基于化学沉淀法去除电解锰渣中锰和氨氮的实验

为了实现电解锰渣中锰、氨氮的有效去除,研究基于化学沉淀法,选取磷酸氢二纳和氯化镁为主要化学稳定剂,氢氧化钙作为外掺剂,设计不同配比实验方案,分析不同化学稳定剂掺入质量分数、锰渣含水率和氢氧化钙掺入质量分数对锰渣浸出毒性的影响。研究表明:随着稳定剂掺入质量分数的增加,锰渣中锰和氨氮的浸出质量浓度降低;锰渣含水率的改变会改变锰的浸出质量浓度,但对氨氮浸出质量浓度影响不大;氢氧化钙掺入质量分数的增加使得电解锰渣稳定后锰的浸出质量浓度降低,但氨氮的去除效率下降。因此,研究最终提出采用磷化物-碱系化学稳定电解锰渣技术的稳定剂配比为3%磷酸氢二纳、3%氯化镁以及外掺2%氢氧化钙,同时控制电解锰渣含水率为24%,锰和氨氮的去除效果最优。研究结果对锰渣的无害化、资源化利用具有参考意义。

“新工科”背景下非电类工科专业电工学课程教学改革探索

"新工科"的建设和实践需要学科的交叉和融合,需要电子信息、软件设计与非电专业的紧密结合。电工学作为非电类专业的基础核心课程,在课堂教学和实践教学中通过多渠道提高教学效果,扩展电类知识面,与专业应用融合设置开放实验训练项目等方式全面提升学生的电工、电子应用水平,培养其创新思维意识,为后续专业课程学习和发展奠定基础。

基于主变有载调压不能电调故障缺陷分析

电压是电力系统中一个重要质量指标。电力系统正常运行时,电压的变动将使用电设备工作出现异常,直接影响生产和日常生活。故电压调节是电力系统主要任务之一。变压器有载调压是在不断电的情况下通过有载分接开关进行电压调整。这种调压措施,调压范围大,投资少,效果好,调压范围一般为20%及以上。调压速度快,又有随时可调性,分接开关手动或电动操作均可,也可摇控电动操作,便于实现自动化管理。本文针对常见的2起有载分接开关故障进行分析总结,为了防止类似故障再次发生,从生产、运行和维护等方面给出相关建议。

矩形波纹钢骨混凝土梁受力性能研究

普通钢筋混凝土电力管材的电磁屏蔽效果有限,因此提出一种新型矩形波纹钢骨混凝土电磁屏蔽管材。根据管顶和管侧截面处的受力状态设计和制作了4个受弯试件,并开展了四点弯曲加载试验。通过试验得到了梁试件的弯矩-挠度曲线和破坏形态。试验结果表明梁的受弯承载力与波纹钢骨放置位置有关。对于单层矩形波纹钢骨混凝土梁试件(SRCS),其受弯承载力与现有钢筋混凝土梁试件相当,满足《混凝土和钢筋混凝土排水管》(GB/T 11836-2023)的荷载检验标准。对于双层矩形波纹钢骨混凝土梁试件(DRCS),仅满足管侧荷载检验标准,不满足管顶荷载检验标准。采用ABAQUS建立了考虑波纹钢骨材料力学性能和混凝土损伤的精细数值模型,对矩形波纹钢骨混凝土试件的受力性能进行有限元模拟。模拟结果表明试件的破坏形态和承载力与试验结果吻合良好,验证了有限元模型的准确性。试验结果和有限元分析结果表明采用矩形波纹钢骨替代现有钢筋混凝土中外层箍筋的做法可以满足规范承载力的检验标准。

Identification of damaged corn seeds using air-coupled ultrasound

Corn,an important staple in many countries around the world,is subject to a very inefficient germination rate due to worm-damaged seeds.However,air-coupled ultrasound is a rapid,safe and widely accepted method for the early detection of such damage.In this study,the current effectiveness and future prospects of this technique for identifying damaged seeds were explored.The presented procedure started with drawing a sample of 810 seed particles,consisting of 400 that were intact,400 manually damaged and 10 damaged by worms.Then the principal component analysis(PCA)method was used to reduce the dimensions of air-coupling ultrasonic information and extract the top ten principal components.Finally,a KNN decision tree by using SIMCA software and a Fisher recognition model by using MATLAB software were constructed.The pattern recognition was established by using KNN,which has the most accurate recognition rate.The correct recognition rate of modeling for the front and back data of the intact particles was 98%and 100%,respectively;and for the manually damaged particles,99%and 97%,respectively.The results show that the model developed by using air-coupled ultrasonic data can classify corn seed particles both with and without holes to provide a basis for the development of a seed selection system,which has a significant role in improving the clarity and the germination rate.