粉碎机异形筛片气流场数值模拟及试验研究

针对传统环筛式锤片饲料粉碎机存在气固环流层影响粉碎机性能的问题,采用理论分析、数值模拟、粉碎性能试验相结合的方法,对粉碎机安装异形筛片时粉碎室内物料颗粒受到的气力作用和内部流场运动规律进行研究。分析粉碎机使用异形筛片对粉碎性能的影响。优化后的异形筛片分别命名为B_1(小圆弧半径R_1=51mm)、B_2(R_1=83mm)、B_3(R_1=93mm),利用流体动力学软件对粉碎室安装3种异形筛片的气流场进行数值模拟,获得粉碎室气流场分布信息。在相同工况下,对装有3种异形筛片的CPS-420型粉碎机进行粉碎性能试验,分析不同筛片对物料粉碎效果的影响。模拟结果表明:粉碎机采用间隔分段圆弧筛片后,粉碎室环流区域产生不同强度的涡旋,能够改变物料环流运动规律,提高物料过筛能力;锤片组扫过区域的气流呈现出较为杂乱无序的分布状态,有利于形成湍流运动,从而增加物料颗粒受打击几率。粉碎性能试验结果表明:锤片饲料粉碎机安装B_3筛片的粉碎机生产效率,较B2、B1筛片分别提高8.1%、16.0%,吨料耗电量分别降低10.5%、15.0%,温升分别降低0.6和0.1℃。优化后的3种异形筛片,能够提高粉碎机的生产效率,降低电能的损耗、改善物料温升,对提高锤片饲料粉碎机性能具有积极意义。     

海水交换能力的研究进展

海水交换研究是海洋生态研究的新热点问题,对海域环境质量的评价有重要作用,并且对新兴的人工鱼礁区海洋生态变动机制的研究也有重要的意义。文章综述了国内外海水交换能力的研究进展,系统地分析和评价了国内外海水交换的研究方法,提出了海湾水交换以及人工鱼礁区水交换研究的发展趋势,为以后的相关研究提供参考。     

未来气候变化情景下我国主要粮食作物产量变化模拟

采用气候模式BCC-T63与作物模式WOFOST相结合的研究方法,在多年试验数据和模型适宜性验证的基础上,模拟分析了未来100 a(2000～2100年)气候变化情景下我国主要粮食作物发育和产量变化趋势.主要的粮食作物选取东北区域的玉米、华北区域的冬小麦和南方区域的双季稻.东北区域为东经120°～135°,北纬40°～50°,主要以黑龙江、吉林和辽宁三省区为研究对象;华北区域为东经111°～123°,北纬35°～41°,主要包括京、晋、冀和鲁等地;南方区域为东经109°～120°,北纬25°～30°,主要包括湖南、湖北以及江西等地.结果表明:东北地区玉米生育期会缩短,其中,中熟玉米平均缩短3.8 d,晚熟玉米平均缩短1.4 d,产量也会相应地下降,中热玉米平均减产3.3%,晚熟玉米平均减产2.7%;华北地区冬小麦的生育期平均缩短8.4 d;产量平均减产10.1%;南方早稻生育期平均缩短4.9 d,晚稻生育期平均缩短4.4 d,早稻的产量变化范围为1.9%～-9.5%,平均减产3.6%,晚稻的产量变化范围为2.2%～-7.3%,平均减产2.8%.     

直接模拟蒙特卡罗方法在CFD冲蚀预测中的应用

为研究气固两相流中固体颗粒间碰撞对冲蚀的影响,提出一种利用直接模拟蒙特卡罗(Direct Simulation Monte Carlo,DSMC)方法和计算流体力学(CFD)计算颗粒间碰撞的冲蚀预测方法。使用Eulerian-Lagrangian方法,将气相作为连续相,通过Navier-Stokes方程求解,颗粒平移运动由离散相模型(DPM)求解。颗粒平移运动由Eulerian-Lagrangian框架下的DPM求解,计算颗粒间碰撞运动时采用DSMC方法以少量采样颗粒代替真实颗粒,碰撞的发生条件通过修正的Nanbu方法判定。分析气固两相流中颗粒间碰撞对弯管冲蚀速率和颗粒分布的影响,结果表明:使用DSMC方法计算颗粒间碰撞,Oka模型的平均百分误差从39.2%降低至27.4%;计算颗粒间碰撞时弯管内拱侧的无颗粒区变小,最大冲蚀位置沿外拱轴线后移5°,同时V形冲蚀痕迹的两翼向外侧扩大。使用DSMC方法计算颗粒间碰撞可以明显降低模型误差,考虑颗粒间碰撞的Oka模型与实验结果偏差最小,是冲蚀预测的最佳模型。     

Effects of hysteresis on redistribution of soil moisture and deep percolation at continuous and pulse drip irrigation

The infiltration and redistribution of soil moisture under surface drip irrigation considering hysteresis were investigated in two soils (loamy sand and silt loam) of different texture. The effect of continuous versus intermittent application of 1, 2 and 4 l/h to the soils was evaluated in terms of wetting front advance patterns and deep percolation under the root zone. For this purpose, a cylindrical flow model incorporating hysteresis in the soil water retention characteristic curve, evaporation from the soil surface, and water extraction by roots was used. The results show that, compared with continuous irrigation, pulse irrigation slightly reduces the water losses under the root zone in both cases (with and without hysteresis). Also, at the total simulation time, in both types of irrigation, hysteresis reduces significantly the water losses under the root zone. Finally, the effect of hysteresis was found to be greater at higher discharge rate (4 l/h) and consequently at higher water content at the soil surface.     

The role of models for multicriteria evaluation and multiobjective design of cropping systems for managing weeds

Weeds are both harmful for crop production and important for biodiversity, while herbicides can pollute the environment. We thus need new cropping systems optimising all cultural techniques, reconciling agricultural production, herbicide reduction and biodiversity conservation. Here, we show how to (i) develop models quantifying the effects of cropping systems on weed dynamics, (ii) integrate interactions between weeds and other organisms, (iii) predict the impact on production and biodiversity and (iv) use the model for multicriteria evaluation and multiobjective design of cropping systems. Among the existing weed dynamics models, we chose the one closest to our requirements to illustrate these different steps, that is, FlorSys which predicts multispecific weed dynamics as a function of cultural techniques and pedoclimate. We have illustrated the development of interaction submodels with the example of a crop pathogen whose propagation is increased when infecting grass weeds. To evaluate the weed flora impact, predicted weed densities were translated into indicators of harmfulness (crop yield loss, technical harvest problems, harvest pollution, field infestation, crop disease increase) and biodiversity (weed species richness and equitability, trophic resources for birds, insects and pollinators). Simulations were run over several years and with different weather scenarios (i) to optimise cultural techniques to control harmful weeds, (ii) to analyse the impact of changing agricultural practices (e.g. simplified tillage and rotations, no‐till, temporary crops) on weed density, species and trait composition and (iii) to evaluate cropping systems for their ability to reconcile agricultural production and biodiversity, thus identifying levers for designing sustainable cropping systems.     

棉田土壤温度与气温的关系及膜地增温效应对有效气积温的补偿作用的研究

通过田间试验和数据分析,本研究确定了地膜棉和露地棉田土壤温度与气温的线性和幂函数统计回归数学模型,并根据有效积温原理推出了地膜棉有效气积温补偿值和各生育期天数的试算方程。可将其用于ＧＯＳＳＹＭ模型,使ＧＯＳＳＹＭ模型推广应用于地膜棉栽培     

人工草地土壤水系统动力学模型与过耗恢复预测

针对黄土丘陵沟壑区人工草地深层土壤水分严重亏缺问题,首次利用系统生态原理及计算机仿真手段,初步建立休闲草地土壤水分系统动力学模型,提出长历时（多年）,大厚度（5m）土壤水分动态仿真和模型参数获取有效方法,预测特定地区（宁夏固原上黄试区）休闲草地不同水文年型深层土壤水分恢复年限.     

日光温室连阴天危害游程模拟分析

应用游程理论分析了日光温室连阴天危害发生的规律。对游程理论的模拟方法应用于日照时数序列表示的连阴天游程特征模拟的可行性进行了检验,发现：①冬季连阴天发生次数和连阴天长度期望值理论模拟结果与实际结果拟合良好,连阴天期间内日照时数缺乏量期望值须在理论模拟上加以修正;②连阴天长度的概率分布符合Ｄ．Ｍ．Ｈｅｒｓｈｆｉｔｌｄ的几何分布。以河南省为例给出了连阴天长度的概率分布和各游程特征量的地域分布规律;确定