某油田稠油采出液生产分离器机械消泡技术研究

目的 针对某油田进行机械消泡技术研究,进而为促进分离器内稠油的快速消泡提供解决办法.方法 利用Fluent软件模拟不同导流板参数下分离器中气液分离效果及泡沫变化情况,并采用动态解析法发泡方式,利用高压溶气消泡测试系统对不同类型和型号的金属规整填料和两种化学消泡剂,进行消泡测试以及组合消泡实验.结果 导流板放置角度为45°时,分离效率和泡沫聚并效果均较好,而导流板放置距离影响不大;随着消泡填料的高度增加,消泡效果随之增加.结论 分离器入口导流板最佳放置角度为45°,孔板波纹填料SM250*12 cm为优选的机械消泡构件.实际生产采用机械消泡方法即可满足消泡需求,要求更好的消泡效果时,可将机械消泡与化学消泡剂消泡两种方式结合使用.     

三峡库区城市富营养化河流凋落物的混合分解效应

以三峡库区重庆市主城段清水溪为典型的城市富营养化河流代表,选取河岸带3种常见凋落叶为分解对象,设计了7种凋落物组合（3个单种和4个混合物种）和3种孔径的分解袋（50μm、250μm和2mm）,开展原位实验,探讨混合凋落物的性状、功能多样性与底栖分解者类群及其交互作用对叶片质量损失和混合效应的影响.结果表明,仅有50%的处理表现为显著非加和效应（且均为负值）,这与凋落物的性状密切相关.随着混合凋落物功能离散度的增加,尤其组合中含高木质素等难分解物质的凋落物时,分解变慢.微生物在富营养化河流混合凋落物的分解中占主导作用,小型和大型底栖动物均抑制了混合凋落物的分解过程.在富营养化河流的修复过程中,需重视河流凋落物分解功能,注重调整河岸带植物的配置,以及提升底栖动物的生物多样性并恢复底栖动物在凋落物分解中的正面效应.     

基于响应面法SCR脱硝反应器喷氨格栅的优化研究

利用计算流体动力学（CFD）方法,采用k-e湍流模型和组分运输模型对SCR脱硝反应器的氨浓度场进行了数值模拟,并通过实验验证了反应器内氨浓度场数值模拟的准确性,同时,基于响应面法研究了喷氨格栅各结构参数和系统运行参数对SCR脱硝反应器内氨浓度场的影响.结果表明,喷口密度N,开孔率ψ,喷口角度α及入口风速v对氨浓度分布均匀性都存在着一定影响,其中影响的显著性为N>α>v>ψ.而且存在着一组最优的喷氨格栅结构参数和最佳的系统运行参数能够使SCR脱硝反应器内的氨浓度分布不均匀系数达到最优值.在本文研究的参数范围内,喷氨格栅最优的结构参数分别是：r=8个、d=57mm、α=90°,系统最佳的运行参数为v=8.17m/s,此时氨浓度分布不均匀系数为0.0151.     

基于系统动力学的中国碳减排路径模拟

通过分析二氧化碳排放影响因素之间作用关系与碳减排的主要路径,构建二氧化碳排放系统动力学模型。在此基础上,通过调控供给侧经济增长速度、能源结构和产业结构要素,预测四种不同情景方案对二氧化碳排放的影响,以进一步探讨二氧化碳排放主要部门减排贡献。结果表明：四种方案的二氧化碳净排放量增长趋势逐年变缓,在二氧化碳净排放量达到峰值后,调整经济增速、改善能源结构和优化产业结构继续为碳减排发挥积极作用,相比于经济增速和产业结构调整,能源结构改善的减排贡献度更高。在综合调控经济增速、能源结构和产业结构的方案下,中国二氧化碳净排放量2024年将达到高峰值104.45亿t,2058年实现碳中和,这与现实情况更加吻合。未来若能抓住经济、能源、产业低碳转型的良好机遇,并进一步加强各部门的减排努力,中国二氧化碳净排放量有望2025年前达峰,2060年前实现碳中和。     

中国玻璃物质流分析和未来需求预测研究

使用物质流分析方法和情景分析法探讨了1949~2050年玻璃的物质流动和初级资源可持续性.结果表明,废日用玻璃和废玻璃纤维是资源损失的关键节点;在不同需求增长率下,初级资源需求会在2030~2050年某个时期超过当前资源储量.2045年前,期望将废平板玻璃回收利用率提高到70%、废日用玻璃回收利用率提高到60%,使玻璃硅质资源可以满足低增长需求.为了达到循环目标,政府应持续推进垃圾分类,鼓励企业从设计端延长玻璃产品寿命,提高回收利用技术,建立完善的回收再利用体系.     

中国钢铁行业二氧化碳排放达峰路径研究

钢铁行业是我国重要的CO₂排放源. 作为典型的资源能源密集型产业,钢铁行业加快绿色低碳转型、尽早实现碳达峰并有效降碳,既是行业自身高质量发展的内在需要,也是支撑落实国家碳达峰、碳中和目标的客观要求. 本文综合考虑经济社会发展、资源能源利用、工艺结构调整、低碳技术应用等因素影响,开展了基于情景分析的钢铁行业CO₂排放达峰路径研究,对不同情景下钢铁行业CO₂的排放趋势进行测算,识别钢铁行业CO₂减排的主要驱动因素,判断推动钢铁行业碳排放达峰的关键举措,为制定“双碳”目标背景下钢铁行业CO₂排放控制策略提供参考. 测算结果表明,我国钢铁行业CO₂总排放量有望在2020—2024年期间达到峰值;行业CO₂总排放量峰值为18.1×108~18.5×108 t,达峰后到2030年降幅将超过3×108 t. 研究显示,粗钢产量是决定我国钢铁行业碳排放能否快速达峰的关键,加大废钢资源利用、推进外购电力清洁化以及提高系统能效水平是2030年前钢铁行业实现碳排放达峰并有效降碳的重要途径. 到2030年,粗钢产量降低、加大废钢资源利用、推进外购电力清洁化、提高系统能效水平以及氢能炼钢和二氧化碳捕集、利用与封存(CCUS)等前沿技术对钢铁行业CO₂减排的贡献率分别为11%~52%、34%~52%、7%~20%、5%~13%和2%~3%.      

Urinary analysis reveals high Alternaria mycotoxins exposure in the general population from Beijing, China

Alternaria mycotoxins are of concern due to its adverse health effect, they affect various cereal crops and grain-based food along with modified forms that contribute to overall exposure. This study aimed to determine the frequency and level of exposure to Alternaria mycotoxins (tenuazonic acid, TeA; alternariol, AOH; alternariol monomethyl ether, AME; tentoxin, TEN; and altenuene, ALT) in human urine from Beijing adults. A total of 2212 urine samples were collected and analyzed for five mycotoxins using LC–ESI–MS/MS. More than 98% of the samples had at least one Alternaria mycotoxin detected. Among the mycotoxins, AME had the highest detection rate (96.0%), followed by TeA (70.5%). The calculated average daily intake values of AME (12.5 ng/kg b.w.) was 5 times the TTC value (2.5 ng/kg b.w.) set by the EFSA, indicating the potential health risks associated with mycotoxins. Immediate attention and subsequent actions should be taken to identify the sources of mycotoxins and the corresponding exposure pathways to humans in the investigated regions.     

Chemical composition of different size ultrafine particulate matter measured by nanoparticle chemical ionization mass spectrometer

New particle formation (NPF) is the primary source of nanoparticles and contributes a large number of concentrations of cloud condensation nuclei. In recent years, field campaigns and laboratory experiments have been conducted to promote cognition of the mechanism for NPF and its following growth processes. The chemical composition measurement of nanoparticles could help deepen understanding of the initial step of particulate matter formation. In this work, we developed a nanoparticle chemical ionization mass spectrometer to measure nanoparticles' chemical compositions during their initial growth stage. Meanwhile, a non-radioactive ion source was designed for aerosol charging and chemical ionization. Time of flight mass spectrometer coupled with integrated aerosol size selection and collection module would guarantee the picogram level detection limit and high-resolution ability to measure the matrix of ambient samples. The performance of this equipment was overall evaluated, including the transmission efficiency and collection efficiency of custom-built nano differential mobility analyzer, chemical ionization efficiency, and mass resolution of the mass spectrometer. The high sensitivity measurement of ammonium sulfate and methylammonium sulfate aerosols with diameters ranging from 10 to 25 nm could guarantee the application of this instrument in the ambient measurement.     

Effects of co-exposure to lead and manganese on learning and memory deficits

Lead (Pb) and manganese (Mn) are common neurotoxins. However, individuals are subject to co-exposures in real life, and it is therefore important to study these metals in combination. Weaning Sprague-Dawley rats were given ad libitum access to drinking water solutions containing Pb (100 mg/L), Mn (2.5 mg/mL) or a mixture, and each treatment had its own minocycline (50 mg/(kg•day)) supplement group. The results showed a significant difference in spatial memory and induction levels of hippocampal long-term potentiation (LTP) in all exposure groups when compared with controls. The combined-exposure group exhibited the most pronounced effect when compared with each of the single-metal exposure groups. Microglia displayed activation at day 3 after exposure alone or in combination, while astrocytes showed activation at day 5, accompanied by decreased expression levels of GLAST, GLT-1, and GS. Furthermore, the levels of glutamate in the synaptic cleft increased significantly. When microglial activation was inhibited by minocycline, the activation of astrocytes and the expression of GLAST, GLT-1, and GS were both reversed. In addition, upon minocycline treatment, hippocampal LTP impairment and cognitive injury were significantly alleviated in each of the exposure groups. These results suggest that combined exposure to Pb and Mn can cause greater effects on cognition and synaptic plasticity when compared to single-metal exposure groups. The reason may involve abnormal activation of microglia leading to excessive regulation of astrocytes, resulting in glutamate reuptake dysfunction in astrocytes and leading to perturbed cognition and synaptic plasticity.     

Effect of NOx and RH on the secondary organic aerosol formation from toluene photooxidation

The secondary organic aerosol (SOA) formation mechanism and physicochemical properties can highly be influenced by relative humidity (RH) and NOx concentration. In this study, we performed a laboratory investigation of the SOA formation from toluene/OH photooxidation system in the presence or absence of NOx in dry and wet conditions. The chemical composition of toluene-derived SOA was measured using Aerodyne high-resolution time-of-flight aerosol mass spectrometer (HR-ToF-AMS). It was found that the mass concentration of toluene decreased with increasing RH and NOx concentration. However, the change of SOA chemistry composition (f₄₄, O/C) with increased RH was not consistent in the condition with or without NOx. The light absorption and mass absorption coefficient (MAC) of the toluene-derived SOA only increased with RH in the presence of NOx. In contrast, MAC is invariant with RH in the absence of NOx. HR-ToF-AMS results showed that, in the presence of NOx, the increased nitro-aromatic compounds and N/C ratio concurrently caused the increase of SOA light absorption and O/C in wet conditions, respectively. The relative intensity of CHON and CHO_xN family to the total nitrogen-containing organic compounds (NOCs) increased with the increasing RH, and be the major components of NOCs in wet condition. This work revealed a synergy effect of NOx and RH on SOA formation from toluene photooxidation.