危险废物焚烧回转窑DCS自动控制系统分析

本文笔者将分析与探讨危险废物焚烧回转窑DCS自动控制系统。     

加工切割精度对研磨的影响

本文主要介绍了在加工基板边部时,需将控制边部质量放在首。对于边部质量控制的重要环节是切割工序,切割的精度将直接影响到研磨边部的质量,从而影响边部良品率。因此,切割精度是作为控制边部质量的第一要素。     

炭化活化条件对Cu/AC表面Cu价态及其催化降解苯酚的影响

采用前体浸渍法研制了生物质基载铜活性炭催化剂（Cu/AC），利用N₂-吸附脱附、X射线光电子能谱等技术对Cu/AC性质进行了表征，在固定床反应器中研究了不同炭化活化条件所得Cu/AC催化湿式氧化降解苯酚性能。结果表明：Cu/AC表面Cu物种以Cu²⁺和（Cu⁺+Cu⁰）共存。随着制备Cu/AC炭化温度的升高，炭化过程中产生更多的挥发分，促进Cu²⁺还原为Cu⁺和Cu⁰，（Cu⁺+Cu⁰）含量增大，Cu/AC降解苯酚催化活性逐渐升高；随着炭化时间延长，（Cu⁺+Cu⁰）含量下降，Cu₂O、CuO较好地并入载体使晶格氧含量增加，催化活性先升高后下降；随着活化温度升高和活化时间延长，Cu/AC比表面积达到1096.1m²/g并有大量微孔生成，大量含氧官能团分解将炭化过程中还原生成的（Cu⁺+Cu⁰）氧化为Cu²⁺，晶格氧含量增加，催化活性随着活化温度的升高而升高，随着活化时间的延长先升高后下降。催化湿式氧化降解苯酚过程中，Cu/AC具有良好的稳定性和低的Cu离子浸出浓度。Cu/AC的最优制备条件为炭化温度800℃，炭化时间2h，活化温度880℃，活化时间为2h，所得Cu/AC在反应8.5h时实现98.5%的苯酚转化率和91.1%的COD转化率。     

超重力在冶金和金属材料领域的研究进展及展望

超重力作为一种外场强化新技术,基于其优越的传质和相际分离特性,引起了广泛的关注。本文着重介绍了我国超重力技术在金属熔体提纯、冶金固废中有价物质的富集提取分离、金属材料凝固组织细化、非金属夹杂物的去除以及矿石气基还原等冶金和金属材料领域的研究进展和成果,提出了其应用过程中存在的科学问题,并展望了超重力技术的发展前景。虽然,目前还以实验室研究阶段为主,并未实现普适化。但作为一种外场强化新技术,其在冶金和金属材料凝固控制等相关研究体系中已突显出强大的熔体提纯、有价组分富集提取、组织细化、夹杂物去除等作用效果,这为进一步拓展超重力技术在冶金和金属材料领域的研究和开发应用提供了参考价值。超重力有望凭借自身的优点成为冶金和金属材料领域生产过程中一种新的外场技术。随着超重力设备的发展及相关科学问题的研究探索,相信在不久的将来,超重力技术必会在冶金和金属材料研究领域得到广阔的应用前景。     

2195铝锂合金碱性化学铣切工艺探究

初步研究了2195铝锂合金碱性化学铣切(简称化铣)工艺。结果表明,在一定条件下,通过添加一定浓度的添加剂A、B和C,2195铝锂合金平板试片化铣均匀性好,化铣速度为0.0297mm/min,侧切率为0.988,粗糙度基本保持不变。研究结果对2195铝锂合金产品化铣加工工艺优化可提供参考。     

水泥窑余热发电系统用耐磨材料的研制与应用

本研究针对水泥窑余热发电系统的工作条件,根据耐磨材料的损毁机理,采用高铝矾土、煅烧氧化铝粉、黏土、硅微粉等为原料,以磷酸二氢铝为结合剂,以铝酸钙水泥为促硬剂,通过添加掩蔽剂和优化配料工艺,制备了水泥窑余热发电系统用耐磨材料,并对不同处理温度对耐磨材料的性能影响进行了分析。结果表明增强骨料与基质的结合能力有利于耐磨性的提高,磷酸及磷酸盐与氧化铝之间会随着温度的升高生成不同的磷酸铝相,都能够起到结合作用,比采用水泥结合更有利于提高材料在不同温度下的强度和耐磨性。使用结果表明,制备的耐磨材料施工性能优良,凝结硬化时间适当,强度高,抗冲刷性能好,在水泥窑余热发电系统中取得了良好的使用效果。     

Optimization of waste quail eggshells as biocomposites for polyaniline in ammonia gas detection

A simple, cost-effective, and novel chemical sensor for ammonia (NH₃) gas detection was developed from polyaniline (PANI)/quail eggshell (QES) composites. QES is a natural waste enriched in calcium carbonate. In this work, pure PANI was synthesized from chemical oxidation method and PANI/QES composites were prepared from physical mixing of QES with the synthesized PANI at different mass ratio. A series of complementary techniques including Fourier transform infrared and ultraviolet-visible spectrometers, scanning electron microscope with energy dispersive detection coupled with mapping, thermogravimetric analysis, and X-ray diffractometer were used to characterize the physicochemical and textural properties of the biocomposites. From the results, PANI/QES composite with a mass ratio of 1 exhibited the lowest NH₃ detection limit of 5.24 ppm with a linear correlation coefficient (R²) of close to unity (0.9932) between the signal and NH₃ gas concentration. As a whole, the PANI/QES biocomposites synthesized from this work exhibited excellent selectivity toward NH₃ gas even in the presence of other gas impurities, such as acetone, ethanol, and hexane. For the sensor reusability, the PANI/QES biocomposites can be reused in the application of NH₃ gas detection for at least 4 cycles.     

SBBR反应器中耐冷微生物的驯化与识别

以模拟生活污水为处理对象，三种不同填料为生物膜载体，运行 A、B、C三个SBBR，通过逐步降温（25、20、15、10、6和5℃）培养驯化处理低温污水的生物膜。运行251周期，三个反应器COD出水浓度均低于50 mg/L；B反应器对氨氮去除效果优于A和C。特别在低温5℃时，A、B和C三个反应器氨氮平均出水浓度分别为14.1、3.79和14.1 mg/L。高通量测序结果显示，5℃时，三个反应器中均以降解有机物的微生物为主；只有B反应器中驯化富集出了嗜冷硝化菌（Candidatus Nitrotoga）；而其他有硝化作用的菌属在B反应器中的丰度也高于A和C反应器；不利于脱氮的类固氮菌（Elstera）在A和C反应器中丰度较高。此结果可从微生物角度解释三个反应器处理效果的差异性，表明B反应器处理低温污水有显著优势，其所用填料可结合低温菌进一步开发利用。     

Carbon,nitrogen and phosphorus recovery from liquid swine wastes: a review

Due to the pollution characteristics of the wastewater generated in piggeries, these waste streams have to be treated before discharging into the environment. These wastes have a high content of organic matter, nitrogen and phosphorus that can be converted or recovered into valuable products. The valuation of swine waste by anaerobic digestion has already been assessed, but no systematic review on the technologies used for recovering nutrients from this waste has been reported to date. Therefore, the present work has the goal of presenting the most studied technologies to different scales of recovery of carbon (i.e. organic matter), nitrogen and phosphorus from swine waste. The main characteristics and parameters of the processes involved in these technologies (mainly air stripping, membrane, enhance biological phosphorus removal and struvite formation) are also highlighted, pointing out its advantages and disadvantages and posing some final feasibility considerations on the subject addressed. Experiments reported in the literature proved that technologies used for nutrient recovery from swine waste are mostly applied to the effluents previously treated by anaerobic digestion as a primary treatment, and greater effort is required for the future implementation of these technologies in large scale. © 2020 Society of Chemical Industry