水体沉积物中石油类物质释放过程动力学研究

模拟水体沉积物中石油类物质向水相中释放的动力学过程,探讨在不同石油污染强度下,石油物质在水相中饱和浓度的变化。研究结果表明:上述过程可以用滞膜模型进行描述,释放过程为典型的一级动力学过程,沉积物中石油含量与水相中石油的释放浓度呈正向关系,在相同的释放条件下,污染强度越高,水相中石油的饱和浓度越高,释放速度也越快。     

考虑中间主应力对圆形巷道Hoek Brown准则解的影响

为了建立更加适用于深部巷道围岩塑性解分析的Hoek Brown准则,获得更加准确的巷道围岩塑性区范围及其支护变形量。通过将洛德参数表示的中间主应力带入Hoek Brown准则中,经过理论公式的推导,获得巷道围岩塑性区的应力和半径以及巷道周边位移的解析解。经算例分析,随着中间主应力的减小,塑性区范围也减小,当中间主应力趋近于第三主应力时,塑性区范围为最小;并且支护阻力和原岩应力对巷道塑性区范围也有一定影响;最后将计算的结果与Mohr-Coulomb准则对应的卡斯特纳解进行比较,发现文中建立的Hoek Brown强度准则更加适用于深部巷道塑性区分析。由此可知考虑中间主应力的Hoek Brown强度准则,更能全面分析巷道围岩塑性区的范围,获得更为准确的结果;在工程实践中,在易破坏的地段取地应力值时,应适当的增大中间主应力的取值,并且刚开挖巷道应及时支护,这样可有效的维护巷道围岩的稳定。     

我国进口可再生利用废塑料的现状与发展

论述了进口可再生利用废塑料在环保、节能减排等国民经济领域中的重要意义。通过分析统计数据,阐明了我国由于资源匮乏,进口可再生利用废塑料的必要性和迫切性,并简述了我国政府对废塑料进口的监管措施。     

激光点火器耐压密封及其影响

目的促进激光点火技术在安全弹药领域的应用。方法从激光点火器作用后承受高动态压力的需求出发,研究基于玻璃封接技术的激光点火器密封性能及其影响因素。确定采用箱式电阻炉对激光点火器壳体与透镜间进行玻璃密封的温度为430℃,保温时间为13～15min。对不同始发装药、不同密封工艺的激光点火器透镜发火后,其表面光学膜层变化、与激光点火器相连接的光纤端面损伤程度进行分析,研究点火前后承受气压性能变化。结果始发装药为BPN等点火类药剂时,激光点火器具有较高的动态密封性能,可稳定达到30 MPa下2 min不泄露;始发装药为BNCP等起爆类药剂时,随着装药量的增大,密封性能变差。结论改善玻璃封接工艺有利于提高密封性,如封接长度变长,发火后耐压密封性会有所提升。     

Adapting to new policy environment – past pattern and future trend in us-sino waste plastic trade flow

Plastics are one of the most used materials in human activities, where consumer consumption and industrial production together has imposed vast rise in demand for this material in last century. While plastic is ideally derived from crude oil as a primary source from manufacturers’ perspective, varying crude oil prices are driving manufacturers economically to seek for alternative sources for plastics production. Waste plastic recovered from obsolete consumer products thus becomes an economic substitution for virgin plastics, which is further intensified with the possibility of international waste plastic trading. This study focuses on waste plastic trade between the US and mainland China by performing a correlation analysis of trade data. It is suggested in this study that although waste plastics are traded from the US to mainland China in general, as many of us believes, the route is gradually shifting in the past years. With tightening Chinese customs regulations, waste plastic from the US now tends to take a transit in a third destination (Hong Kong SAR for instance) for preliminary treatment to bypass Chinese customs inspection. Such phenomenon is worth noting, as a complication in waste plastic trading route hinders waste plastic transboundary movement monitoring. Furthermore, it will have adverse consequent consumer, industrial, and environmental impacts. It is thus necessary for national competent authorities to strengthen cooperative study and communication capacity in the future as a response to the changing waste plastic trade pattern.     

Moving policy and regulation forward for single-use plastic alternatives

Single-use plastics are often used once or cannot be reused for extended periods. They are widely consumed with the rapid development of social economy. The waste generated by single-use plastics threatens ecosystem health by entering the environment and ultimately restricts sustainable human development. The innovation of sustainable and environmentally friendly single-use plastic alternative materials and the joint participation of governments, enterprises and the public are promising technologies and management approaches that can solve the problem of single-use plastics wastes. The development of single-use plastic alternative products can be promoted fundamentally only by improving relevant legislation and standards, providing differentiated industrial policies, encouraging scientific and technological innovation and expanding public participation.     

可降解塑料研究现状与发展前景

可降解塑料是近年来随着环保呼声的日渐增强而发展起来的新研究热点,主要介绍可降解塑料的种类及其推广中存在的问题,并对前景作了展望。     

碳黑改性TiO2薄膜光催化剂的结构性质

通过碳黑掺杂制备了改性的TiO₂薄膜光催化剂(CB-TiO₂),并采用液氮吸附、X射线衍射(XRD)和紫外-可见光漫反射光谱(DRS)对催化剂的比表面积、物相、晶粒度和最大激发波长等结构性质进行了表征.结果表明,CB-TiO₂的吸附性能大大改善,不同热处理温度下,BET比表面积增加50%～80%;同时碳黑掺杂能够减小催化剂的晶粒尺度,使相变温度降低.相应的光催化降解试验也表明,碳黑改性TiO₂的活性大大提高,其一级反应速率常数为普通TiO₂的1.5倍.     

表面隔油膜对轻质固体灭火剂隔热性能的影响

通过对自行研制的轻质固体灭火剂隔热性能的测试 ,研究了表面隔油膜对隔热性能的影响。发现表面膜的存在在一定程度上降低了灭火剂的隔热性能 ,但一定厚度的灭火剂的隔热性能能满足隔热灭火的需要     

Bioabsorbable soy protein plastic composites: Effect of polyphosphate fillers on water absorption and mechanical properties

The use of synthetic and natural bioabsorbable plastics has been severely limited due to their low stiffness and strength properties as well as their strong tendency to absorb moisture. This research focused on the development of bioabsorbable polyphosphate filler/soy protein plastic composites with enhanced stiffness, strength, and water resistance. Bioabsorbable polyphosphate fillers, biodegradable soy protein isolate, plasticizer, and adhesion promoter were homogenized and compression-molded. Physical, mechanical, and water absorption testing was performed on the molded specimens. Results showed improvements in stiffness, strength, and water resistance with increasing polyphosphate filler content up to 20% by weight. Application of a coupling agent produced further mechanical property enhancements and a dramatic improvement in water resistance, interpreted by an interfacial chemical bonding model. Examination of the fracture surfaces of the materials revealed that the addition of the polyphosphate fillers changed the failure mode from brittle to pseudo-ductile. These results suggest that these materials are suitable for many load-bearing applications in both humid and dry environments where current soy protein plastics are not usable.