Study on acceleration and suppression properties of coal gangue with different void fractions on gas explosion propagation

Gas explosion is one of the main disasters in coal mining. Plenty of coal gangue are generally distributed in the disaster areas in gob. Experiments were carried out to explore the propagation law of the gas explosion distributed by coal gangue. The variation characteristics of the overpressure, pressure rise rate, and flame shape with void fractions were analyzed. The results showed that the effect of the coal gangue on the explosion intensity changed from suppression to acceleration with the increase of void fraction, the flame front upstream blockage area changed from laminar state to turbulent divergent state, and a reverse flame was formed. When the void fraction of the coal gangue was 0.50–0.65, the maximum overpressure downstream of the blocked area were positively correlated with the void fraction and the critical suppression range was between 0.50 and 0.55. When the void fraction was lower than 0.50, the flame was quenched in the coal gangue, neither the flame nor the pressure could pass through the blocked area. It is helpful to guide the improvement of coal recovery process to avoid the expansion of the explosion impact in coalmine gob.     

底泥疏浚对太湖内源及底栖生物恢复的影响

底泥疏浚对湖泊内源削减具有重要的作用,是富营养化湖泊内源治理的重要技术之一.以太湖疏浚区为对象,估算了近十余年疏浚对内源负荷的削减量,并评估了太湖北部竺山湖和梅梁湖的底泥疏浚效果.结果表明,太湖累计疏浚的4 200万m³底泥,共计清除了底泥中氮约6.26万t,总磷约1.83万t,有机质约117万t,相当于清除了蓄积于底泥中二十余年的外源污染物输入量.对于外源控制较好的梅梁湖,底泥疏浚后5 a内水质改善明显,随后出现反弹,但仍有效削减了表层底泥总氮和总磷含量.相反,对于外源输入仍较大的竺山湖,疏浚十余年后,底泥内源又回复到浚前水平.对竺山湖疏浚区开展了长达6 a的底栖生物群落跟踪评估,发现疏浚初期对底栖生物群落具有一定的影响,但浚后2 a,底栖生物密度与生物量等指标已接近浚前水平. 6 a后,疏浚区与未疏浚区的底栖生物群落多样性指数已无差别.结果也表明,底泥疏浚对湖体内源具有较好的控制效果,且疏浚效果维持程度与外源输入强度密切相关.此外,长期来看,疏浚区底栖生物群落依靠自恢复能力可达到浚前水平,疏浚不会对底栖生物群落结构造成影响.     

基于AMC加载的高增益60GHz天线

针对如何在不改变天线结构的前提下增大天线增益的问题,采用了AMC（人工磁导体）加载的方法。设计一款圆环缝隙AMC加载的天线,通过对AMC相位的改变来优化天线。设计的加载天线包括AMC和60GHz微带贴片天线,该加载天线拥有10GHz（55GHz-65GHz）的带宽和5.6dBi的增益;实验结果表明,相比没有加载之前的天线,加载天线拥有相同的带宽,其增益提高了2.9dBi。     

济南市道路扬尘排放因子估算及其影响因素研究

以济南城市道路为研究对象,采用美国环保署AP-42模型和方法,通过道路分类、优化布点、样品采集、实地观测和计算分析,获得道路粉尘负荷及四种类型道路扬尘的排放因子,探讨了排放因子的主要影响因素。结果表明,路面粉尘负荷随车流量增大而逐渐降低,城市城区路面粉尘负荷多小于城市外围路面,且外围道路路面粉尘负荷随时间和空间变化大;支路和次干道排放因子相对较小,快速路排放因子较高,主干道排放因子最高,其TSP、PM10、PM2.5排放因子分别高达25.239 3 g/VKT、4.731 1 g/VKT、0.597 2 g/VKT;排放因子随平均车重增加呈现逐渐增大趋势;同种类型道路排放因子均随道路粉尘负荷的增加而增加;次干道和快速路排放因子随车流量增大而减小。所获结论可为城市道路扬尘排放估算提供参考。     

重庆三峡库区非点源污染评价与影响因子分析

选取重庆三峡库区4个行政建制镇进行非点源污染监测与调查,以COD、TN、TP、Cu、Zn等指标为主要研究内容对库区农村环境进行污染特性分析并且利用等标污染负荷法对其生活污水、生活垃圾、畜禽养殖、水产养殖、化肥流失、农药流失、水土流失等污染源进行非点源污染评价。结果表明:COD、TN、TP、Cu、Zn的平均排放浓度分别为22.15 mg/L、6.37 mg/L、1.49 mg/L、47.73 g/kg、85.24 g/kg,库区主要污染物依次为TN、TP、COD、Cu、Zn等,主要污染源依次是畜禽养殖、化肥流失、生活污水、生活垃圾、农药流失、水土流失、水产养殖等。采用SPSS软件对影响库区环境污染的季节、收入水平、地域、畜禽养殖规模、环境基础设施完善程度等因子进行了分析,结果显示:COD主要影响因子是地域和畜禽养殖规模,TN主要影响因子是季节、地域和畜禽养殖规模,TP主要影响因子是环境基础设施完善程度、畜禽养殖规模和地域,Cu、Zn主要影响因子均是畜禽养殖规模。该研究可为重庆三峡库区生态修复、城乡统筹下的城乡规划及产业布局提供理论基础。     

Performance of the hybrid growth sequencing batch reactor (HG-SBR) for biodegradation of phenol under various toxicity conditions

Hybrid growth microorganisms in sequencing batch reactors have proven effective for treating the toxic compound phenol, but the toxicity effect under different toxicity conditions has rarely been discussed. Therefore, the performance of the HG-SBR under toxic, acute and chronic organic loading can provide the overall operating conditions of the system. Toxic organic loading(TOL) was monitored during the first 7 hr while introducing50 mg/L phenol to the system. The system was adversely affected with the sudden introduction of phenol to the virgin activated sludge, which caused a low degradation rate and high dissolved oxygen consumption during TOL. Acute organic loading(AOL) had significant effects at high phenol concentrations(600, 800 1000 mg/L). The specific oxygen uptake rate(SOUR) gradually decreased to 4.9 mg O_2/(g MLVSS·hr) at 1000 mg/L of phenol compared to 12.74 mg O_2/(g MLVSS·hr) for 200 mg/L of phenol. The HG-SBR was further monitored during chronic organic loading(COL) over 67 days. The effects of organic loading were more apparent at 800 mg/L and 1000 mg/L phenol concentrations, as the removal range was between 22%–30% and 18%–46% respectively, which indicated the severe effects of COL.     

Hydroxyurea explosion: a thermoanalytical and calorimetric study

An accident occurred during a production process of hydroxyurea. Several thermoanalytical techniques were used in order to understand the reason for the accident, even utilising a simulation program. Thermogravimetric analysis and Fourier transform infra-red spectroscopy were performed to identify the decomposition products according to European Directive 96/82/EC, the so-called Seveso II.     

Reconsideration on the effect of nitrogen on mixed culture polyhydroxyalkanoate production toward high organic loading enrichment history

Effect of nitrogen on mixed culture PHA production was reconsidered. Enrichment history of PHA accumulating culture was discussed. Higher PHA content and biomass growth were achieved in presence of nitrogen. Enrichment strategy toward higher PHA accumulation was investigated. Microbial community succession in PHA accumulation phase was investigated. In most of the operating strategies for mixed microbial cultures polyhydroxyalkanoate (PHA) production, moderate organic loads and low nitrogen concentrations are used, however, the real waste streams contain variable concentrations of carbon and nitrogen. To evaluate the effect of enrichment history on PHA producer and production the various carbon and nitrogen levels were utilized during the accumulation phase. Different operating strategies were applied in three sequencing batch reactors (SBRs) subjected to aerobic dynamic feeding. The maximum PHA production of the enriched cultures under nutrient excess, limitation and starvation (Cmol/Nmol ratio of 8, 40 and ∞, respectively) was evaluated in batch assays. A higher PHA content and biomass growth were achieved in the nutrients presence in comparison to the nutrient starvation condition. The cultures from the SBR treated under short sludge retention time, high organic loading rate, short cycle length (SBR#3) and nutrient excess reached the maximum PHA content (54.9%) and biomass increase (38.9%). Under nutrient limitation, the negative biomass growth was observed under nutrient starvation because of the sampling loss. The succession of microbial communities in SBRs and batch assays was analyzed using terminal restriction fragment length polymorphism. The SBR#3 had the best overall PHA production performance considering its high PHA content and productivity in all nutrient content, it indicates that nitrogen has a substantial impact on PHA yield especially when high organic loading rate enrichment history is involved.     

Influence of vacuum degree on the effect of gas explosion suppression by vacuum chamber

In order to study the influence of vacuum degree on gas explosion suppression by vacuum chamber, this study used the 0.2 mm thick polytetrafluoroethylene film as the diaphragm of vacuum chamber to carry out a series of experiments of gas explosion suppression by vacuum chamber with the vacuum degree from −0.01 MPa to −0.08 MPa. The experimental results show that: under the condition of any vacuum degree, vacuum chamber can effectively suppress the explosion flame and overpressure; as vacuum degree changes, the effect of gas explosion suppression using vacuum chamber is slightly different. Vacuum chamber has obvious influence on propagation characteristics of the explosion flame. After explosion flame passes by vacuum chamber, the flame signal weakens, the flame thickness becomes thicker, and the flame speed slows down. With the increase of the vacuum degree of vacuum chamber, the flame speed can be prevented from rising early by vacuum chamber. The higher the vacuum degree is, the more obviously the vacuum chamber attenuates the explosion overpressure, the smaller the average overpressure is, and the better effect of the gas explosion suppression is. Vacuum chamber can effectively weaken the explosion impulse under each vacuum degree. From the beginning of −0.01 MPa, the vacuum chamber can gradually weaken explosion impulse as the vacuum degree increases, and the effect of gas explosion suppression gradually becomes better. When the vacuum degree is greater than −0.04 MPa, the increase of vacuum degree can make the explosion overpressure decrease but have little influence on the explosion impulse. Therefore, the vacuum chamber has the preferable suppression effect with equal to or greater than −0.04 MPa vacuum degree.     

Collecting representative dust samples: A comparison of various sampling methods in underground coal mines

Former methods used in the U.S. to assess hazardous and explosible coal dust date back to the 1950s. As mining technologies advanced, so too have the hazards. Given the results of the recent coal dust particle size survey and full-scale experimental mine explosion tests, the National Institute for Occupational Safety and Health (NIOSH) recommended a new minimum standard, in the absence of background methane, of 80% total incombustible content (TIC) be required in the intake airways of bituminous coal mines, replacing the previous 65% TIC requirement. Most important to monitoring and maintaining the 80% TIC is the ability to effectively collect and analyze representative dust samples that would likely disperse and participate in dust explosion propagation. Research has shown that dust suspended on elevated surfaces is usually finer, more reactive, and more readily dispersible while floor deposits of dust are generally coarser and more difficult to disperse given the same blast of air. The roof, rib, and floor portions of the dust samples were collected and analyzed for incombustible content separately and the results were compared to a band sample of the roof, rib, and floor components. Results indicate that the roof and rib dust samples should be kept separate from floor dust samples and considered individually for analyses. The various experimental collection methods are detailed along with preferred sampling approaches that improve the detectability of potentially hazardous accumulations of explosible dust.