红阳二矿12号煤层标志性气体实验研究

针对红阳二矿12号煤层遗煤氧化的规律与特点，有效地进行防灭火工作，掌握采空区中遗煤氧化的速度，对红阳二矿12号煤层进行了煤样升温氧化实验，在温度不断升高的过程中检测出CO与多种烯烃气体，并且在不同温度下煤体析出气体的速度不同，最终选择CO、C₂H₄、C₂H₂作为标志性气体，产生的临界温度分别为59、176、403 ℃。在采空区检测出CO气体，说明采空区遗煤进入快速氧化阶段；检测出C₂H₄气体时，遗煤进入剧烈氧化状态；检测出C₂H₂气体时，说明采空区中已经产生明火，井下人员需要迅速撤离。通过煤体标志性气体的确定，建立12号煤层自燃预警系统，保证井下工作人员的生命安全与能源的充分利用。     

惰气技术在防治尾巷局部火灾中的应用

在惰气防灭火技术中,N2和CO2在煤矿防灭火领域被广泛应用。基于内蒙古某矿现场先注N2、后注液态CO2的尾巷局部火灾治理措施,对采取联合惰气防灭火技术后发火区域内气体浓度的变化情况进行分析,对比N2和液态CO2对尾巷局部火灾的防灭火性能。结果表明:向发火区域内注入大量N2可有效稀释O2浓度,但在此次煤火防治中没有排除复燃隐患;由液态转化为气态的低温CO2通过稀释O2浓度和更有效地减小外部漏风,将发火区域氧浓度快速降低至3%;CO2比N2具有更好的扩散性和稀释作用,对O2、C2H4和C2H6的稀释效果较为明显,从侧面体现出CO2能更好地降低煤的氧化反应活性。经实践证明液态CO2对局部煤火的防治效果优于N2。     

用于嵌入系统的超声电机驱动设计

为了在嵌入式控制系统中充分利用超声电机特有功能,对超声电机的驱动原理进行了研究,在分析了超声电机的驱动控制原理的基础上,提出了一种基于单片机控制超声电机的软硬件控制实现方法。利用单片机输出数字量作为控制信号,通过串行输入并行输出芯片扩展后,输出到超声电机驱动器,实现超声电机启动/停止/正反转的功能;通过扩展单片机数模转换,将单片机控制超声电机速度的数字信号转换为电压信号,实现超声电机的速度控制功能;利用运行脉冲宽度控制实现超声电机的位置控制功能,并将光电编码器实现超声电机的反馈,最后通过试验验证了单片机系统实现超声电机驱动设计。     

MDCK细胞库的建立、检定及其生物学特性

目的建立MDCK细胞的主细胞库及工作细胞库,并进行检定,同时评价其生物学特性。方法从欧洲细胞保藏中心(European Collection of Authenticated Cell Culture,ECACC)引进1株MDCK细胞,经传代扩大培养后,分别建立主库及工作细胞库。按照《中国药典》三部(2015版)规定的方法对细胞库进行细胞活力、细胞形态、无菌、支原体及细胞内外源病毒因子检查,并对细胞生长状况、传代稳定性、流感病毒敏感性进行检测。结果建立的MDCK细胞主种子库及工作种子库细胞形态呈不规则的上皮样细胞状,生长状态良好,细胞活率分别为96.0%和95.5%,无菌、支原体及细胞内外源病毒因子检查结果均合格。MDCK细胞生长曲线均呈S型,培养48~96 h进入对数生长期,随后进入平台期。连续传10代48 h细胞活率在93.0%~95.5%之间,较稳定。MDCK细胞对流感病毒较敏感,对B型流感病毒的敏感性高于A型流感病毒。结论建立的主细胞库及工作细胞库各项检测结果均符合《中国药典》规定,具有良好的传代稳定性及流感病毒敏感性。     

煤与天然气气流床共气化制合成气试验研究

为提高煤、天然气资源综合利用效率,优化合成气成分,进行了煤与天然气气流床共气化技术研究。介绍了煤与天然气气流床共气化的试验装置及工艺流程,考察了气化温度、压力、水煤浆浓度、CH4与煤比对共气化反应的影响。结果表明,气化温度和CH4与煤比是共气化反应的主要影响因素,较高的气化温度对共气化反应有利,气化温度为1 350℃时,共气化指标较好,有效气体积分数大于90%;随着CH4与煤比的增大,合成气n(H2)/n(CO)增高。CH4与煤比为0.9 m3/kg时,合成气中n(H2)/n(CO)约1.2。根据后续合成工艺要求,通过调节气化温度和CH4与煤比,可获得n(H2)/n(CO)在0.8~2.0的合成气。     

Supersonic driven detonation dynamics for rotating detonation engines

In this paper we present the first exploration of detonation wave propagation dynamics in premixed supersonic flows using a novel rotating detonation engine (RDE) configuration. An RDE with a coupled linear extension, referred to as ρDE, is used to divide detonations traveling radially in the RDE into linearly propagating waves. A tangential propagating wave is directed down a modular tangential linearized extension to the engine for ease of optical diagnostics and hardware configuration investigations. A premixed Mach 2 supersonic linear extension is coupled to the ρDE to investigate the effects of varying crossflow configurations for detonation propagation, particularly the interaction between detonations and supersonic reactive mixtures. Detonation waves are generated at the steady operating frequency of the RDE and visualized using high speed schlieren and broadband OH* chemiluminescence imaging. The stagnation pressure was varied from over- to ideally-expanded supersonic regimes. Experimental analysis of detonation interaction with the supersonic regimes show that the detonation propagates freely in the ideally-expanded regime. Deflagration-to-detonation transition (DDT) occurs in the over-expanded regime. Based on the data collected, the DDT process favors supersonic flow with higher source pressures.     

Optimal correlation of non-renewable and renewable generating systems for producing hydrogen and methane by power to gas process

This paper presents an efficient framework for converting renewable energy to gas and reducing Carbon dioxide (CO₂) footprint at the same time. The problem is presented in two levels. The first level is a minimization programming that minimizes operational cost and CO₂ of generators. The CO₂ is forwarded to the second level. In the second level, Carbon Capture and Storage (CCS) is designed to capture CO₂. The CO₂ is combined with Hydrogen and makes Methane (CH₄). The required Hydrogen is obtained from water electrolyzer that is supplied by the solar system. The capacity and size of water electrolyzer, solar system, and CCS is designed by the planning in the second level while this programming maximizes profit from selling Methane. As a result, the first level presents minimization programming (i.e., minimizing cost and CO₂) and the second level presents maximization programming (i.e., maximizing profit). The programming is developed taking into account solar uncertainty. The stochastic programming is implemented to cope with uncertainties. The problem is formulated as binary mixed integer linear programming and solved by GAMS software. The proposed power to gas (P2G) procedure efficiently designs proper solar system and deals with intermittency of solar energy, reduces CO₂ footprint, maximizes profit, and minimizes operational cost of generators at the same time.     

两个大型住宅项目设计配套消防备供电源供电方案分析及优劣对比

通过对两个大型住宅项目配置消防备供电源供电方案进行对比,分析由此产生的建设安装造价成本高低,以及后期物业管理程序的难易程度,总结出适宜于大型住宅项目的消防备供电源供电方案,既能降低建设投资成本,又可以简化后期物业管理程序,更好地保障消防系统供电安全,值得推广。     

Experimental studies on characteristics of fire whirl in a vertical shaft

An internal fire whirl can be generated readily in a tall shaft model with appropriate gap width at one corner. Experimental study was carried out to investigate the relationship between the characteristics of an IFW and the corner gap width in a 9‐m‐tall vertical shaft model. The vertical shaft had a 2.1 m by 2.1 m square section with gasoline pool fire of different diameters burning inside. The gap width was varied to investigate its impact on fire whirl characteristics, such as flame development, swirling intensity, flame height, flame temperature, and heat release rate of the gasoline pool fire. Vigorous flame swirling motions were generated when the ratio of the gap width to the shaft section perimeter was within the range 0.16 to 0.21. From the flame streamline angle, it was observed that the swirling component was much stronger than buoyancy component near the bottom of burning region. The swirling component decreased and became roughly the same as buoyancy near the middle. Finally, it diminished to being much weaker than buoyancy near the top of the fire. These observations suggest that the Froude number Fr decreased from a large number to 1, and then continued to decrease to 0.     

Economic competitiveness of compact steam methane reforming technology for on-site hydrogen supply: A Foshan case study

On-site hydrogen production through steam-methane reforming (SMR) from city gas or natural gas is believed to be a cost-effective way for hydrogen-based infrastructure due to high cost of hydrogen transportation. In recent years, there have been a lot of on-site hydrogen fueling stations under design or construction in China. This study introduces current developments and technology prospects of skid-mounted SMR hydrogen generator. Also, technical solutions and economic analysis are discussed based on China's first on-site hydrogen fueling station project in Foshan. The cost of hydrogen product from skid-mounted SMR hydrogen generator is about 23 CNY/kg with 3.24 CNY/Nm³ natural gas. If hydrogen price is 60 CNY/kg, IRR of on-site hydrogen fueling station project reaches to 10.8%. While natural gas price fall to 2.3 CNY/Nm³, the hydrogen cost can be reduced to 18 CNY/kg, and IRR can be raised to 13.1%. The conclusion is that skid-mounted SMR technology has matured and is developing towards more compact and intelligent design, and will be a promising way for hydrogen fueling infrastructures in near future.