海水热扩散研究进展与新问题分析

从实际的工程背景出发,较为详细地介绍了国内外关于热扩散问题的研究进展。还针对海水源热泵系统应用分析了当前研究存在的不足,指出了今后在该问题方面的研究方向。     

稠油热采井防砂筛管失效机理及完整性研究

目的 防止热采井筛管损坏,延长热采井防砂有效期.方法 基于有限元理论,分别针对基管和外保护套,开展热采井优质防砂筛管在不同热应力补偿器及其安放间隔条件下的完整性研究,并开展室内实验,探究筛管在腐蚀、冲蚀共同影响下的失效规律.结果 目前现场所使用的热应力补偿器设计基本满足防砂筛管基管的力学完整性需求,但无法保证外保护套的...     

锂电池火灾灭火技术研究综述

为系统了解锂电池火灾灭火技术研究现状,综述国内外针对锂电池火灾的灭火实验研究,基于锂电池火灾的特点,从灭火效果、冷却效果和毒性危害等方面分析各类灭火剂对锂电池火灾的适用性,指出目前研究存在的问题以及今后的研究重点。研究结果表明：灭火剂的冷却能力是抑制锂电池内部链式分解反应,进而阻止锂电池复燃和热失控传播的关键因素。未来研究应更贴近实际工程应用,从灭火效率、冷却能力、毒性影响和有无不良抑制作用等角度综合评估灭火剂的有效性。     

坡地建筑外立面火灾温度演化研究

针对坡地建筑外立面开口火溢流行为,为了预测不同坡地角度时圆形开口建筑火溢流的外立面热羽流温度分布规律,采用1∶8缩尺寸建筑火灾模型,开展圆形开口建筑火溢流实验研究。结果表明:在建筑火灾燃烧状态稳定下,对于确定开口尺寸、火源功率以及坡地坡度(倾斜挡墙)下,带有圆形开口的燃烧室内温度基本均匀且保持一致;针对圆形开口建筑,倾斜挡墙坡度越大,外立面的温度越高;基于热羽流温度实验数据,建立考虑不同开口尺寸、火源功率和倾斜挡墙角度影响下圆形开口建筑火灾溢出热羽流的竖向温度预测模型。     

淋雨及不同温度条件对消防员防护服各部位热阻的影响

为了研究淋雨及不同温度条件对消防员防护服各部位热阻的影响,以消防防护服为研究对象,利用环境舱和暖体假人系统,在20 mm/h降雨强度和20~30 ℃的复合环境条件下,研究淋雨、不同温度复合环境对服装各部位热阻的影响。研究结果表明:淋雨过程中,服装热阻的变化趋势为先上升再下降最后趋于稳定;淋雨与不同温度复合环境会使得消防防护服热阻降低,其中影响较大的部位为上臂部、腹部、胸部、背部及臀部等。     

低压环境下不同三元圆柱锂电池热失控危险特性对比研究

为研究21700和18650新旧2型多用途锂离子电池在航空运输低压环境下的热失控特性差异,采用动压变温实验舱搭建实验平台开展实验。将实验环境压力设定为飞机巡航时的环境压力30 kPa,对比常压101 kPa,使用外部热源加热的方式触发锂电池热失控,利用热传播引发相邻电池热失控,分别从热失控温度变化特性、热释放速率和热解气体组分浓度变化进行分析。研究结果表明:能量密度更高的21700电池热失控峰值温度更高,高温危险性要高于18650电池,但触发热失控所需的热量更多,电池间热传播时间会延长;低压环境有利于降低锂电池热失控燃爆峰值温度,减小燃爆热释放速率,但会产生更多CxHy和CO等具有燃爆性的热解气体,可能会在有限空间内与氧气混合引起二次燃爆。     

An experimental-computational study of DPF soot capture and heat regeneration

ABSTRACT

A diesel particulate filter (DPF) can effectively reduce the exhaust emissions of particulate matter (PM) and meet emission regulations. We report herein an experimental-numerical study to investigate the soot capture and regeneration behavior in a commonly used DPF. Simulations are performed using the AVL FIRE software that considers a fairly detailed DPF model. The model is validated using measured pressure drop history during soot capture, and temperature history during regeneration from a parallel experimental study using a diesel engine equipped with a DPF. Then, a detailed numerical study is performed to examine the soot capture and heat regeneration processes, and characterize the effects of various parameters on these processes and on DPF performance. Results indicate that the pressure drop during soot loading can be reduced by increasing the CPSI (channels per square inch), minimizing the amount of residual soot in each regeneration cycle, and using moderate gas flow rates. The DPF regeneration performance is characterized in terms of the rates of temperature rise and soot oxidation. Results indicate that these rates are enhanced, as the oxygen content in the exhaust stream is increased to about 12%, the rate of thermal heating is moderately increased, and as the exhaust gas flow rate is increased. Thus, the regeneration efficiency can be significantly improving by optimizing these parameters.     

2种典型餐厨垃圾资源化处理工艺的环境影响分析

为了评估餐厨垃圾资源化处理工艺对环境的影响,运用生命周期评价的方法,比较了2种典型的资源化处理工艺——好氧堆肥和湿热处理对环境的影响。结果表明,2种餐厨垃圾资源化处理工艺对全球变暖、生态毒性、酸化和富营养化的影响各有不同。其中,好氧堆肥对全球变暖的贡献较大,碳排放为337.7 kg CO_2eq./t。湿热处理为163.1 kg CO_2eq./t。在环境影响负荷方面,湿热处理工艺中的高能耗加重了毒性的影响。但由于其对环境的酸化、富营养化的不利影响较小,湿热处理的环境影响负荷总值是好氧堆肥的62.5%。总体上,湿热处理是一种对环境影响较小的餐厨垃圾处理工艺。     

餐饮垃圾主要成分的热解动力学研究

将餐饮垃圾的主要成分纤维素、淀粉以及脂肪分别在10 K/min的升温速率下进行TG-DTG分析,结果表明3种物质由于分子结构与物质组成的差别,其热解特性有着明显的不同;同时采用Achar(微分法)和Coats-Refern(积分法)相结合的方法对餐饮垃圾进行热解动力学分析,找出最佳的机理函数并求出每种组分的活化能Ea和指前因子lnA。     

Uptake of uranium and thorium by native and cultivated plants

Large part of available literature on biogeochemistry of uranium and thorium refers to the studies performed either in highly contaminated areas or in nutrient solutions that have been artificially ‘spiked’ with radionuclides. Effects of background levels of natural radioactivity on soil-grown plants have not been studied to the same extent. In this paper, we summarised results of greenhouse and field experiments performed by the author from 2000 to 2006. We examined some of the factors affecting transfer of U and Th from soil to plants, differences in uptake of these radionuclides by different plants, relationships between U and Th in soil and in plants, and temporal variations of U and Th in different plant species. Concentrations of radionuclides (critical point for experimental studies on biogeochemistry of U and Th - rare trace elements in non-contaminated regions) and essential plant nutrients and trace elements were determined by instrumental neutron activation analysis.