微波催化氧化法处理炼油废水

研究了应用微波辐射技术处理炼油废水,考察了活性炭用量,微波辐射时间,微波辐射功率,双氧水用量等因素对出水水质的影响。设计了实际废水的实验流程,检测了一部分生活杂用水(CJ25.1-89)中的主要指标,取得了较好的结果。     

手机微波防护器的初步研究

为了解决微波对人脑的辐射问题，提出一种新型的手机微波防护器，经实验测得采用了微波防护器人脑侧微波辐射功率密度一律可降至5μW/cm^2以下，完全符合国家的卫生标准。有效地解决了手机微波对人脑的辐射问题。适用于各种手机，以及发射台站、雷达台站等微波防护。     

微波无极灯：一种具有前景的高效光催化光源

微波无极灯具有制造容易、价格低廉、能耗小和光强大等优点.作为光催化氧化的光源时,由于微波的协同作用可有效提高光催化活性,并能简化反应器.从发光机理、微波协同作用、优缺点和影响因素等方面,对微波无极灯在光催化领域的研究进行详细阐述.     

微波加热对活性炭表面基团及其对SO2吸附性能的影响

采用了微波加热技术,通过在不同微波功率和辐射时间条件下对不同粒径活性炭进行改性,研究了改性前后活性炭的表面化学基团、元素组成的变化,以及对SO2吸附性能的影响.结果表明,经过微波改性后活性炭的SO2吸附性能大为提高,微波功率是影响改性活性炭脱硫性能的主要因素.活性炭经微波热处理后,酸性基团发生分解,表面含氧量减少,碱性特征增强,是吸附性能增加的主要原因之一.     

微波辅助空气氧化水溶液中的PCP

采用活性炭为催化剂,对微波辅助空气氧化水溶液中的五氯酚进行了处理研究.考察了活性炭投加量、微波功率、辐射时间和通气量对溶液中五氯酚的去除率的影响.结果表明,在通气量为0.2 L/min,微波功率800 W和微波辐射60 min时,五氯酚的去除率可达到90%以上;对微波辐射前后的滤液进行紫外扫描和pH分析,可证实五氯酚被降解.     

微波促进含Cr(VI)-H2O2体系降解甲基橙溶液的研究

研究了微波辐射下Cr(VI)－H₂O₂催化降解甲基橙溶液的行为，探索了微波功率、微波辐射时间、pH值、H₂O₂浓度、Cr(VI)等对甲基橙溶液脱色率和COD去除率的影响。研究结果表明，Cr(VI)-H₂O₂能形成类Fenton体系；微波辐射可提高H₂O₂产生羟基自由基(·OH)的效率。1000 mg/L的甲基橙溶液，在Cr(VI)浓度为10.0 mmol/L、pH值为2.5、H₂O₂浓度为20.0 mmol/L、微波功率为700W下加热2 min，甲基橙溶液的脱色率为99.2%，COD去除率为82.8%。     

Pleasure in using adaptive cruise control: A questionnaire study in The Netherlands

Objective: Adaptive cruise control (ACC), a technology that allows for automated car following, is becoming increasingly prevalent. Previous surveys have shown that drivers generally regard ACC as pleasant but that they have to intervene when the ACC reaches its operational limits. The former research has been mostly concerned with specific car brands and does not fully reflect the diversity of ACC types in traffic today. The objective of the present research was to establish the determinants of pleasure in using ACC.

Methods: A 55-item online questionnaire was completed by Dutch users of diverse ACC systems.

Results: Respondents (N = 182) rated their ACC highly, with a mean score of 8.0 on a scale from 1 (extraordinarily negative) to 10 (extraordinarily positive) and were most pleased with ACC on high-speed roads and in low-density traffic. Moreover, the findings point to specific operational limits such as associated with cut-in situations. Pleasure was greater for the types of ACC that are able to decelerate to a full stop, according to 48% of our sample. An analysis of the free-response items indicated that respondents who were displeased with ACC mentioned its occasional clumsiness and the dangerous situations it may evoke, whereas those who were pleased with ACC valued the complementarity of human and machine and emphasized the roles of responsibility and experience in using ACC.

Conclusion: Pleasure in using ACC is a function of both technological advances and human factors.     

微波活化制备麻疯树果壳活性炭研究

实验采用微波法制备麻疯树果壳活性炭,以磷酸为活化剂,在800W固定微波功率下,辐照时间和活化剂的浓度是主要影响因素。最佳条件为辐照时间8min,磷酸浓度40%。最佳条件下制得的果壳炭碘值达704.4mg/g。测得该果壳炭比表面积为651.6m2/g,总孔容达0.49mL/g,孔结构以1～10nm孔径为主,达到商业活性炭的标准。表面官能团以含O官能团和含C官能团为主,其中C-C类和C-O类官能团含量较高。     

微波消解-紫外分光光度法测定水中总氮

在分析比较前人实验方法的基础上,采用微波消解一紫外分光光度法测定水中总氮含量.对几种常见态氮溶液进行消解,如硝态氮、亚硝态氮和铵态氮,在确定消解时间后,作出校准曲线,并进行精密度检验.结果表明,该方法与国家标准方法相比具有操作简单、省时、消解完全、精密度较高等优点.     

城市污泥微波干化及污染物析出特性研究

采用直接热干化和微波两种方法对3种城市污泥进行了研究,分别考察了温度、污泥厚度、微波功率对干化过程的影响,并研究了干化气体的二次污染问题。研究表明,直接热干化耗时长,温度和污泥厚度是影响干化过程的主要因素;微波干化耗时短,效率高;厚度为4 mm的污泥在微波功率为1 200 W时,仅需3min含水率降至10%以下。微波干化气体的冷凝液COD,NH_4~+-N指标明显低于直接热干化。