双氧水敏化二氧化钛的制备及表征

利用超声分散法,以钛酸丁酯为主要原料,以双氧水为敏化剂,无水乙醇作为溶剂,冰醋酸作为抑制剂,制备双氧水敏化的二氧化钛粉体。并通过X射线衍射(XRD)和透射电镜(TEM)对产品进行表征。同时研究不同影响因素对甲基橙去除率的影响。实验结果显示,当焙烧温度为550℃,H2O2浓度为0.3%,催化剂投加量为0.5 g/L时,可制备出降解甲基橙溶液效果较好的二氧化钛。     

X80钢在库尔勒和高pH值土壤模拟溶液中的腐蚀行为

通过浸泡质量损失法、动电位极化和交流阻抗等方法研究了X80管线钢在库尔勒和高pH值（0.5mol/L Na2CO3＋1 mol/L NaHCO3）土壤模拟溶液中的腐蚀行为,并对宏观腐蚀形貌进行了观察,采用X-射线衍射仪测试了腐蚀产物膜的组成。结果表明,X80管线钢在高pH值土壤模拟溶液中腐蚀很轻微,而在库尔勒土壤模拟溶液中则发生了严重的腐蚀,其腐蚀速率约是高pH值土壤模拟溶液中的3倍。这主要是因为X80管线钢在库尔勒土壤模拟溶液中表现出活性溶解状态,形成的腐蚀产物膜疏松、易脱落,保护性很差;在高pH值土壤模拟溶液中则很容易钝化,形成的碳酸亚铁腐蚀产物膜具有一定的阻隔效应,产生了明显的保护作用,腐蚀速率因此很低。     

五种挺水植物对矿山废水中锰的去除效能比较

以水葱、香蒲、芦苇、灯芯草和野茭白五种挺水植物为研究对象,通过实验室模拟人工湿地系统,研究在投加不同浓度梯度人工拟合酸性矿山废水条件下各植物对重金属锰的去除效能以及植物各部位对锰的富集能力。结果表明,野茭白和水葱的去除效能最显著,第七天的去除率达到90%和76%以上,香蒲的相对较差,为56%以上。五种植物各部位对重金属锰的富集能力均遵循同一规律:对于无茎植物,根富集浓度大于叶富集浓度;对于有茎植物,则为根大于茎大于叶。     

碱性过硫酸钾法测定总氮中影响因素及解决方法

总氮是水体中氨氮、硝酸盐氮、亚硝酸盐氮等无机氮和有机氮的总和,是反映水体所受污染程度和富营养化程度的重要指标之一。在碱性过硫酸钾-紫外分光光度法测定水中总氮时,该方法操作步骤简单,易于操作和掌握,但在实际操作中影响因素较多,其准确度难以掌握。本文通过对总氮测定中试剂的纯度、配制的方法及水浴温度、储存时间、消解的温度、压力和时间等因素的总结、探讨和分析,确定适合的测定条件,提高测定结果的准确度和精密度。     

浅谈污水处理过程中配制聚合物溶液粘度研究

45℃反应30 d内,120 mg/L稳定剂稳定处理后中十二站污水和未经处理的北1-J3-P49井口采出污水配制的聚合物溶液的粘度保留率89.2～107%,并随反应时间的延长粘度保留率值有增高的趋势。添加120 mg/L稳定剂聚驱具有代表性北1-Ⅱ污水站污水配制的1200 mg/L聚合物溶液,5～1000 S-1上、下行剪切速率条件下的抗剪切性能优于污水直接的聚合物溶液,且随反应时间的延长,添加稳定剂污水配制的聚合物溶液抗剪切性能相对污水直接配制的聚合物溶液更加显著,稳定剂稳定聚合物溶液效果良好。仅添加120 mg/L稳定剂污水配制的聚合物溶液,30 d的粘度保留率89.2～107%,稳定剂稳定污水配制聚合物溶液的效果良好,且5～1000 S-1上、下行剪切速率条件下的抗剪切性优于污水直接的聚合物溶液,可以推测添加稳定剂污水配制的聚合物溶液的实际调驱效果好于污水直接配制的聚合物驱替液。     

Technological Progress,Structural Change and China’s Energy Efficiency

Abstract

China has witnessed rapid economic development since 1978, and during the time, energy production and consumption developed at a tremendous speed as well. Energy efficiency which can be measured by energy consumption per unit of GDP, however, experienced continuous decrease. Theoretically, the change of energy efficiency can be attributed to industry structural change and technological change. In order to explain the transformation of Chinese energy efficiency, we adopt logarithmic mean Divisia index techniques to decompose changes in energy intensity in the period of 1994–2005. We find that technological change is the dominant contributor in the decline of energy intensity, but the contribution has declined since 2001. The change in industry structure has decreased the energy intensity before 1998, but raised the intensity after 1998. Decomposed technological effects for all sectors indicate that technological progresses in high energy consuming industries such as raw chemical materials and chemical products, smelting and pressing of ferrous metals, manufacture of non-metallic mineral products and household contribute are the principal drivers of China’s declining energy intensity.     

Achievements,challenges and global implications of China’s carbon neutral pledge

China has been committed to achieving carbon neutrality by 2060. China’s pledge of carbon neutrality will play an essential role in galvanising global climate action, which has been largely deferred by the Covid-19 pandemic. China’s carbon neutrality could reduce global warming by approximately 0.2–0.3 °C and save around 1.8 million people from premature death due to air pollution. Along with domestic benefits, China’s pledge of carbon neutrality is a “game-changer” for global climate action and can inspire other large carbon emitters to contribute actively to mitigate carbon emissions, particularly countries along the Belt and Road Initiative (BRI) routes. In order to achieve carbon neutrality by 2060, it is necessary to decarbonise all sectors in China, including energy, industry, transportation, construction, and agriculture. However, this transition will be very challenging, because major technological breakthroughs and large-scale investments are required. Strong policies and implementation plans are essential, including sustainable demand, decarbonizing electricity, electrification, fuel switching, and negative emissions. In particular, if China can peak carbon emissions earlier, it can lower the costs of the carbon neutral transition and make it easier to do so over a longer time horizon. China’s pledge of carbon neutrality by 2060 and recent pledges at the 26^th UN Climate Change Conference of the Parties (COP26) are significant contributions and critical steps for global climate action. However, countries worldwide need to achieve carbon neutrality to keep the global temperature from growing beyond the level that will cause catastrophic damages globally.     

不同喷嘴类型静电旋风水膜除尘系统配置优化实验研究*

为对比加宽版吹风喷头、1 mm孔径广角实心喷嘴和组合型喷嘴配置下的静电旋风水膜除尘系统的除尘效果,对进口风速、静电电压和单位面积流量3个单因素进行实验。研究结果表明:借助SPSS软件正交实验设计得出各喷嘴最佳参数、除尘效率影响因素排序均为进口风速＞静电电压＞单位面积流量。在各喷嘴最佳参数下,除尘性能排序为组合型喷嘴>加宽版吹风喷头>1 mm孔径广角实心喷嘴。在组合型喷嘴最佳参数（进口风速12.03 m/s、单位面积流量1.02 L/(m2·s)、电压45 kV）下,当进口风速不变时,除尘系统的分级除尘效率随粉尘颗粒粒径的增大而增大,但增幅不断地变缓,粒径约为40 μm时分级效率近似达到100%;当粉尘颗粒粒径不变时,分级效率随进口风速的增大呈现递减的趋势,粒径越大下的分级效率越接近。     

Heat loss analysis: An approach toward the revival of parabolic dish type solar cooker

Present work investigates a noble approach toward the heat loss analysis of parabolic dish type solar cooker. Various experiments have been done on cooking pot to get the input parameter for calculation purposes. Cooking pot was kept at the focus of a parabolic dish type concentrator and repeated experiments have been done to measure solar radiation intensity (direct and Indirect) using a pyrometer, temperature at the focus of parabolic dish using a thermocouple and air velocity using hot wire anemometer to investigate the heat losses from the cooking pot. In the present article, a numerical approach has been performed to define the new parameter called performance index of the cooking pot which decides how the useful energy of working fluid inside the cooking pot approaches concentration ratio of the parabolic dish type solar cooker. The present analysis shows that the performance index varies from 15.45 to 17.66 and efficiency varies from 85.83% to 98.10% with the time of the day.