粤港澳大湾区典型固废综合处置园区能量代谢特征研究

我国城市固体废物种类多、来源广、产量大,不同固废处置方式不尽相同,但均面临能耗高、二次污染大等问题.本研究从物质流及投入产出分析视角出发,构建了城市多源固废处置能量代谢分析框架及其评价指标体系,并以位于中国粤港澳大湾区唯一的国家级资源循环利用园区为例,通过设置固废单独处置、固废物质协同处置和固废物质能量耦合协同处置3种模式情景,分别从投入、产出和效率3个方面对其能量代谢特征进行综合分析和评估.结果表明,从能源消耗角度来看,物质协同处置能源消耗高出单独处置27.54%,而物质能量耦合协同处置由于实现了余热余能内部回用,其能源消耗较单独处置减少了3.73%.从能量损失情况来看,通过物质协同和物质能量耦合协同,能量损失率从单独处置模式下的73.17%分别降到了65.82%和63.41%,其中废气赋存作为主要能量损失途径占比接近50.00%.从能效角度来看,物质能量耦合协同模式下,能源消耗强度比单独处置和物质协同处置模式下分别降低了11.54%和17.03%,但其能量循环利用率也仅仅只达到了12.22%.综上所述,加强城市多源固废集中化协同处置,可以增强其资源能源替代效应,降低区域生态环境风险,但各种低温烟气及废水的余热利用仍是未来我国固废协同处置下能碳双控的重要方向.同时本研究为城市多源固废处置能量代谢优化过程提供了一套可量化评估的方法和指标体系,将有助于促进我国城市固废综合利用行业绿色低碳循环发展目标的进一步实现.     

反应堆压力容器保温层辐射屏蔽组件传热计算分析及屏蔽材料试验研究

目的 确保华龙一号HPR1000反应堆压力容器保温层辐射屏蔽组件在运行工况下的可靠性、安全性以及能够有效执行其功能。方法 采用基于传热理论结合经验公式的理论计算方法,以及流固耦合的有限元仿真分析,对辐射屏蔽组件的运行温度进行计算。针对屏蔽材料在受热状态下的性质变化,进行一系列的热态性质试验。结果 理论计算方法得到的结果为163.36~168.74 ℃,有限元仿真分析得到的结果为236.85~266.85 ℃,两者偏差约100 ℃。对造成该种差异的原因进行了分析,发现仿真分析方法得到的结果的置信度更高。屏蔽材料在受热状态下,其体积膨胀率可达到38.82%,而当屏蔽材料受热超过其温度限值204 ℃后,将出现明显的粉化等物理状态恶化的趋势。结论 流固耦合的有限元仿真分析方法更适用于辐射屏蔽组件的传热过程计算,同时获取了屏蔽材料物理性状受热变化趋势,对屏蔽组件的选材及结构设计具有指导意义。     

Porous materials produced from incineration ash using thermal plasma technology

This study presents a novel thermal plasma melting technique for neutralizing and recycling municipal solid waste incinerator (MSWI) ash residues. MSWI ash residues were converted into water-quenched vitrified slag using plasma vitrification, which is environmentally benign. Slag is adopted as a raw material in producing porous materials for architectural and decorative applications, eliminating the problem of its disposal. Porous materials are produced using water-quenched vitrified slag with Portland cement and foaming agent. The true density, bulk density, porosity and water absorption ratio of the foamed specimens are studied here by varying the size of the slag particles, the water-to-solid ratio, and the ratio of the weights of the core materials, including the water-quenched vitrified slag and cement. The thermal conductivity and flexural strength of porous panels are also determined. The experimental results show the bulk density and the porosity of the porous materials are 0.9–1.2 g cm^?3 and 50–60%, respectively, and the pore structure has a closed form. The thermal conductivity of the porous material is 0.1946 W m^?1 K^?1. Therefore, the slag composite materials are lightweight and thermal insulators having considerable potential for building applications.     

覆膜滤料过滤性能的试验研究

对覆膜滤料与普通（渗膜）滤料的过滤性能进行了试验研究,结果显示：与普通滤料相比,覆膜滤料具有过滤效率高、运行阻力低、使用寿命长等特点。覆膜滤料的过滤性能更佳,更能满足烟尘过滤的要求。     

Material flow analysis for a sustainable resource management in island ecosystems

The Galapagos Archipelago (Ecuador) is one of the most well-known natural sites in the world for its unique biodiversity. This sensitive ecosystem is at risk due to a problematic equilibrium between its conservation policy and development demand. To contribute to implementing integrated sustainable resource management in the Galapagos Islands, a material flow analysis (MFA) of Santa Cruz – the island with the highest anthropic pressure in the archipelago – has been performed, outlining a quantitative and qualitative assessment of the direct flow of goods throughout the system. MFA outcomes have been used to evaluate and forecast the impact of some policies and strategies on the local system, focusing in particular on fossil fuel consumption and local agricultural production. This case study stresses the need to introduce a local MFA protocol to decision-makers’ toolbox, as it provides quantitative assessments on a broad spectrum of local development issues.     

吸波材料反射率的现场测量方法

通过对微波暗室中安装在墙壁上的吸波材料反射率的现场测量方法的研究,采用矢量网络分析仪对吸波材料反射率进行现场测量时,利用时域门技术来减小暗室现场对吸波材料反射率测量的影响,通过比较标准金属板和吸波材料的测量值得到吸波材料的反射率。     

Dielectric barrier discharge plasma-assisted modification of g-C3N4/Ag2O/TiO2-NRs composite enhanced photoelectrocatalytic activity

Dielectric barrier discharge (DBD) plasma applied as surface treatment technology was employed for the modification of Ag₂O and graphitic carbon nitride (g-C₃N₄) powders. Subsequently, the pretreated powders were sequentially loaded onto TiO₂ nanorods (TiO₂-NRs) via electro-deposition, followed by calcination at N₂ atmosphere. The results indicated that at the optimal plasma discharge time of 5 min for modification of g-C₃N₄ and Ag₂O, photocurrent density of ternary composite was 6 times to bare TiO₂-NRs under UV-visible light irradiation. Phenol was degraded by using DBD plasma-modified g-C₃N₄/Ag₂O/TiO₂-NRs electrode to analyze the photoelectrocatalytic performance. The removal rate of phenol for g-C₃N₄-5/Ag₂O-5/TiO₂-NRs electrode was about 3.07 times to that for TiO₂-NRs electrode. During active species scavengers’ analysis, superoxide radicals and hydroxyl radicals were the main oxidation active species for pollutants degradation. A possible electron-hole separation and transfer mechanism of ternary composite with high photoelectrocatalytic performance was proposed.     

典型室内公共场所灰尘中PBDEs污染特征及源解析

为探索以多溴联苯醚（PBDEs）为代表的半挥发性有机化合物在典型室内公共场所中的污染特征及与材料的关系,在网咖、电子市场、建材市场、商场和图书城5类典型公共场所采集分析了灰尘样品,利用环境模拟舱研究了不同污染源材料中PBDEs的挥发强度系数（K_vsPBDEs）、衰减半衰期,结合主成分分析（PCA）分析了PBDEs的浓度与不同室内材料间的关系.结果表明,杭州5类典型室内公共场所灰尘中∑₁₄PBDEs的平均值分别为：网咖（2471.75ng/g）>电子市场（1071.77ng/g）>建材市场（900.63ng/g）>商场（441.27ng/g）>图书城（243.36ng/g）.所选取的10种室内典型污染源材料中∑₁₄PBDEs含量最高的为保温棉（91.61μg/g）,最低的为电路板（7.97μg/g）;K_vsPBDEs最高的为电线[14.04×10⁴μg/（g·m²）],最低的是纤维墙纸[0.87×10⁴μg/（g·m²）];塑料地毯、保温棉和纤维墙纸在40℃下的衰减半衰期分别为192,375和61d.研究发现室内公共场所中PBDEs的浓度与不同材料有关：网咖中PBDEs主要来自于纤维墙纸和电线;超市和图书城中PBDEs主要来自于陶瓷阻燃布和混纺地毯;建材市场中PBDEs主要来自于保温棉、电路板和塑料墙纸;电子市场中PBDEs主要来自于纤维阻燃布和电线.     

中国报废汽车中铂族金属回收潜力估算

基于Gompertz模型预测中国2018~2050年民用汽车的社会保有量;在此基础上,采用物质流分析方法估算得出我国汽车高峰报废年限大约为9a.然后,通过市场供给A模型预测我国2018~2025年汽车报废量,结果显示,我国汽车报废量到2025年将达到2535.05万辆,并且地理空间分布极不均衡.基于上述汽车报废量的时空分布,测算不同技术发展情景下废汽车三元催化剂中的铂族金属回收潜力和需求量.结果显示：如果按照当前催化剂消耗水平,全国铂族金属的需求量均在2019年达到峰值,铂钯铑分别达到4.57,65.70,7.92t,有望实现行业内闭环供应;如果以欧盟汽车尾气治理标准为目标,而现有汽车技术不发生根本变化,需求量将大幅增加,铂钯铑分别在2020年达到峰值85.01,109.38,8.37t,存在严重的供需矛盾.为此,建议在汽车生产者责任延伸制度中,关注废催化剂的回收和再生利用,以促进前端生产环节在不同技术选择中考虑稀贵金属的供给限制.     

等离子体技术在材料领域中的应用研究进展

详述了等离子体在材料领域的应用研究进展,在材料表面处理方面可实现材料的表面粗糙化、表面清洁、表面化学基团引入和表面亲水性调变等,在催化材料制备方面可用于催化剂的还原、氧化、掺杂、刻蚀以及特殊化合物的合成等。还分析了等离子体技术在材料制备领域具备诸多优势,但仍然面临一些挑战,如等离子体处理具有时效性、处理量小、等离子体发生作用机制不清晰、工程放大困难等。因此,需要从等离子体反应机理及工程技术两个层面进行更深入研究,以期该技术在材料领域获得更广泛的应用。