一株高效脱硫菌的分离鉴定和脱硫特性研究

从污水净化厂二沉池回流污泥中分离到一株硫杆菌菌株dj-5,该菌株是一种兼性厌氧菌,通过生理生化特性鉴定,并结合16S rDNA序列分析及鉴定,该菌株可以确定为脱氮硫杆菌（Thiobacillus denitrificans）。该菌株的生长曲线表明菌体生长迅速,延滞期约为8 h,然后细菌进入对数生长期,这一阶段持续时间大约20～24 h,稳定期较短,细菌很快进入衰亡期。通过脱硫工艺实验考察了pH值、温度和搅拌速度对脱硫率和菌体生长的影响,结果表明,在进气量180 L/h、pH=6～8、温度为25～35℃和搅拌速度为270 r/min时,该菌株能正常生长,对进气浓度高达2 500 mg/m³的硫化氢脱除率在91%以上。     

氧化电解法处理工业含硫恶臭气体的研究

利用铁盐溶液,通过气体超微细分散式吸收反应器和电化学再生系统结合的反应器,对中高浓度含硫恶臭气体进行吸收及电化学再生过程进行了初步研究.结果表明:当反应液位高度为55 cm、温度为20 ℃和H+浓度小于1.5 mol/L时,进气浓度小于1 000 mg/m3时,含硫恶臭气体处理效率可到达96%以上.当液位高度为55 c...     

两段生物滤池处理城市污水厂恶臭气体中试研究

采用两段式生物滤池工艺处理山东某城市污水处理厂格栅间和污泥浓缩池散发的恶臭气体,研究了反应器的运行效果、污染物去除特性和微生物特性。该污水处理厂格栅间和污泥浓缩池逸散气体的主要成分为硫化氢、氨以及由甲硫醇、二甲胺、甲醇、丙酮、乙酸、丁酸和苯乙烯等物质组成的挥发性有机化合物。应用两段式生物滤池能够有效地去除这些污染物质,...     

Water/acid gas interfacial tensions and their impact on acid gas geological storage

Acid gas geological disposal is a promising process to reduce CO₂ atmospheric emissions and an environment-friendly and economic alternative to the transformation of H₂S into sulphur by the Claus process. Acid gas confinement in geological formations is to a large extent controlled by the capillary properties of the water/acid–gas/caprock system, because a significant fraction of the injected gas rises buoyantly and accumulates beneath the caprock. These properties include the water/acid gas interfacial tension (IFT), to which the so-called capillary entry pressure of the gas in the water-saturated caprock is proportional. In this paper we present the first ever systematic water/acid gas IFT measurements carried out by the pendant drop technique under geological storage conditions. We performed IFT measurements for water/H₂S systems over a large range of pressure (up to P = 15 MPa) and temperature (up to T = 120 °C). Water/H₂S IFT decreases with increasing P and levels off at around 9–10 mN/m at high T (≥70 °C) and P (>12 MPa). The latter values are around 30–40% of water/CO₂ IFTs, and around 20% of water/CH₄ IFTs at similar T and P conditions. The IFT between water and a CO₂ + H₂S mixture at T = 77 °C and P > 7.5 MPa is observed to be approximately equal to the molar average IFT of the water/CO₂ and water/H₂S binary mixtures. Thus, when the H₂S content in the stored acid gas increases the capillary entry pressure decreases, together with the maximum height of acid gas column and potential storage capacity of a given geological formation. Hence, considerable attention should be exercised when refilling with a H₂S-rich acid gas a depleted gas reservoir, or a depleted oil reservoir with a gas cap: in the case of hydrocarbon reservoirs that were initially (i.e., at the time of their discovery) close to capillary leakage, acid gas leakage through the caprock will inevitably occur if the refilling pressure approaches the initial reservoir pressure.     

Native fungi as metal remediators: Silver myco-accumulation from metal contaminated waste-rock dumps (Libiola Mine,Italy)

ABSTRACT

Metal contamination constitutes a major source of pollution globally. Many recent studies emphasized the need to develop cheap and green technologies for the remediation or reclamation of environmental matrices contaminated by heavy metals. In this context, fungi are versatile organisms that can be exploited for bioremediation activities. In our work, we tested silver (Ag) bioaccumulation capabilities of three microfungal strains (Aspergillus alliaceus Thom & Church, Trichoderma harzianum Rifai, Clonostachys rosea (Link) Schroers, Samuels, Seifert & W. Gams) isolated from a silver polluted site. The aim was to select silver tolerant native strains and test their potential silver uptake. Among the three species tested, T. harzianum was the most efficient strain to tolerate and accumulate silver, showing an uptake capability of 153 mg L^?1 taken at the Ag concentration of 330 mg L^?1. Our study highlights the potential use of native microfungi spontaneously growing in sulphide-rich waste rock dumps, for silver bioaccumulation and bioremediation.     

不同挂膜方式生物滴滤塔处理含H2S恶臭气体简

采用菌剂挂膜,活性污泥挂膜和自然挂膜3种不同方式形成生物滴滤塔,考察挂膜方式对生物滴滤塔去除H₂S恶臭气体的影响。结果表明,当进气H₂S浓度为5 mg/m³时,菌剂挂膜、活性污泥挂膜、自然挂膜形成的生物滴滤塔出气H₂S浓度分别为15.7~17.4、11.6~14.8和15.0~15.9 μg/m³;塔内压降分别为3~4 mm水柱、6 mm水柱和4~5 mm水柱;喷淋后滤出液中硫酸根的浓度分别为14、22和17 mg/L,硫的转化率分别为45%、60%和50%。当进气H₂S浓度增大至7 mg/m³时,3个塔经过7 d的调整后,均能达到稳定状态,稳定后3个塔中出气H₂S浓度和压降基本没变,喷淋后滤出液中硫酸根浓度依次增大至25、31和30 mg/L左右。采用活性污泥挂膜形成的生物滴滤塔处理H₂S的能力比菌剂挂膜和自然挂膜的高。     

石灰污泥共热法在水泥煅烧中的应用

利用水泥窑尾的高温废气干化污泥是处理污泥且节约能源的新方法。为了模拟窑尾废气干化污泥的生产工艺,试验对污泥与石灰共热干化,研究了石灰(CaO)在污泥热干化过程中作用,可提高污泥的干化速率,减少有害气体排放及提高干化污泥的稳定性。研究表明,当石灰掺量质量百分含量达到10%时,250℃下污泥干化速率同比提高了19.6%;释放的H2S气体减少了95.1%;污泥中有机物含量减少了77.87%。     

硫化物沉淀法处理含铅废水

采用硫化物沉淀化处理含铅废水,考察了Na2S投加量、反应初始pH等操作条件对铅离子去除效果的影响,以及硫化铅沉淀反应过程的动力学特征,并采用激光粒度分析仪对反应生成的硫化铅沉淀的粒径分布进行了测定。实验结果表明,S2-与废水中Pb2+之间的沉淀反应能较好地符合一级反应动力学特征;Na2S与Pb2+的最佳物质的量之比为3;最佳的反应初始pH为6～9。在最佳操作条件下,Pb2+的平均去除率为99.60%,反应出水中Pb2+平均浓度为0.13 mg/L,低于污水综合排放标准(GB8978-1996)中铅的排放浓度限值。反应生成的硫化铅沉淀的平均粒径为2.62μm,具有较好的沉淀性能,能够通过沉淀的方式与废水分离。     

磷酸根和硫离子在纳米铁表面的竞争吸附

通过纳米铁对磷酸根和硫离子的单吸附和竞争吸附的研究,从吸附动力学和吸附等温线两个方面分析并验证了其吸附特性和模式。分析表明,相对于磷酸根,纳米铁对硫离子的吸附能力更强,在竞争条件下居优势地位。采用准一级和准二级吸附动力学方程对实验数据进行模拟分析,结果表明,纳米铁对磷酸根和硫离子的吸附符合二级动力学方程。吸附等温线分析采用Freundlich和Langmuir吸附等温线方程模拟分析,分析结果表明,纳米铁颗粒对磷酸根的吸附符合Freundlich吸附模式,而对硫离子的吸附符合Langmuir吸附模式。     

介孔分子筛SBA负载CuO纳米颗粒去除H2S

采用超声波辅助浸渍法制备了一种新型SBA-15负载CuO纳米颗粒的复合介孔材料(SC),使用氮吸附、XRD、透射电子显微镜、电感耦合等离子体发射光谱、X射线光电子能谱等方法对SC进行了表征。并考察了SC对H2S的去除效果。研究结果表明:SC仍为介孔材料,超声处理会使CuO纳米颗粒更均匀地分散在主体材料孔道内;SC具有六角形长程有序性,说明辅以超声处理的浸渍方法可维持介孔材料的高度有序性;CuO纳米颗粒主要存在于载体孔道内;脱硫反应后的试样(SC-E)仍保留六角形特征,与SC相比介孔有序性降低;当Cu质量分数为3.23%时,SC的H2S穿透吸附量高达278mg/g。