Cost analysis of sand barriers in desertified regions based on the land grid division model

Sand barriers are the most widely used mechanical implements for wind-blown sand control and desertification prevention.However,there is no standard quantitative cost analysis of the sizes and materials required for sand barriers.In this study,based on the original land grid division model for optimal resource utilization,we calculated the total side lengths of square and regular hexagonal sand barriers with the sizes of 1.0 m×1.0 m,2.0 m×2.0 m,and 3.0 m×3.0 m in a desertified region of the Shapotou area on the southeastern edge of the Tengger Desert,China.Then,through literature review and social survey,we obtained the material cost and material utilization amount of sand barriers with different materials and sizes.Finally,we calculated the costs of square and regular hexagonal sand barriers comprised of wheat straw,corn stalk,Salix mongolica,poly lactic acid,magnesium cement,and high-density polyethylene,with the sizes of 1.0 m×1.0 m,2.0 m×2.0 m,and 3.0 m×3.0 m.The results show that the material cost of regular hexagonal corn stalk sand barriers with the size of 3.0 m×3.0 m is the lowest,while the material cost of square magnesium cement sand barriers with the size of 1.0 m×1.0 m is the highest.When using the same material,the cost of regular hexagonal sand barriers is lower than that of square sand barriers with the same size.When using the same size,the cost of sand barriers with corn stalk material is lower than that of sand barriers with other materials.Based on the above analysis,we can conclude that the economic benefits of regular hexagonal sand barriers are greater than those of square sand barriers.This study provides a theoretical basis for accurately calculating the material cost of sand barriers,particularly for the estimated cost of mechanized sand barrier engineering projects.

考虑断面耦合控制的特高压复杂大电网最大供电能力优化方法

最大供电能力计算是特高压复杂大电网优化运行的重要问题,随着高比例可再生能源大量接入电网,电力电量平衡问题愈发突出。计及考虑稳定旋备约束、耦合断面约束、机组调节能力约束后,最大供电能力计算问题呈现高维特征,难以对其建模及求解。对此,首先根据传输断面限制和特高压复杂大电网分区运行的特点,搭建了考虑断面耦合控制的特高压复杂大电网最大供电能力优化调度模型,然后分别应用单纯形法(SM)、内点法(IP)、模拟退化算法(SA)、白鲸优化算法(BWO)和蜂群算法(ABC)求解模型,计算大电网在日内未来15 min最大供电能力,并提出各类型电源和备用的协调优化方案。最后以某省网为例进行模型及求解方法验证。仿真结果显示,因为电力系统规模庞大和断面间耦合关系复杂,启发式智能优化算法存在运行时间较长、收敛速度较慢、搜索精度不高的问题,而内点法收敛迅速、鲁棒性强、对初值的选择不敏感,具有更好的稳定性和计算效率,可为复杂特高压电网电力保供和电力平衡提供有效实用支撑。

基于最优潮流分区电网最大供电能力研究及其应用

随着电网规模的迅速发展,电网分层分区随之深入,其中分区电网的最大供电能力(TSC)是电网规划与运行部门十分关注的一个重要问题。基于最优潮流提出了分区电网最大供电能力计算方法,将TSC转换为满足电网安全运行约束条件下的最优化问题,通过将关键输电断面稳定限额引入约束条件,间接在TSC中考虑了电网的N-1/N-2约束,最优化问题采用非线性内点法求解。通过对江苏电网的数值计算,结果表明提出的分区电网最大供电能力计算方法是实用有效的。

A spatial multi-scale integer coding method and its application to three-dimensional model organization

With the rapid development of digital earth,smart city,and digital twin technology,the demands of three-dimensional model data’s application is getting higher and higher.These data tend to be multi-objectification,multi-type,multi-scale,complex spatial relationship,and large amount,which brings great challenges to the efficient organization of them.This paper mainly studies the organization of three-dimensional model data,and the main contributions are as follows:1)A integer coding method of three dimensional multi-scale grid is proposed,which can reduce the four-dimensional(spatial dimension and scale dimension)space into one-dimensional,and has better space and scale clustering characteristics by comparing with various types of grid coding.2)The binary algebra calculation method is proposed to realize the basic spatial relationship calculation of three-dimensional grid,which has higher spatial relationship computing ability than 3D-Geohash method;3)The multi-scale integer coding method is applied to the data organization of three-dimensional city model,and the experiment results show that:it is more efficient and stable than the threedimensional R-tree index and Geohash coding method in the establishment of index and the query of three dimensional space.