烤烟不同烘烤方式对比试验研究

1999－2001年对热风循环烤炉、气流下降式循环烤炉进行的试验研究表明，这2种烘烤方式均具有节能、省时、增产、提高品质、防止烟叶棕色化反应、加深 烟叶色泽、降低青烟比例，减少干物质消耗等特点，热风循环烤炉的产投比大于气流下降式循环烤炉。     

Dynamic analysis and optimization of gear trains in a megawatt level wind turbine

Through coupling vibration analysis of the transmission system of a 1.5 MW wind turbine gearbox, a torsional vibration model of a gear drive system in wind turbines is established. The fourth order Runge Kutta integration method is applied to calculate the dynamic response of a gear system caused by wind loads, time varying meshing stiffness, and system damping. The harmonic balance method is used to find the analytic solution. Based on the solution, a mathematical model for optimum gear system design is established. The model aims at minimizing the vibration acceleration of the planet gear and the total mass of the gear transmission system. The optimization toolbox in MATLAB program is adopted to obtain the optimal solution. A calculated example shows that the primary natural frequency of the gear system has been raised, the dynamic properties of the gear train have been improved remarkably, and the total mass of the gear train has been decreased.     

Junction stiffness analysis and vibration noise prediction of wind power speed-increase gearbox

In order to study the vibration characteristics and radiation noise of wind power speed-increase gearbox, a torsional vibration model of wind power speed-increase gearbox is established based on the analysis of supporting stiffness of bearing and contact stiffness of gear pairs. By solving the vibration differential equation with the help of Matlab, the frequency and corresponding vibration mode are obtained. With taking stiffness excitation, error exaction and meshing impact exaction into account, the dynamic finite element model of speed-increase gearbox is set up, and the dynamic response simulation is carried out. Regarding vibration displacement of the nodes on gearbox surface as boundary condition, an acoustic boundary element model of speed-increase gearbox is built. The surface acoustic pressure of gearbox and the radiation noise of field points are solved by the direct boundary element method. The results show that there is a great difference between torsion frequency and excitation frequency of wind power speed-increase gearbox, and so the resonance doesn't occur. The maximum structural noise and radiation noise mainly appear near the double octave of the gears meshing frequency of high-speed grade.     

Approaches to enhance power density of gearboxes for wind turbines

Based on pitting strength, some approaches to enhance power density of gearboxes for wind turbines are discussed. The calculation load is greatly reduced by power division. Allowable stress numbers are effectively increased by improving property of quality materials, precision heat treatment or shot peening. Load capacities can be also obviously enhanced by improving the tooth shape of morphology optimization of tooth root, tooth correction or superfinishing of tooth surface. The center distance is effectively decreased by minishing minimum allowable safety factor or enlarging face width. The power density of gearbox can be further improved by means of structure optimization of planet carrier or uniform load of planetary gear transmission.     

Small scale wind tunnel for high pressure and high energy discharge

A kind of small scale wind tunnel with low velocity is proposed according to the characteristics of strong ionization discharge chamber and the demands of discharge for flux, velocity and flow fields. On the precondition that the airflow field and velocity is satisfied, aerodynamic design and structural design are carried out. Key techniques are studied including overall structure, aerodynamic and structural design of airflow vent and collection vent, aerodynamic and structural design of power section, flow rate adjustment and control, and cooling system of motor. Based on the design scheme, a small scale wind tunnel with strong ionization discharge for an enterprise is developed. Application indicates that the small scale wind tunnel is a practical and effective airflow loop device for high pressure and strong ionization discharge with the features of stability and reliability.     

多边形草沙障防风效果研究

为了解正三角形、正方形和正六边形格状草沙障的防风固沙能力,通过测定沙障样地内不同高度风速,针对单个网格面积为1 m2的3种沙障,对沙障的防风效能、风速廓线特征和地表粗糙度进行研究。结果表明,正三角形和正六边形沙障的防风效能显著大于正方形沙障。高度为0.2 m时,正方形沙障的防风效能比三角形和六边形沙障分别低12%和8%,高度为0.3 m时,分别低11%和10%。0.2~0.3 m高度范围内,三角形沙障和六边形沙障的防风效能差异不显著。风速小于6 m/s时,地表粗糙度随风速变化接近线性变化规律。裸露地表 1 m高处,风速为4 m/s时,裸露地表粗糙度为0.166 cm,三角形沙障、正方形沙障和六边形沙障的地表粗糙度分别为11.5、9.3和10.4 cm,分别为裸露地表粗糙度的69.3、56和62.7倍。三角形沙障的地表粗糙度比正方形沙障和六边形沙障的地表粗糙度分别高23.7%和10.5%。铺设三角形沙障的地表粗糙度最大。      

风沙吹蚀与干湿循环作用下风积沙混凝土抗氯盐侵蚀机理

针对风蚀区盐湖及盐渍土环境下服役的混凝土,配制满足特殊环境下工程要求的风积沙混凝土.分析风沙吹蚀与干湿循环耦合作用下风积沙混凝土抗氯盐侵蚀的损伤过程,借助超景深三维显微镜、X射线衍射物相分析、核磁共振孔隙分析等手段探讨风积沙混凝土抗氯盐侵蚀耐久性机理.研究表明风沙吹蚀对混凝土表面产生破坏,干湿循环对混凝土内部造成损伤;风沙吹蚀对混凝土表面造成的“吹蚀坑”可为盐离子入侵混凝土内部提供“通道”;氯盐侵蚀后生成以Friedel盐为代表的腐蚀结晶物,可填充1～4 nm胶凝孔,消耗Ca(OH)2等有效物质,迫使4～10nm小毛细孔增多,随盐蚀损伤程度加剧,10～20 nm中毛细孔和20～100 nm大毛细孔向＞100 nm非毛细孔发展,非毛细孔彼此贯通产生裂纹,致使混凝土加速破坏.该研究可为风积沙混凝土在风蚀区氯盐环境下农业水利工程建设与应用提供依据.     

河道堤防设计高程的概率设计和风

介绍河道堤防设计高程的概率和风险校核方法。该方法综合考虑多种不确定性因素的影响，利用随机微分方程推求河道水位的概率分布，并对风浪的随机影响进行分析，按照随机可靠性理论，对常规采用确定性方法确定的河道堤防高程进行漫顶风险校核和可靠性设计。     

留茬高度对带状留茬间作农田土壤防风蚀效果的影响

针对内蒙古阴山北麓农牧交错带土壤风蚀严重的问题,研究了带状留茬间作的防风蚀效果,通过测定风速、地表粗糙度和土壤风蚀量,揭示不同留茬高度对留茬地和相邻裸露地的防风蚀效果.结果表明,随着留茬高度的增加,作物残茬带近地表风速降低,且留高茬(30 cm)效果最明显;随着测定高度的增加,同一留茬高度对风速的降低程度减小.地表粗糙度随留茬高度的增加而增大,留高茬地(30 cm)和邻高茬裸地的地表粗糙度分别较对照增加了466.67％和126.98％.土壤风蚀量随留茬高度的增加而减少,留高茬地(30 cm)和邻高茬裸地的风蚀量分别较对照减少了90.21％和65.51％.因此,作物残茬既增强了自身带的防风蚀效果,又在一定程度上保护了邻茬裸露带,留茬高度30 cm时防风蚀效果最好,对相邻裸露带的保护作用最明显.     

塔里木盆地多种沙源类型沙通量异变特征研究

以塔里木盆地周边地区多种沙尘源地为研究区,通过塔中、肖塘、若羌、策勒四个风沙观测场获取的沙尘暴过程中贴地层风向、风速数据以及风蚀传感器实测的撞击颗粒数等数据计算出各地起沙临界摩擦速度,利用Gillette经典的垂直沙尘通量及Lettau水平沙尘通量公式对若羌、策勒、塔中、肖塘沙尘通量进行了估算,并通过各层实测的梯度风速作为背景值界定出塔里木盆地多种沙源类型沙通量变化比对特征,结果表明:垂直沙尘通量F量级为10-8kg/(m2.s),水平沙尘通量Q量级为10-4 kg/(m.s);风速相同情况下,F若羌最大,策勒次之,塔中、肖塘较小;Q若羌值最大,策勒次之,塔中第三,肖塘最小。垂直沙通量F与风速都表现出较好的线性相关,风速递增,垂直沙通量递增;风速递减,垂直沙通量递减。在风速递增幅度相同条件下,若羌Q值递增幅度最大,策勒次之,塔中、肖塘基本相同。