扬沸火灾发生时间预测模型的建立与应用分析

原油储罐扬沸火灾由池火灾发展而成,是一种危害性极大的事故.准确预测扬沸事故发生的时间,是扬沸机理研究中的难题之一.现有扬沸时间计算的通用模型由于没有考虑油品的粘性作用,计算结果误差较大.把扬沸火灾简化为无内热源的非稳态传热问题,在此基础上进行传热分析,进而推导出扬沸事故时间计算模型.设定了6组不同尺寸和不同充装水平的原油储罐池火灾,利用推导模型计算出了相应的扬沸事故发生时间.将计算结果与通用模型计算结果以及实验结果进行对比:该模型的准确性由于通用模型,计算结果与实验值误差较小,较为合理.研究结果对于扬沸火灾事故下消防人员的灭火救援的安全保障具有重要意义.     

Analytical Study of the Heat Loss Attenuation by Clothing on Thermal Manikins Under Radiative Heat Loads

For wearers of protective clothing in radiation environments there are no quantitative guidelines available for the effect of a radiative heat load on heat exchange. Under the European Union funded project ThermProtect an analytical effort was defined to address the issue of radiative heat load while wearing protective clothing. As within the ThermProtect project much information has become available from thermal manikin experiments in thermal radiation environments, these sets of experimental data are used to verify the analytical approach. The analytical approach provided a good prediction of the heat loss in the manikin experiments, 95% of the variance was explained by the model. The model has not yet been validated at high radiative heat loads and neglects some physical properties of the radiation emissivity. Still, the analytical approach provides a pragmatic approach and may be useful for practical implementation in protective clothing standards for moderate thermal radiation environments.     

Flicker Test as a Load Measurement During the Combined Effect of Heat and Noise

This study was a joint physiological and psychological experiment undertaken to determine changes in physiological and psychological human functions under the combined influence of heat, noise, and physical activity. Seven experimental situations were simulated in a climatic chamber with different configurations of three independent variables: heat (40 °C), noise (98 dB), and physical effort (30% of maximum volume of oxygen uptake—V0₂ max). Five psychological variables (critical flicker fusion—CFF, hand tremor, reaction time, subjective climate evaluation, and subjective evaluation of the given condition load) and two physiological variables (heart rate and rectal temperature) were monitored. Results indicate that CFF changed (increased) significantly when more than one experimental variable was applied. These changes coincided with significant changes in both subjective climate evaluation and subjective evaluation of a given condition load. There were no significant changes in psychomotor functions (hand tremor and reaction time). None of the observed physiological parameters were above the critical value. The results suggest that CFF can be treated as a psychophysical load indicator.     

余热利用低低韫电除坐技术在燃煤电厂的应用

论述并总结了余热利用低低温电除尘技术在新昌某电厂700MW机组燃煤锅炉上的应用情况,指出采用该技术是燃煤电厂进一步减排节能的有益尝试。     

The effect of barriers on reducing thermal heat fluxes from a hydrocarbon pool fire

The radiant heat flux from a pool fire is frequently calculated using the solid flame model, where the flame envelope is approximated as a stationary cylinder whose surface emits thermal radiation at a constant rate. Radiant heat flux calculations using the solid flame model assume the target to be at a given elevation, typically at ground level, and to have an unobstructed view of the fire. The presence of obstacles (e.g., walls, buildings, etc.) or terrain features that would create shaded areas and provide shielding of a target from the fire is typically neglected in these calculations: this is a conservative approach, but it is not accurate. This paper presents a methodology to utilize the solid flame model to calculate the heat flux to a target while taking into account the presence of an obstruction between the target and the fire. The shielded solid flame method can quantitatively account for the presence of obstacles as a passive mitigation measure and allows project developers or designers to optimize their facility layout to meet safety requirements. The methodology presented in this paper uses the same correlations found in currently used solid flame models (e.g., LNGFIRE3), therefore, it remains consistent with current regulatory requirements for LNG facilities in the U.S.     

Effect of bioethanol and thermal barrier coating on the performance of dual fuel engine operating on Honge oil methyl ester (HOME) and producer gas induction

Alternative fuels have numerous advantages compared to fossil fuels as they are renewable, biodegradable; provide energy security and foreign exchange saving besides addressing environmental concerns and socio-economic issues as well. Renewable fuels can be used predominantly as fuel for both transportation and power generation applications. Improved engine performance with reduced engine exhaust emissions is a major research objective in engine development. Today, the use of biomass derived producer gas is more relevant for addressing rural power generation and is a promising technique for controlling both nitric oxide (NO_x) and soot emission levels. In view of this, exhaustive experiments on the use of Honge oil methyl ester (HOME)–Producer gas in a dual fuel engine have been carried out with an intension of improving its fuel efficiency. This paper mainly presents results on a single cylinder four stroke direct injection diesel engine operated in dual fuel mode using HOME–Producer gas combination with and without bio-ethanol addition and thermal barrier coating (TBC). Further, the results were compared with diesel–producer gas mode of operation. Experimental investigation on dual fuel operation using HOME+5% bioethanol (BE5)–Producer gas operation with TBC showed 12.35% increased brake thermal efficiency with decreased hydrocarbon and carbon monoxide emissions and increased NO_x emission levels compared to HOME–Producer gas mode of operation.     

Research on Tourism Competitiveness of Chinese Island Counties: Based on Factor and Cluster Analysis

Abstract

From the perspective of tourism competitiveness, the paper takes 12 island counties of China as the research object, and applies the method of factor analysis to study their competitiveness. The result shows that Putuo and Dinghai are more competitive while Pingtan and Nan’ao are less competitive. Finally, the 12 island counties are divided into four styles: first-class competitive county (Putuo), seond-class competitive counties (Dinghai,Yuhuan), third-class competitive counties (Chongming, Daishan, Changdao, Changhai and Shengsi), fourth-class competitive counties (Dongshan, Dongtou, Pingtan and Nan’ao) by cluster analysis. The classification of island counties is to clear their relative position, then to promote their development.     

城市热力景观格局季节变化特征分析及其应用

热岛效应是城市发展过程中所产生的特有的环境问题,已经成为一种城市环境公害,对其形成和演变规律的研究有助于人们提出有效的应对措施。热力景观是分析城市热岛空间格局的一种新方法。以厦门为研究对象,利用2002年1、2、3、8、12月的Landsat ETM＋影像数据进行地表温度反演,在此基础上使用景观格局指数分析厦门城市热力景观格局的季节变化特征。结果表明：厦门城市热岛在夏季（8月）最强,春秋次之,冬季（1月）最弱。该变化特征是城市地表吸收太阳辐射和人为废热排放随季节变化的共同结果。应用该方法对2002年厦门热污染源进行调查,发现当年共有热污染源26个,其中工业热污染源18个。该研究可为环保、能源等部门乃至于整个城市的规划管理提供有力的决策依据。     

石墨烯量子点辅助合成Cu-MOFs及CO2吸附行为

选用一种成本低、可大规模合成的Cu基MOFs（Cu-MOFs）材料作为CO₂吸附剂,在原位合成过程中添加石墨烯量子点以调控其晶体结构.结果表明：适量石墨烯量子点的添加有利于提高Cu-MOFs的比表面积和孔体积,相比未改性MOFs材料,改性后的CO₂吸附性能有所提高,25℃,100kPa时提高了4.5%.随着温度升高,吸附容量提升越明显.改性后的MOFs对于N₂的吸附量则比未改性时更低,因此计算得到的CO₂/N₂吸附选择性也更高,增加了近一倍.综合等量吸附热的考察结果发现,尤其添加适量含N石墨烯量子点的Cu-MOFs吸附剂不仅具备了较高的吸附容量、吸附选择性,还展现了较理想的吸附热,因此兼具了较优CO₂吸附性能和较低脱附能耗的特点,为MOFs吸附剂的改性提供了一点参考价值.     

城市化影响杭州城市热环境的数值模拟研究

通过对城市区域的气候要素进行精细化数值模拟,可以研究城市化对城市热环境的重要影响.利用WRF/UCM模式,以杭州为例,通过采用不同的下垫面土地利用分类数据,分析量化历史城市化进程对月尺度城市热环境的影响,并进一步设计了敏感性模拟试验,研究杭州地区在理想化条件下城区面积增加约2倍时,城市热环境的变化情况.模拟结果表明,杭州地区在2010~2017年的城市化进程中,城区面积约增加了1倍,导致8月热岛强度等级高于”无”（Ht>0.5℃）的区域扩大了91%,且主城区的2m平均气温增加了0.4℃,但中心城区热岛强度等级没有明显提升.杭州城区面积在2017年基础上约增加2倍时,8月热岛强度等级高于”无”的区域扩大157%,1846.4km²的中心城区热岛强度等级由”弱”或”无”（Ht≤1.5℃）提升为”中等”（1.5相似文献