内接头锻件成形工艺分析与模具设计

提出了采用预成形和正反挤成形生产内接头新工艺 ,通过有限元模拟和分析确定了合理的预制坯形状和尺寸 ,设计了内接头预成形和正反挤成形模具。     

Analysis of the hydrocyclone stock cleaning process for wasted fibre in a paper mill

The main objective of this project was to evaluate the possibility of reducing the quantity of fibre wasted at one of many hydrocyclone (centrifugal) cleaning processes in a paper mill. It was found that the application of elutriation water to both the tertiary and quaternary cleaners was essential to minimise the fibre discharged to the sewer, and the pressure of this elutriation water had a dramatic effect of reducing the fibre wastage. Accordingly, it has been shown that 150–160 kPa as the optimum pressure range to apply elutriation water to minimise the product grade fibre wasted whilst sending undesired shive fibre to the sewer. Also, monitoring of the press uhle box wastewater revealed that the paper mill has the potential to make substantial cost savings by reducing the waste stream. Further investigation is necessary to determine the types of fibre that are being wasted, and the viability of a screen to recycle the wasted fibre to the process. However, these fibres may be unsuitable to reuse in the process and alternative uses must be found.     

焦化污染场地土壤多环芳烃的生物强化协同降解工艺研究

以某废弃焦化厂的多环芳烃（PAHs）污染土壤为研究对象,通过耦合表活淋洗、生物降解、化学氧化等技术设计了4种修复工艺,并进行了试验验证。结果表明：针对该实际焦化污染土壤,单一的生物泥浆降解工艺21 d后PAHs可实现58.64%的降解率;采用表活增溶＋化学氧化＋生物泥浆的降解工艺,26 d降解率可达到65.68%,但前置的化学氧化会抑制生物降解效果;采用干筛分+表活分批淋洗+化学氧化的降解工艺降解率可达到85.36%,有效缩短降解时间到13 d内,但土壤中残留的PAHs与土壤颗粒结合紧密,化学氧化降解率仍难以满足大于90%的要求;采用湿筛分+表活分批淋洗+生物泥浆+化学氧化的生物强化协同降解工艺,29 d降解率可达到95.32%,实现了土壤的修复目标。生物强化协同降解工艺路线,综合了多种修复技术的优点,实现了修复技术组合优化,为焦化污染土壤中多环芳烃降解修复提供了可行的工艺路径。