Investigation of effective dimensionless numbers on initiation of instability in combustion of moisty organic dust简

In this work, the effect of various effective dimensionless numbers and moisture contents on initiation of instability in combustion of moisty organic dust is calculated. To have reliable model, effect of thermal radiation is taken into account. One- dimensional flame structure is divided into three zones： preheat zone, reaction zone and post-flame zone. To investigate pulsating characteristics of flame, governing equations are rewritten in dimensionless space-time （（, r/, ~） coordinates. By solving these newly achieved governing equations and combining them, which is completely discussed in body of article, a new expression is obtained. By solving this equation, it is possible to predict initiation of instability in organic dust flame. According to the obtained results by increasing Lewis number, threshold of instability happens sooner. On the other hand, pulsating is postponed by increasing Damk6hler number, pyrolysis temperature or moisture content. Also, by considering thermal radiation effect, burning velocity predicted by our model is closer to experimental results.     

Electrically conductive and thermally stable SiC-TiC containing nanocomposites via flash pyrolysis

Flash pyrolysis, which combines conventional pyrolysis with flash sintering, was first conducted to produce polymer derived SiC-TiC nanocomposites. Pre-pyrolysis at 800℃ allows the conversion from titanium isopropoxide (TTIP) modified polysiloxane to an amorphous SiTiOC ceramic. The subsequent application of an electric field gives rise to the formation of turbostratic carbon and creates Joule heating to obtain a sample internal temperature of ~1400℃. The precipitation of β-SiC, TiC, as well as titanium oxides is realized upon carbothermal reduction of extensively phase separated SiO₂ and TiO₂ with carbon. Increasing TTIP content embodies the nanocomposites with prominent electrical percolation behaviors. The electrical transport of the synthesized ceramics follows an amorphous semiconductor mechanism. High thermal stability in air is guaranteed, thanks to the in-situ formed TiC nanocrystals and preferentially reduced amorphous carbon. Flash pyrolyzed nanocomposite with a Ti:Si molar ratio of 0.20 exhibits the highest electrical conductivity (0.696 S/cm) and minimum mass change (~2%) at 1000℃, serving as a competitive candidate for electro-discharge machining (EDM) applications or self-standing conducting devices that must withstand high temperature conditions.     

蒙东褐煤热解技术工业应用进展

蒙东褐煤占我国褐煤储量的83%,是蒙东地区的主要能源。低温热解技术条件温和、产品用途广、经济效益高,是加工蒙东褐煤的主要途径之一。但由于褐煤块煤率低、含水量高、热碎严重等特性以及现行环保产业政策持续趋紧,使褐煤低温热解工业化项目存在原料利用率低、生产连续性差、环保不达标等问题。本文介绍了目前蒙东地区应用的热解技术包括低阶煤转化技术（LCC）、连续干馏热解定位提质技术（LCP）、带式炉低温干馏技术、GF-1型褐煤提质技术、SJ低温干馏方炉热解技术和气-固错流热解技术,分析了各项技术的运行情况、优势和不足。通过对比各项技术在原料要求、传热方式、熄焦方式、能量利用率和产品性质等方面的特点,明确了各项热解技术的炉型选择、原料煤粒度和热解产品利用等方向,提出了蒙东褐煤热解技术在工业化应用过程中需实现原料优化、能量优化、产品多元化和废弃物资源化的发展要求。     

Research progress on preparation of biomass-derived porous carbon and its adsorption of pharmaceuticals in wastewater

The rapid development of urban modernization and industrialization has caused increasingly serious pollution to the environment, especially water contamination. In recent years, the content of pharmaceuticals in industrial wastewater has increased year by year, and the pollution should not be ignored any more. Therefore, the development of new porous materials for the adsorption and separation of pharmaceutical molecules in wastewater has become a current research hotspot. This article summarizes the recent research on the adsorption and separation of pollutants in wastewater by biomass-derived porous carbons (biochars). First, it briefly introduces the treatment methods of pollutants in wastewater, and mainly focuses on the preparation and modification of biochars. Combined with the surface chemical properties and pore structure of the carbon materials, this paper summarizes and prospects the adsorption properties of biochar to pharmaceuticals.     

热裂解气质联用鉴别PA56、PA66和PA6

采用热裂解气质联用（Py-GC/MS）方法鉴别聚酰胺56（PA56）、聚酰胺66（PA66）和聚酰胺6（PA6）及其共混物。结果表明,在550 ℃裂解温度下,PA56与PA66相对丰度100 %的峰为环戊酮,分别具有特征裂解产物1,8-二氮杂环十三烷-2,7?二酮和1,8-二氮杂环十四烷-2,7-二酮,PA6相对丰度100 %的峰为己内酰胺;此方法可用于快速鉴别PA56、PA66和PA6的工业初级品,并成功检出了PA6/PA56共混物、PA6/PA66改性共混物与改性PA66。     

废旧聚乙烯的再生处理技术(上)

聚乙烯(Polyethylene)是塑料中产量极大、用途极广的热塑性塑料之一,它是由乙烯聚合而成,可用一般热塑性塑料的成型方法加工。聚乙烯可分为低密度聚乙烯(LDPE)、高密度聚乙烯(HDPE)和线型低密度聚乙烯(LLDPE)三大类。     

喷射成形A356铝合金组织及力学性能的研究

采用自行开发的控制往复喷射成形专利技术,以产业化规模制备了铝合金锭坯,研究了对传统铸造A356铝合金的组织及其力学性能的影响.结果表明:喷射成形态合金组织均匀,致密度达到95.8%;挤压态合金中均匀分布大量细小Si颗粒;固溶温度为540℃,时效温度为160℃,时效10 h时硬度达到峰值,继续延长时效时间对硬度值影响甚微;经过固溶时效处理的A356铝合金常温抗拉强度σb=337 MPa,屈服强度σ0.2=281 MPa,伸长率δ5=18.3%,分别提高21.2%,35.7%,205%.     

碳纤维增强氮化物基复合材料的制备及其性能表征

合成了全氢聚硅氮烷和硼氮烷的混杂先驱体并对其结构进行了表征；以混杂先驱体和3D碳纤维编制体为原料，采用先驱体浸渍-裂解（PIP）工艺制得了碳纤维增强氮化硼．氮化硅混杂基体的复合材料，并对复合材料的力学性能和抗烧蚀性能进行了研究。结果表明，混杂先驱体中含有B—N，B—H，Si—N，Si—H，N—H等结构，无其它杂质出现；随着PIP工艺循环次数的增加，复合材料的密度随之提高：当进行4个循环时基本致密，密度达到1．50g／cm^3，弯曲强度达到156．4MPa；轨道模拟实验显示复合材料具有优异的抗烧蚀性能。     

第62届世界铸造会议宣读论文综述(有色金属部分)

详细介绍了第 62届世界铸造会议中有关有色合金铸造的 6篇宣读论文。“铝合金压铸的压力传递与铸件质量的关系”一文提出一种新的测量铝合金压铸型腔中压力传递的方法 ,搞清了压力传递、流速与铸件质量之间的关系 ,获得了本届会议的优秀论文奖。“挤压压铸和半固态铸造生产高质量、复杂的铸件”一文展示了应用压铸高技术 ,生产出力学性能极高的汽车用复杂压铸件。“监控金属型、压铸模温度的智能系统”一文提出的智能控温系统 ,测温可靠 ,能自动控制铸型温度 ,铸型中不需开冷却水孔道。“制造金属基复合材料的复合铸造工艺 (Hybrid)”一文介绍了一种挤压铸造和熔模铸造相结合生产金属基复合材料的新工艺。“喷铸法制取铝基SiCp增强复合材料的微观组织和磨耗特性”一文指出用喷铸法制取的铝基SiCp增强复合材料 ,具有很高的耐磨性能。“不同凝固条件下 ,Na ,Ca含量对加Sb变质的 3 5 6合金力学性能的影响”一文的作者通过大量试验 ,搞清了Na ,Ca的有害作用 ,指出 3 5 6合金的σb 与δ之间存在下列关系 :σb(MPa) =2 5 .87lgδ( % ) 12 8.85。     

界面对浆料浸渍裂解Cf／SiC复合材料性能的影响

利用强制脉冲CVI工艺在2．5D纤维编织体上沉积C—SiC双层界面，然后通过浆料浸渍裂解方法得到了Cf／SiC复合材料，并考察界面中C层、SiC层厚度变化对Cf／SiC复合材料性能的影响。界面中C层、SiC层厚度变化对浸渍过程影响不大，得到的Cf／SiC复合材料密度基本相当，约2．0g／cm^3。但随C层厚度的增加，强度减小；随着SiC层厚度的增加，强度增加，到达一定厚度后，其强度几乎不变，为290．0MPa。在C层厚度为50nm，SiC层厚度为600nm时，表现出强的非脆性断裂。