空气气氛下木材表现热解动力学

研究了空气气氛下马尾松和楠木的树叶，树皮和树干试样的热解过程，发现每种试样的热解均包含两步主要的失重过程，在600℃时总失重均达90％以上，利用积分议程建立了适用于所有试样的两阶段一级动力学模型，实验失重曲线较好地符合模型计算出的失重曲线。     

典型热塑性聚合物热解行为研究

利用热失重分析仪采用不同的加热速率对典型热塑性聚合物PP(聚丙烯)、PE(聚乙烯)和PMMA(聚甲基丙烯酸甲酯)在空气氛围中的热解行为进行了研究,通过热失重TG和微商热失重DTG分析了三种聚合物的热解过程及加热速率对热解过程的影响,通过Coats-Redfern方法建立了聚合物的热解动力学模型,并分析讨论了聚合物的热解机理和氧气对热解的影响,最后通过计算曲线和实验曲线的比较,验证了该文聚合物热解动力学模型的可靠性。     

阻燃与未阻燃装饰装修木材在不同氧浓度下的热分析

利用热重分析仪对常见木质装饰装修材料白杨、白桦、红松以及这三种材料的阻燃品,在不同氧浓度条件下进行了热重分析(TGA)实验,通过对失重(TG)曲线、失重速率(DTG)曲线的分析,深入探讨了氧气体积分数对样品热解过程的影响.结果表明:对三种天然木材样品而言,氧浓度增大,样品的TG曲线左移.氧浓度对阻燃样品热解失重曲线的影响较小.热解过程用简单的动力学模型进行了模拟,确定了热解主反应段的动力学参数、表观活化能和频率因子,得到了各阶段的动力学方程.     

建筑装璜中几种常用板材热解特性及动力学研究

对建筑装璜中几种常用板材变工况的热解行为进行了热重分析（TG）和差分热重分析（DTG）研究。通过对TG和DTG曲线的分析,深入研究了影响样品热解过程的几个重要因素：升温速率、样品粒径和试样量对热解过程的影响,通过对十种模型的比较,发现热解过程符合两阶段一级反应模型。并得出了各阶段的动力学参数、表观活化能和频率因子。     

煤氧化-热解进程的增失重阶段与动力学三因子分析

为分析煤氧化-热解进程的增失重阶段与动力学三因子,根据同一氧体积分数、5种不同升温速率下煤氧化-热解的TG-DTG曲线,探讨了煤氧化-热解进程经历的增失重阶段,基于Popescu法计算了不同阶段的动力学三因子。结果表明实验煤样的氧化-热解进程可分为失水失重、氧化增重、燃烧失重和燃尽恒重4个阶段。失水失重、氧化增重和燃烧失重阶段的反应机理分别为Mample单行法则、三维扩散模型和相边界反应的收缩球体模型;活化能分别为54.128 kJ·mol-1、152.252 kJ·mol-1和134.458 kJ·mol-1;指前因子的自然对数分别为16.832 s-1、32.597 s-1和18.365 s-1。     

PCB边角料基材的热解特性及动力学研究

针对当前广泛存在的FR-4型印刷电路板(PCB)边角料,开展了热解特性及动力学研究.首先,采用热重-差热法对PCB边角料基材进行了各种气氛下的热解试验.结果表明:各气氛下的TG曲线均分为3个阶段;DTG曲线的情况则不同,氮气气氛中存在两个失重峰(220～280℃、280～450℃),有氧气存在的情况下存在3个失重峰(220～280℃、280～400℃、400～600℃).其次,对不同反应气氛下的热解产物产率和热值进行了研究.热解气体、液体产率基本随着氧气体积分数的升高而提高,气、液、固体产物产率分别为8％～12％、41％～43％、45％～50％;热值为12～14 MJ/kg.并考察了反应起始温度、最大失重速度对应温度、反应终止温度、反应残余重量等热解特征参数随热解气氛的变化情况.最后,采用Kissinger方程对PCB边角料基材进行了热解动力学过程研究.结果表明,在热解反应DSC曲线峰值处(550～650 K)的动力学线性回归曲线具有很好的回归效果,该阶段的表观活化能为23.55 kJ/mol;指前因子为4.18× 105 s-1.     

刨花板及其木质原材料燃烧热解特性对比试验

为研究刨花板与木质原材料热解燃烧过程的区别,利用热重分析仪对空气和氮气条件下刨花板及其木质原材料进行研究。深入分析材料的燃烧热解失重过程的热重法和微商热重法曲线特性,确定了材料的燃烧特征参数。材料的燃烧热解动力学过程符合"双阶段一级反应"模型,利用考斯特-瑞地芬(Coats-Redfern)方法求得对应失重阶段的动力学参数。通过对比发现,刨花板较其木质原材料着火温度低,燃尽温度高,综合燃烧特性指数低;燃烧热解活化能和频率因子低,高温段失重率高;燃烧最终剩余质量和其木质原材料基本相同,热解剩余质量大于木质原材料。根据试验现象对刨花板燃烧热解过程中胶黏剂的作用机理进行了推断。     

普通壁纸与防火壁纸热解特性的对比研究

利用热重分析仪对市场上两种壁纸(普通壁纸和防火壁纸)在不同气氛、不同升温速率条件下的热解特性进行了研究。实验结果表明:空气气氛下壁纸的失重温度区间相对N2气氛向低温区移动,总失重率增加,残碳量减少,热解更完全。随升温速率提高,壁纸的热解曲线有向高温区移动的趋势,增大升温速率使主要热解阶段初始热解温度升高,最大失重速率增加,总失重率增加,热解更完全。防火壁纸与普通壁纸相比不易分解燃烧,更有利于防火。     

防火树种阻火特性的实验研究

以木荷作为防火树种 ,首先利用热重装置分别研究了其树干和枝叶的热解失重过程 ,从得到的热重曲线TG、DTG中发现 ,伴随着温度的升高 ,试样发生了三次失重高峰 ,并且 5 0 0℃时的残留物不及其初始重量的 10 %。然后在燃料床上以松针为燃料 ,分别模拟了 2 0°和 30°等小坡度情况下地表火的蔓延过程 ,通过分析热电偶记录下来的温度场分布 ,研究了火蔓延过程中防火树种在火焰和坡度作用下的阻火特性和阻火机理 ,结合其热解特性的研究 ,论证了水分析出是防火树种发挥阻火性能的关键因素 ,得到一些对生物防火技术研究有用的结论 ,为更好的利用和发展生物防火技术来预防和控制大规模森林火灾提供了理论基础。     

几种典型木质地板材料的热重比较实验研究

利用Mettler-Toledo同步热分析仪对市场上利用率比较高的四种木质地板在不同程序控制升温,和不同气氛流量条件下的热解特性进行了研究.同时,为了更好地对地板材料的热解特性进行深入了解,以实木地板为例,验证了升温速率对热分解过程的影响.通过研究发现,四种地板样品的热解过程分为三个阶段,但每个阶段的峰值大小和峰面积各不相同.同时,气氛流量中氧气的参与使热解机理发生改变,反应时间提前,温度升高,热解速度加快.通过对比受热期间的TG、DTG和DSC曲线,确定失重范围,以及各成分的残炭百分比,可以得出四种地板材料试验成分的火灾危险性,即,实木地板的火灾危险性低于其它三种地板材料.     

自然老化木材燃烧过程热行为特性研究

为提供古建筑火灾数值模拟及风险评估的基础理论,从自然老化角度入手,选取经过长久自然老化的建筑服役木材作为研究对象,通过扫描电镜(SEM)及热物性试验对比分析自然老化木材与参照木材的外观形态及热传导特征;采用差示扫描量热DSC法,研究自然老化木材在燃烧过程中热释放的阶段特性,分析不同升温速率对老化木材热行为影响特征;基于...     

Ergonomics in Practice: Physical Workload and Heat Stress in Thailand

This study consists of assessments of the thermal environment and physio-logical strain in tasks associated with airport, construction, and metal jobs. The number of male and female participants was 108. Environmental heat stress was evaluated with the WBGT index. Physiological strain was evaluated by the relative cardiovascular load (%CVL) based on the measurements of heart rate. Also the increase of body temperature, weight loss, and perceived discomfort were determinated. At work sites the assessments lasted for 2 to 4 hrs for each participant. The mean physiological strain exceeded the level of 30%CVL. Severe peaks (over 60%CVL) were observed in specific tasks being in agreement with perceived discomfort ratings. The increase of body temperature and weight loss in most cases remained within acceptable limits. For the most strenuous tasks, various ergonomic improvements were developed in consultation with workers and managers.     

Inhibiting effect of inhibitors on ignition sensitivity of wood dust

Wood products are easy to produce dust in the production and processing process, and have a serious explosion risk. In order to improve the safety of wood products production, the inhibiting effects of magnesium hydroxide (MTH), SiO₂, melamine polyphosphate (MPP) on the minimum ignition energy (MIE) and minimum ignition temperature (MIT) of wood dust were experimentally studied. The results showed that the inhibiting effects of inhibitors on the MIE of wood dust show the order of MPP > SiO₂>MTH. The order of the inhibiting effects on the MIT of wood dust was MPP > MTH > SiO_2. When 10% MPP was added to wood dust, the time when the flame appears (T_appear) and the time when the flame reaches the top of the glass tube (T_top) obviously rose to 80, 140 ms. Therefore, MPP had the best inhibiting effect on the ignition sensitivity of wood dust.According to thermogravimetry (TG), differential scanning calorimetry (DSC) tests, the introduction of MPP leaded to lower maximum mass loss rate (MMLR), higher temperature corresponding to mass loss of 90% (T_0.1), residual mass and heat absorption. In addition, thermogravimetric analysis/infrared spectrometry (TG-IR) results showed that MPP produced H₂O (g) and NH₃ (g) during the thermal decomposition process, which diluted the oxygen.     

压缩致密化阻燃木材的燃烧特性和成炭行为研究*

为增强木材的阻燃性能,采用压缩致密化工艺制备致密化阻燃木材,并对其燃烧特性与成炭行为进行研究。结果表明:压缩致密化工艺能促进木材在燃烧过程中形成更多的芳香结构以增强炭层的致密性和隔热性,进而有效阻隔热量和氧气进入木材内部,使致密化木材表现出良好的阻燃性和自熄性。压缩致密化木材的阻燃和隔热性能与去木质化程度密切相关,并随去木质化程度的增加呈先提高后下降的趋势。经过24 h去木质素处理后的致密化木材的极限氧指数增加到39.5%并达到UL94 V-0级,总释放热和2 400 s背面平衡温度相比于未去木质素的致密化木材分别下降了25.8%和21.4%,表现出最佳的阻燃和隔热性能。     

生物质热解的动力学补偿效应

基于对8种中国生物质材料非等温热分解的实验结果和动力学分析，发现分别源于生物质样品变动和动力学模型变动的表现热解动力学参数，即表观活化能E和指前因子A，满足动力学补偿效应关系。详细讨论了鉴别真，假动力学补偿效应的定量统计判据。     

The influence of oxygen concentration on the composition of gaseous products occurring during the self-heating of coal and wood sawdust

This article deals with an assessment of the influence of oxygen concentration on the composition and amount of combustion products generated in the course of heating coal particles and wood sawdust at 150 °C. This was done both with normal air and at 15% oxygen in the air in an isothermal furnace. The generated gases were analyzed by a Fourier Transform infrared spectrometer. Results show that under both conditions, the same substances are formed: water, carbon dioxide, carbon monoxide and aliphatic hydrocarbons. However, the quantities changed. At 21% oxygen, the concentrations of carbon monoxide and methane were higher than at 15% oxygen both in coal and wood. The oxygen concentration was also found to affect the rates of release of CO and CO₂. The rate of release of CO was higher at 21% oxygen, but that of CO₂ was higher at 15%, indicating two different mechanisms. In all cases, the concentrations of these gases were higher for coal than for wood. The results have implications for the specification of safe conditions of storage of coal and wood substances and the selection of safety measures.     

Occupational Safety and Health in Finland

In Finland, occupational safety is the responsibility of the employer, while the occupational safety and health laws are enforced by the Labour Inspection Service, an organization of the state. The Labour Inspection is divided in 11 administrative districts, and it employs 360 professionals. They are mandated to carry out site visits without prearranged appointments to inspect safe work situations, working hours, construction safety, or any aspect of accident risks. The inspectors are also mandated to verify the existence of sufficient occupational health services as prescribed by the Occupational Health Services Act for all employees. The occupational health services are typically provided by enterprise-owned medical departments, by mutually owned health care centers, by private practitioners, or by municipal health care centers. The latter are required by law to provide all services as prescribed by the legislation to anyone who comes to the facility. This situation is prevalent in the countryside, where there are very few private caregiving centers. Declaring occupational accidents and disease cases is mandatory, and the Inspection districts examine all accidents to establish causes and consequences, and to initiate prosecution in case of criminal negligence. Labour Inspection Districts are also notified of the new occupational disease cases as they are declared to insurance companies. Insurance for occupational disease, accidents, and death is an obligation of the employer, although they can choose the insurance company. The medical confidentiality between the workers and their occupational health care providers is very strict. Official statistics are maintained by the state Statistics Finland organization, and they may be used, for example, for research purposes by scientific institutes like the Finnish Institute of Occupational Health. Construction industry accounts for 25% of all fatal accidents (120 cases per 1 million working hours), followed by mechanical, wood, metal, machinery, and pulp and paper industry (10% each of fatal accidents) with rates ranging from 100–160 cases per 1 million working hours. There are some 5,000 occupational disease cases per year (rate 22/10,000 employed). The major disease categories include repetitive strain injuries (1,300 cases), respiratory allergies (600 cases), occupational skin diseases (1,000 cases), and 900 cases of noise-caused hearing loss. In 1998, 589 cases of asbestos-related diseases were reported.     

番龙眼木的热分解失重及动力学研究

木材热解是木材类火灾事件的先导过程,是引起后续的阴燃、着火、燃烧和火焰蔓延等各种现象的重要因素,因此研究木材的热解非常重要。采用热重分析法对番龙眼木的热重特性及反应动力学进行研究。在空气气氛下,研究样品粒径、试验气氛和升温速率对番龙眼木热解特性的影响。对番龙眼木的热解反应过程的分析,采用Flynn-Wall-Ozawa积分法、Kissinger最大速率法和atava-esták积分法对动力学进行处理。试验得到了一些热解动力学的参数,并推断出不同温升速率下番龙眼木的动力学最概然机理方程为反应级数函数,n=4     

我国亚热带若干树种的抗火性研究

森林火灾危害森林的一大主要自然灾害,实践证明采用防火林带可以有效地控制森林火灾的发生。本文对南方的木荷、火力楠、杨梅等１１种常绿阔叶树种和杉木、马尾松两种针叶树种的叶、小枝和皮的燃烧性能及其组成成分进行了测定,结果表明,⑴各树种均以叶的抗火性能最差,阔叶树种比针叶树种的抗火性能强;⑵含水量、苯－乙醇抽取物、木质素含量和灰尘分含量是影响叶的抗火能力的主要指标。