

Derek D. Stretch  James W. Rottman  S.Karan Venayagamoorthy  Keiko K. Nomura  Chris R. Rehmann 《Dynamics of Atmospheres and Oceans》2010

Mixing efficiency in stratified flows is a measure of the proportion of turbulent kinetic energy that goes into increasing the potential energy of the fluid by irreversible mixing. In this research direct numerical simulations (DNS) and rapid distortion theory (RDT) calculations of transient turbulent mixing events are carried out in order to study this aspect of mixing. In particular, DNS and RDT of decaying, homogeneous, stably-stratified turbulence are used to determine the mixing efficiency as a function of the initial turbulence Richardson number R_it0=(N_L0/_u0)²$R{i}_{t0}={(N{L}_0/u_0)}^2$, where N   is the buoyancy frequency and _L0$L_0$ and _u0$u_0$ are initial length and velocity scales of the turbulence. The results show that the mixing efficiency increases with increasing R_it0$R{i}_{t0}$ for small R_it0$R{i}_{t0}$, but for larger R_it0$R{i}_{t0}$ the mixing efficiency becomes approximately constant. These results are compared with data from towed grid experiments. There is qualitative agreement between the DNS results and the available experimental data, but significant quantitative discrepancies. The grid turbulence experiments suggest a maximum mixing efficiency (at large R_it0$R{i}_{t0}$) of about 6%, while the DNS and RDT results give about 30%. We consider two possible reasons for this discrepancy: Prandtl number effects and non-matching initial conditions. We conclude that the main source of the disagreement probably is due to inaccuracy in determining the initial turbulence energy input in the case of the grid turbulence experiments.  相似文献   

二维均匀剪切湍流的湍涡闭合方案   总被引：1，自引：0，他引：1  

赵建华  张强 《干旱气象》2010,28(1):8-19

通过仔细分析Thorpe与Woods等对湍流的典型实验,得到如下结论:(1)提出了湍流的太极模型;(2)指出了湍流串级的内容包括2个内容,一是湍流外圈层(大涡)在内旋到内部时产生新的圈层(小涡),二是在阴阳旋臂相切的锋面由于依然存在较大切变而产生新的次尺度湍涡;(3)指出湍流的耗散机制是通过湍涡,把具有切变的2流场的交界面通过旋转而无限拉长以增大2者的接触面积,加强了交界面之间的分子交换,从而实现了湍流层层混合的高效率;(4)基于湍涡结构,提出了湍涡闭合方案,给出了Reynolds应力的表达式,闭合了雷诺方程;(5)混合长反映了湍涡的大小,Karman常数则反映了湍涡内外半径比的关系;(6)指出Reynolds方程算子是湍流方程推导的关键,提出了湍流算子的概念;(7)推导出了新型的湍流运动方程;(8)提出了关系不变性原理。  相似文献   

The Budget of Turbulent Kinetic Energy in the Urban Roughness Sublayer   总被引：4，自引：4，他引：0  

Andreas Christen  Mathias W. Rotach  Roland Vogt 《Boundary-Layer Meteorology》2009,131(2):193-222

Full-scale observations from two urban sites in Basel, Switzerland were analysed to identify the magnitude of different processes that create, relocate, and dissipate turbulent kinetic energy (TKE) in the urban atmosphere. Two towers equipped with a profile of six ultrasonic anemometers each sampled the flow in the urban roughness sublayer, i.e. from street canyon base up to roughly 2.5 times the mean building height. This observational study suggests a conceptual division of the urban roughness sublayer into three layers: (1) the layer above the highest roofs, where local buoyancy production and local shear production of TKE are counterbalanced by local viscous dissipation rate and scaled turbulence statistics are close to to surface-layer values; (2) the layer around mean building height with a distinct inflexional mean wind profile, a strong shear and wake production of TKE, a more efficient turbulent exchange of momentum, and a notable export of TKE by transport processes; (3) the lower street canyon with imported TKE by transport processes and negligible local production. Averaged integral velocity variances vary significantly with height in the urban roughness sublayer and reflect the driving processes that create or relocate TKE at a particular height. The observed profiles of the terms of the TKE budget and the velocity variances show many similarities to observations within and above vegetation canopies.  相似文献   

Eddy-Covariance Flux Measurements in the Complex Terrain of an Alpine Valley in Switzerland   总被引：1，自引：1，他引：0  

Rebecca Hiller  Matthias J. Zeeman  Werner Eugster 《Boundary-Layer Meteorology》2008,127(3):449-467

We measured the surface energy budget of an Alpine grassland in highly complex terrain to explore possibilities and limitations for application of the eddy-covariance technique, also for CO₂ flux measurements, at such non-ideal locations. This paper focuses on the influence of complex terrain on the turbulent energy measurements of a characteristic high Alpine grassland on Crap Alv (Alp Weissenstein) in the Swiss Alps during the growing season 2006. Measurements were carried out on a topographic terrace with a slope of 25^◦ inclination. Flux data quality is assessed via the closure of the energy budget and the quality flag method used within the CarboEurope project. During 93% of the time the wind direction was along the main valley axis (43% upvalley and 50% downvalley directions). During the transition times of the typical twice daily wind direction changes in a mountain valley the fraction of high and good quality flux data reached a minimum of ≈50%, whereas during the early afternoon ≈70% of all records yielded good to highest quality (CarboEurope flags 0 and 1). The overall energy budget closure was 74 ± 2%. An angular correction for the shortwave energy input to the slope improved the energy budget closure slightly to 82 ± 2% for afternoon conditions. In the daily total, the measured turbulent energy fluxes are only underestimated by around 8% of net radiation. In summary, our results suggest that it is possible to yield realistic energy flux measurements under such conditions. We thus argue that the Crap Alv site and similar topographically complex locations with short-statured vegetation should be well suited also for CO₂ flux measurements.  相似文献