洪湖沉积物碳氮磷分布特征及污染评价

洪湖是中国第七大淡水湖,富营养化问题日益突出。全面了解洪湖沉积物氮、磷、有机质的含量及分布特征,对掌握其富营养化现状与氮磷污染生态风险具有重要意义。在湖区布设了8个采样点,2019年10月采集50 cm柱状沉积物,分别测定不同深度沉积物总氮(TN)、总磷(TP)以及有机质(OM)含量,分析了TN、TP 和OM 含量的空间分布特征及相关性,并运用综合污染指数法评价其对应的污染程度。结果表明:洪湖沉积物TN含量在467.8~8 454.5 mg/kg之间,平均值2 167 mg/kg,为重度污染,其中近一半的采样点表层沉积物TN含量>5 000 mg/kg;TP含量在502.7~1 252.4 mg/kg之间,平均值693.8 mg/kg,除杨柴湖为重度污染外,其他大部分地区为中度污染;有机质含量占比在5.0%~24.9%之间,平均值9.6%,为重度污染。在垂直空间上,TN、TP 和OM 均在沉积物表层垂向深度0~20 cm存在明显的积累,其含量随垂向深度的增加而迅速降低。研究成果可为洪湖富营养化的控制与治理提供科学数据支撑。     

电机智能制造发展现状及推进策略

随着电机制造要求逐步提高、自动化逐渐普及,智能制造将成为未来主流的生产制造模式。基于对传统电机制造现状和发展趋势的分析,厘清智能制造优势及智能制造推进误区,概括智能制造推进内容及策略。以江苏大中电机股份有限公司相关项目为例,介绍智能制造的侧重内容、实施步骤、原则及实施成果。结果表明：总体生产效率提高了35.75%,生产运营成本降低了26.21%,产品不良率降低了75.84%。在此基础上概括电机行业智能制造推进参考战略,为中小型电机行业发展提供支持。     

Pro-Inflammatory Effect of Gliadins and Glutenins Extracted from Different Wheat Cultivars on an In Vitro 3D Intestinal Epithelium Model

There is a need to assess the relationship between improved rheological properties and the immunogenic potential of wheat proteins. The present study aimed to investigate the in vitro effects of total protein extracts from three modern and two landrace Triticum aestivum commercial flour mixes, with significant differences in gluten strength (GS), on cell lines. Cytotoxicity and innate immune responses induced by wheat proteins were investigated using Caco-2 monocultures, two dimensional (2D) Caco-2/U937 co-cultures, and three dimensional (3D) co-cultures simulating the intestinal mucosa with Caco-2 epithelial cells situated above an extra-cellular matrix containing U937 monocytes and L929 fibroblasts. Modern wheat proteins, with increased GS, significantly reduced Caco-2 cell proliferation and vitality in monoculture and 2D co-cultures than landrace proteins. Modern wheat proteins also augmented Caco-2 monolayer disruption and tight junction protein, occludin, redistribution in 3D co-cultures. Release of interleukin-8 into the cell medium and increased U937 monocyte migration in both 2D and 3D co-cultures were similarly apparent. Immuno-activation of migrating U937 cells was evidenced from cluster of differentiation 14 (CD14) staining and CD11b-related differentiation into macrophages. The modern wheat proteins, with gluten polymorphism relatedness and increased GS, were shown to be more cytotoxic and immunogenic than the landrace wheat proteins.     

Nitric Oxide (NO) Scaffolds the Peroxisomal Protein–Protein Interaction Network in Higher Plants

The peroxisome is a single-membrane subcellular compartment present in almost all eukaryotic cells from simple protists and fungi to complex organisms such as higher plants and animals. Historically, the name of the peroxisome came from a subcellular structure that contained high levels of hydrogen peroxide (H₂O₂) and the antioxidant enzyme catalase, which indicated that this organelle had basically an oxidative metabolism. During the last 20 years, it has been shown that plant peroxisomes also contain nitric oxide (NO), a radical molecule than leads to a family of derived molecules designated as reactive nitrogen species (RNS). These reactive species can mediate post-translational modifications (PTMs) of proteins, such as S-nitrosation and tyrosine nitration, thus affecting their function. This review aims to provide a comprehensive overview of how NO could affect peroxisomal metabolism and its internal protein-protein interactions (PPIs). Remarkably, many of the identified NO-target proteins in plant peroxisomes are involved in the metabolism of reactive oxygen species (ROS), either in its generation or its scavenging. Therefore, it is proposed that NO is a molecule with signaling properties with the capacity to modulate the peroxisomal protein-protein network and consequently the peroxisomal functions, especially under adverse environmental conditions.     

再生砖混骨料混凝土柱的小偏心受压性能

通过小偏心受压性能试验对比研究3根的天然骨料混凝土柱和3根同强度全再生砖混骨料混凝土柱,强度分别为C25、C30和C35. 对6根柱进行加载试验,分析再生砖混骨料混凝土柱相比于同强度天然骨料混凝土柱在受力过程、破坏特征、变形能力与承载力等方面的差异. 试验发现,再生砖混骨料混凝土柱在小偏心加载至破坏的过程中,具有与天然骨料混凝土柱相似的3个受力阶段,且符合平截面假定. 与同强度的天然骨料混凝土柱相比,变形较大,但再生砖混骨料混凝土柱的极限承载力略高,原因可能在于两者轴心抗压强度的差异.     

氮气氛下直拉硅中氮含量的红外光谱测定

提出了利用直拉硅中与氮有关的特征红外吸收峰９６３、９９６、１０８１－１及１０２７ｃｍ－１确定直拉硅中氮含量的计算公式，并进行了多种样品实测。该法克服了只用９６３ｃｍ－１峰测定直拉硅中氮使结果偏低的弊病，方法相对偏差为５％～２０％     

相对压强对白炭黑氮吸附表面积测试稳定性的影响

研究相对压强对白炭黑氮吸附表面积测试稳定性的影响。结果表明:在相同液氮纯度、脱气温度、脱气时间、氮吸附点数量条件下,与相对压强范围为0.05~0.1时相比,相对压强范围为0.05~0.2时白炭黑的氮吸附表面积测量值偏低,且差值随氮吸附表面积的增大呈增大趋势;相对压强范围较小时,氮吸附表面积测试结果的线性相关因数较大,再现性较好,测试结果较稳定。     

铜冶炼企业产品质量控制的探索与实践

为了保持阴极铜化学成分和质量长期稳定,某铜冶炼企业对阴极铜化学成分进行监控,对铜冶炼生产系统中电解工序物料、产出后又重回本系统物料、贵金属系统中产出物料、外购原料中物料的杂质总量进行分析,提出了减少杂质对阴极铜质量影响的措施,为阴极铜质量的稳定创造了良好的生产条件,并提升了企业适应复杂原料市场的能力。     

臭氧脱硝技术在稀贵多金属烟气治理中的应用

主要介绍在面临环境保护要求不断提升,废气排放指标不断降低的情况下,使用臭氧氧化+液碱脱硝技术对稀贵卡尔多炉和旋转顶吹炉生产回收金、银、硒、碲、铅、铋等金属产出的烟气的治理。治理后二氧化硫指标小于50mg/m3、氮氧化合物小于60mg/m3、尘指标小于10mg/m3,满足A类企业环保要求,同时其他重金属指标都满足国家国控指标要求,达到超低排放要求。     

电梯用含氮节镍奥氏体不锈钢QN1701的组织和性能

借助Thermo-Calc热力学相图计算软件,开发了用于电梯的含氮节镍奥氏体不锈钢QN1701(12Cr17Mn7Ni2Cu2N),以代替443(019Cr21CuTi)超纯铁素体不锈钢。通过OM、SEM和电化学工作站等方法研究了QN1701和443不锈钢的组织及性能。N原子起着间隙固溶和细晶强化的作用,使QN1701不锈钢的屈服强度提高至400 MPa以上,达到443不锈钢的1.32倍。QN1701不锈钢的点蚀电位为241 mV,低于443不锈钢的289 mV,但其点蚀速率为9.10 g/(m2·h),低于443不锈钢的14.58 g/(m2·h)。在电梯用研磨拉丝表面状态下,QN1701不锈钢在质量分数为10%NaCl中性盐雾和干湿循环盐雾等加速腐蚀试验中的耐蚀性能均优于443不锈钢。分析发现,443不锈钢添加一定量的Nb、Ti稳定化元素所生成的(Nb,Ti)(C,N)析出相经研磨拉丝处理后,暴露于表面或被拖拽后留下微坑,导致其耐蚀能力急剧下降。综上所述,相较443不锈钢,QN1701不锈钢具有强度更高、伸长率更大和在研磨拉丝表面状态下耐蚀性更好等特点,这对于电梯轻量化设计和长寿命具有重要价值。