响应面法分析优化牛粪厌氧发酵工艺参数

选取总固体浓度(TS)、碳氮比(C/N)和发酵时间(T)等3个发酵工艺参数,以沼气产率、甲烷含量和COD去除率作为发酵过程响应指标,运用响应面法(RSM)优化牛粪厌氧发酵工艺条件。结果表明,根据实验数据建立的3个二次多项式数学模型都具有高度耦合性(0.01),并且回归系数(R2)均大于0.9,说明预测值与实验值之间具有很好的拟合度。根据二次多项式方程运用响应面法单独优化沼气产率、甲烷含量和COD去除率的最优条件分别为TS=6.18%,C/N=25.51,T=34.12 d;TS=6.97%,C/N=25.81,T=36.45 d;TS=4.51%,C/N=24.86,T=36.08 d。结果发现,提高沼气产率和甲烷含量与提高COD去除率的最优TS和C/N值是相反的,进一步采用Design-Expert软件寻找出三者共同的优化条件,结果为TS=6.49%,C/N=25.36和T=35.37 d。该条件下沼气产率为230.62 mL/g VS,甲烷含量为70.50%以及COD去除率为57.51%。     

高浓度钻井废水的混凝-催化氧化处理

以华北油田某深井的高浓度钻井废水(COD高达14 460.0 mg/L)为研究对象,提出了酸化-混凝-催化氧化-吸附的组合处理工艺。重点研制了钻井废水催化氧化处理催化剂(镍基催化剂),通过实验确定了最佳工艺参数条件。着重考察了催化氧化处理的工艺条件,在pH值为4,次氯酸钙投加量为4.4 g/L,催化剂投加量为1.6 g/L的条件下COD降至403.5 mg/L,进一步吸附处理后COD降至139.9 mg/L、色度为30倍、石油类含量为3.8 mg/L、pH为8.0和SS浓度为52mg/L,最终出水水质达到《污水综合排放标准》(GB 8978-1996)二级标准,处理成本为84.8元/m3。     

超声波降解四环素类抗生素废水

采用超声波降解模拟废水中四环素类抗生素(TCs):土霉素(OTC)、四环素(TC)和金霉素(CTC),考查废水初始浓度、初始pH、超声波输入功率密度、曝气量和自由基清除剂(正丁醇)对降解效率的影响。结果表明,超声波可以快速高效地降解废水中的TCs,CTC最易被降解,TC和OTC次之;在OTC、TC和CTC初始浓度0.25 mg/L,初始pH=8.2,声功率密度1.2 W/mL,气水体积比30∶1的条件下,超声波辐照20 min后去除率分别达到76.8%、84.0%和94.4%。在实验研究条件下,TCs去除率均随初始浓度(0.25~2.00 mg/L)的增大而降低,但总去除浓度升高;碱性条件有利于TCs降解,去除率随初始pH(6~11)升高而升高;功率密度(0.24~1.96 W/mL)越高,TCs去除率也越高;曝气后TCs的去除率明显升高,随着气水比(10∶1~60∶1)的增大,去除率逐渐上升;正丁醇有效抑制TCs超声波降解,可推断TCs主要降解途径为自由基氧化。TCs超声波降解过程符合伪一级动力学反应特征。     

Status of Peatland Degradation and Development in Sumatra and Kalimantan

Peatlands cover around 13 Mha in Sumatra and Kalimantan, Indonesia. Human activities have rapidly increased in the peatland ecosystems during the last two decades, invariably degrading them and making them vulnerable to fires. This causes high carbon emissions that contribute to global climate change. For this article, we used 94 high resolution (10-20 m) satellite images to map the status of peatland degradation and development in Sumatra and Kalimantan using visual image interpretation. The results reveal that less than 4% of the peatland areas remain covered by pristine peatswamp forests (PSFs), while 37% are covered by PSFs with varying degree of degradation. Furthermore, over 20% is considered to be unmanaged degraded landscape, occupied by ferns, shrubs and secondary growth. This alarming extent of degradation makes peatlands vulnerable to accelerated peat decomposition and catastrophic fire episodes that will have global consequences. With on-going degradation and development the existence of the entire tropical peatland ecosystem in this region is in great danger.     

Perceptions of Wood in Rivers and Challenges for Stream Restoration in the United States

This article reports a study of the public perception of large wood in rivers and streams in the United States. Large wood is an element of freshwater aquatic ecosystems that has attracted much scientific interest in recent years because of its value in biological and geomorphological processes. At the heart of the issue is the nature of the relationship between scientific recognition of the ecological and geomorphological benefits of wood in rivers, management practices utilizing wood for river remediation progress, and public perceptions of in-channel wood. Surveys of students’ perceptions of riverscapes with and without large wood in the states of Colorado, Connecticut, Georgia, Illinois, Iowa, Missouri, Oregon, and Texas suggest that many individuals in the United States adhere to traditionally negative views of wood. Except for students in Oregon, most respondents considered photographs of riverscapes with wood to be less aesthetically pleasing and needing more improvement than rivers without wood. Analysis of reasons given for improvement needs suggest that Oregon students are concerned with improving channels without wood for fauna habitat, whereas respondents elsewhere focused on the need for cleaning wood-rich channels for flood risk management. These results underscore the importance of public education to increase awareness of the geomorphological and ecological significance of wood in stream systems. This awareness should foster more positive attitudes toward wood. An integrated program of research, education, and policy is advocated to bridge the gap between scientific knowledge and public perception for effective management and restoration of river systems with wood.     

北京东南郊大气TSP中多环芳烃浓度特征与影响因素

对2005-03～2006-01北京市东南郊3个采样点大气总悬浮颗粒物（TSP）样品进行分析,总结了研究区内TSP以及TSP中16种PAHs的浓度特征和季节变化规律.研究区内16种PAHs浓度总和的范围在0.29～1?184.48 ng/m³之间,均值为239.44 ng/m³;分别用气象参数（温度、风速、气压、相对湿度）和大气API指数（二氧化硫、二氧化氮、PM₁₀）与PAHs浓度进行了偏相关分析,结果表明温度和SO₂的API指数与PAHs浓度相关显著,应用逐步回归方法得到PAHs对气象参数和大气API指数的回归方程,分别为∑16PAHs=572.56-23.18t和∑16PAHs=5.99 SO₂,可以利用温度和SO₂的API指数对PAHs浓度进行估算.     

PAC-SBR处理豆制品废水的研究

豆制品废水是一种较难处理的高浓度有机废水,而传统的SBR方法仍然有可以改进之处。通过对PAC-SBR系统处理豆制品废水的研究,发现木质PAC对豆制品废水中COD的最大理论吸附量为13.3g/g,其吸附能力强;SBR中投加木质PAC,可显著提高系统的处理效能,在适宜投加量400mg/L下,出水COD和TKN浓度较未添加木...     

钢丝绳行业污泥特性及挥发回转窑处理技术研究

富含重金属污泥的处置和回收利用至今常有技术上的难点,更难以实现工业化的回收利用。分析研究了南通地区钢丝绳生产废水处理过程中所产生污泥的组分和特性,并与常见几类污泥作了比较。结果表明,具有高灰分和低热值的这种污泥的燃烧特性和电镀污泥相似,其主要组分Pb、Zn和Fe的含量分别为0.42％～0.58％、1.11％～5.33％...     

废柴油再生工艺废弃物的固化实验

废弃油基钻井液中废柴油再生工艺产生的废渣废液具有高COD和高色度等特点,直接外排对环境危害严重。通过单因素实验和正交实验确定了该废弃物的最佳固化配方为:水泥∶粉煤灰为3∶2,水泥和粉煤灰加量30%,石膏加量1.5%,硫酸铝加量1.5%,石灰加量1%。在最佳固化配方下,废弃物浸出液的COD由10 062 mg/L降至62 mg/L,色度由500倍降至8倍,各主要污染指标都符合《污水综合排放标准》(GB 8978-1996)一级标准,固化成本约120元/m3。通过固化体的宏观照片和微观SEM照片对固化机理进行了分析,结果表明,废弃物被稳固地包裹在固化体之中。