黑箱加速大气暴露试验热强化效应和相关性研究

利用温湿度测量仪监测黑箱内的温湿度变化,分析黑箱自然加速试验装置的热强化效应。以3种不同配方的丙烯酸涂料为试验对象,在江津地区高温高湿环境下开展了黑箱加速大气暴露试验和朝南45°角大气暴露试验,从模拟性和加速性2个方面研究了2种试验方法的相关性。分析结果表明,黑箱加速大气暴露试验方法与朝南45°角大气暴露试验方法之间的相关性相当高。     

野战弹药储存防热现状及温度指标论证

分析了野战弹药的储存防热现状,论证了野战弹药储存防热的温度指标。通过对火炸药储存性能参数的计算并结合我国的实际气候状况,确定了野战弹药的储存防热指标为环境温度应控制在40℃以下。最后,提出了今后野战弹药储存防热的研究方向。     

SBR工艺设计经验探讨

提出了SBR工艺中,反应池容积、反应时间以及需氧量的计算方法和设计经验。同时,在研读和对比国内外相关资料的基础上,探讨了SBR工艺发生污泥膨胀的可能性和原因,介绍了控制方法与措施。     

Experimental investigation of open core downdraft biomass gasifier for food processing industry

This paper deals with field related experience of a low temperature industrial heat application through biomass gasification. The gasification system is essentially consists of an open top down draft reactor lined with ceramic. The experiment reveals that 6.5 kg of liquefy petroleum gas (LPG) is fully replaced by 38 kg of sized wood on hourly basis. The maximum temperature attained was 367°C in 130 min at 100.7 Nm³ h⁻¹ gas flow rate. This system has resulted a saving of about 19.5 tons of LPG over 3,000 h of operation, implying a saving of about 33 tons of CO₂ emission, thus a promising candidate for clean development mechanism. Fuel economic analysis of gasifier system showed that the saving was about 13,850 US$ for 3,000 h of baking operation.     

Waste‐to‐energy recovery potential: A case study at Jaipur railway station

A study was conducted at the Jaipur railway station in Jaipur, India, to give the perspectives of the actual waste management practices there. Required information was collected from the stakeholders by means of semi‐structured questionnaires, individual and group interviews, and recorded, official data regarding waste generation, collection, transportation, and disposal. Further quantitative and compositional analyses were performed by means of surveys and measurements. Field visits were made for collection of waste samples for quantification and for the study of its management. The field data were compiled and analyzed by sorting the waste into different components. It was found that 1.8 tons of solid waste is collected per day, and a considerable percentage of it comprises paper, plastic, and glass. Excluding the inerts, which are irrelevant from the point of view of energy saving and recovery potential, the average moisture content was found to be 3.38%. From the perspective of life cycle analysis, the option of composting or recycling would give savings of 28.33 gigajoules (GJ) per day over landfilling, while combustion would give savings of 2.97 GJ per day in comparison to landfilling. Analysis based on a compositional model gives a heat value of 8,157.87 kilojoules per kilogram, which amounts to 14.68 GJ of energy per day.     

双向微槽道多孔复合结构沸腾传热研究

目的研究出新型的表面结构,以提高沸腾传热强化。方法在紫铜板上烧结铜粉多孔层,然后利用线切割对多孔层进行开槽。研究槽道参数包括槽数、槽宽、槽间距和槽向等对沸腾传热效果的影响。结果开槽增大了传热的表面积,有利于气体逸出,减少气体的逸出阻力,从而多孔表面开槽强化了沸腾传热效果,传热系数与光滑表面相比可提高2~3倍。与单向微槽道相比,双向交叉槽道有着更好的传热效果,能够形成一个稳定的液体补充和气体逸出网络。结论在多孔表面加工微型复合结构,能够大幅度提高沸腾传热强化。     

环境实验箱气流组织与围护结构耦合传热研究

目的研究环境实验箱在升、降温过程中气流组织与围护结构的耦合传热行为,为环境实验箱制冷/加热能力的确定提供精确的设计方法。方法首先利用UC240环境实验箱搭建实验平台,测量环境箱送风口速度分布,以及升、降温过程中室内及壁面的温度曲线,然后对环境箱进行建模,以实测的送风速度、温度作为边界条件,利用CFD方法进行仿真,最后对比分析实验值与CFD仿真的结果。结果利用CFD方法计算得到的环境箱升、降温曲线与实测值吻合较好,尤其是壁面温度曲线,误差不超过4℃。送风温度可以根据蒸发器理论或加热功率和回风温度而动态地确定。结论利用CFD方法分析环境实验箱气流组织与围护结构的耦合传热是可行的,FLUENT的UDF功能可根据需要扩展,以协助设计蒸发器和控制策略。     

Layered sphere-shaped TiO2 capped with gold nanoparticles on structural defects and their catalysis of formaldehyde oxidation

We describe here a one-step method for the synthesis of Au/TiO₂ nanosphere materials, which were formed by layered deposition of multiple anatase TiO₂ nanosheets. The Au nanoparticles were stabilized by structural defects in each TiO₂ nanosheet, including crystal steps and edges, thereby fixing the Au–TiO₂ perimeter interface. Reactant transfer occurred along the gaps between these TiO₂ nanosheet layers and in contact with catalytically active sites at the Au–TiO₂ interface. The doped Au induced the formation of oxygen vacancies in the Au–TiO₂ interface. Such vacancies are essential for generating active oxygen species (*O⁻) on the TiO₂ surface and Ti^3 + ions in bulk TiO₂. These ions can then form Ti^3 +–O⁻–Ti^4 + species, which are known to enhance the catalytic activity of formaldehyde (HCHO) oxidation. These studies on structural and oxygen vacancy defects in Au/TiO₂ samples provide a theoretical foundation for the catalytic mechanism of HCHO oxidation on oxide-supported Au materials.     

降低湿法脱硫系统GGH差压的方法与实践

针对台州发电厂脱硫系统在投运初期出现GGH差压高现象,首先简要介绍了湿法脱硫系统的GGH工作原理,结合脱硫系统的运行经验和相关试验进行原因分析和探索归纳得出降低GGH差压的几种方法和对策,并论证了对策实施后的效果,使脱硫系统运行达到最佳的经济性和稳定性。这些控制方法和参数对脱硫系统的正常运行,保证SO2浓度的达标排放将起到积极的作用,可为火电厂湿法脱硫系统高效运行提供理论基础和实践依据。     

城市热环境及其微热环境的改善

以苏南５市县３０年来热环境诸因素的变化资料为依据,分析城市区域特征所引起的热环境诸因素的变化趋势,介绍包括规划城市区域的道路网,控制建筑物布局的密度,以及城市绿化和水面等在内的城市规划和建筑设计措施对于改善城市区域微热环境的效用。