Consequences of Pollution and Degradation of Nigerian Aquatic Environment on Fisheries Resources

Throughout the world, human use of water, and bad planning have led to drier and polluted rivers, lakes, and groundwater resources with dramatic effects on the natural ecosystems. Nigeria's vast freshwater resources are among those most affected by environmental stress imposed by human population growth, urbanization, and industrialization. Disposal and management of wastes in Nigeria present serious environmental problems. The usual methods of waste disposal in the country are: land filling, dumpsites, land spreads, water disposal, and incineration. Each of these methods has serious environmental implications because of their potential to pollute and contaminate underground and surface water bodies in the country. Major cities in Nigeria face serious water pollution crises, in which lack of environmental control of water-dependent activities (including domestic, agricultural, and industrial) play an important part. Fish and marine resources in the country face total collapse or extinction, due to over-fishing and destruction of marine life and natural habitats by pollution of water bodies. Unregulated and excessive use of pesticides for fishing and the deliberate disposal and dumping of toxic and hazardous wastes into water bodies are significant causes of massive fish kills and loss of aquatic life and habitats in the country. The protection of water quality and aquatic ecosystem as a vulnerable resource, essential to sustain life, development and environment is of utmost importance to prevent further pollution and degradation of Nigeria's freshwater resources. Integrating operational measures for safeguarding adequate levels of protection of endemic habitats remains a major challenge. There is therefore a need to examine in tandem the entire range of uses to which freshwater is put, and to design services which neither squander precious resources nor fail to respect other, competing and complementary water needs.This paper attempts to provide an overview of the Nigerian freshwater resources, to assess the pollution status of inland waters, identify the sources of pollution, and infer the consequent effect on fisheries resource. Recommendations were proffered on the strategies to employ to ensure that Nigerian fishery resources are adequately managed in order to address the issue of food security.     

Removal of Cinnamic Acid Derivatives from Aqueous Effluents by Fenton and Fenton-like Processes as an Alternative to Direct Biological Treatment

The removal of various phenolic acids (p-coumaric, caffeic and ferulic acids), typically found in wastewaters of agricultural origin, from model effluents by chemical and biological means has been investigated. Chemical oxidation processes comprising hydrogen peroxide and a homogeneous or heterogeneous copper or iron catalyst were employed over a wide range of experimental conditions. Chemical oxidation is capable of removing most of the total organic carbon initially present in the effluent at relatively mild treatment conditions (i.e. reaction times up to 120 min and temperatures up to 80°C), while removal rates generally increase with increasing temperature, H₂O₂ and catalyst concentrations. The anaerobic degradability and toxicity of p-coumaric acid has been assessed using the biochemical methane potential and anaerobic toxicity assay respectively. p-Coumaric acid, at concentrations below about 1 g/L, is not toxic against methanogens and slowly degrades over a period of about 35 days at 35°C. In light of this, chemical oxidation may provide a promising alternative to direct biological treatment for either the partial or complete removal of phenolic acids at reasonable treatment times; the implications for wastewater treatment are discussed.     

微生物降解炼油厂含酚废水的实验研究

采用燕化集团公司炼油事业部污水厂的活性污泥为菌源 ,好氧条件下通过分离、驯化筛选出三种高效降酚微生物。并在实验室模拟三相生物流化床分别对人工含酚废水和燕山石化炼油厂含酚废水进行降解实验 ,结果显示 ,在三相生物流化床中使用微生物包埋法制作的海藻酸钙载体处理含酚废水 ,3小时段内降酚显著 ,t -testP <0 0 1,处理效果良好 ,并以海藻酸钠为主要原料制作载体可以极大降低处理成本     

循环水旁滤中试研究

目前所使用的纤维束过滤器经多次检测出水浊度往往大于进水浊度,其主要原因是纤维束已受污染,并且很难冲洗干净。因此选用高效流砂过滤器进行循环水旁滤处理,实验表明在使用高效流砂过滤器时,投加聚合氯化铝(PAC)处理效果非常理想。在PAC投量为5～10 mg/L时,平均去除率达到83%,平均进水浊度7.05NTU,平均出水浊度为1.2NTU。完全能够满足旁滤的要求。     

Degradation of phenol in an upflow anaerobic sludge blanket(UASB) reactor at ambient temperatureKE

A synthetic wastewater containing phenol as sole substrate was treated in a 2.8 L upflow anaerobic sludge blanket(UASB) reactor at ambient temperature. The operation conditions and phenol removal efficiency were discussed, microbial population in the UASB sludge was identified based on DNA cloning, and pathway of anaerobic phenol degradation was proposed. Phenol in wastewater was degraded in an UASB reactor at loading rate up to 18 gCOD/(L·d), With a 1:1 recycle ratio, at 26(1℃, pH 7.0-7.5. An UASB reactor was able to remove 99% of phenol up to 1226 mg/L in wastewater with 24 h of hydraulic retention time(HRT). For HRT below 24 h, phenol degradation efficiency decreased with HRT, from 95.4% at 16 h to 93.8% at 12 h. It further deteriorated to 88.5% when HRT reached 8 h. When the concentration of influent phenol of the reactor was 1260 mg/L(corresponding COD 3000 mg/L), with the HRT decreasing(from 40 h to 4 h, corresponding COD loading increasing), the biomass yields tended to increase from 0.265 to 3.08 g/(L·d). While at 12 h of HRT, the biomass yield was lower. When HRT was 12 h, the methane yield was 0.308 L/(gCOD removed), which was the highest. Throughout the study, phenol was the sole organic substrate. The effluent contained only residual phenol without any detectable intermediates, such as benzoate, 4-hydrobenzoate or volatile fatty acids(VFAs). Based on DNA cloning analysis, the sludge was composed of five groups of microorganisms. Desulfotomaculum and Clostridium were likely responsible for the conversion of phenol to benzoate, which was further degraded by Syntrophus to acetate and H2/CO2. Methanogens lastly converted acetate and H2/CO2 to methane. The role of epsilon-Proteobacteria was, however, unsure.     

Use of rural energy resources and eco-environmental degradation in Tibet

IntroductionReportedasthethirdpoleoftheearth(Zheng ,1996) ,theTibetregionisthemainbodyoftheQinghai TibetPlateau.Itcrosses 9°50′oflatitudefromsouthtonorthand2 0°30′oflongitudefromeasttowest,withavastareaof1 2millionkm2 andahighaverageelevationofover40 …     

Catalytic degradation of methylene blue by Fenton like system: model to the environmental reaction

To develop more efficient chemical methods for the demineralization of organic pollutants from water bodies, which one was also mimic to the nature, a degradation of methylene blue by Fe( Ⅲ ) and H2O2 in the absence of light instead of Fe( Ⅱ ) and H2O2 was studied. Results showed that use of Fe ( Ⅲ ) is more promising than Fe( Ⅱ ). The present study reflects that Fenton reaction is more efficient, in the presence of a small amount of salicylic acid is added which is a one of the priority pollutant.     

水中内分泌干扰物-壬基酚的去除研究进展

壬基酚是一种内分泌干扰物,主要来源于NPEO,能通过生物富集作用进入生物体内并造成危害。当前检测水样中壬基酚的主要方法是采用GC—MS,预处理采用固相萃取。研究表明自来水厂的常规处理工艺对于壬基酚的去除有限;而活性炭、有机蒙脱土吸附等物理方法,超声声化、电化学氧化、光分解等化学方法可有效降解水中的壬基酚。     

紫外光活化亚硫酸盐降解水中卡马西平

研究了紫外光活化亚硫酸盐高级氧化工艺降解水中典型新污染物——卡马西平（CBZ）的效能和降解机制.探究了不同溶解氧浓度[ρ（DO）]对紫外光活化亚硫酸盐降解CBZ的影响,并在模拟自然水体环境控制初始ρ（DO）为（8.0±0.2） mg·L^-1条件下,考察了不同工艺参数（亚硫酸盐投加量、反应pH）与水环境要素（碳酸氢根离子、氯离子、腐殖酸）对CBZ降解效能的影响.结果表明,紫外光活化亚硫酸盐工艺可在30 min内降解85.3%的CBZ,降解过程遵循拟一级动力学,动力学常数为0.055 7 min^-1.并采用电子顺磁共振波谱技术、活性物质淬灭实验和竞争反应动力学实验发现,CBZ的降解主要来自紫外光活化亚硫酸盐工艺中硫酸根自由基（SO₄^-·）与羟基自由基（·OH）等活性物质,且降解贡献率分别为43.9%和56.1%.而且CBZ降解率随HCO₃^-浓度升高而降低,但Cl^-浓度变化对CBZ降解率影响不大,水中存在的腐殖酸可显著抑制CBZ的降解.反应过程中硫酸盐的积累量显著低于《生活饮用水卫生标准》（GB 5749-2022）限值,且亚硫酸盐消耗速率（0.004 4 min^-1）显著低于CBZ的降解速率,说明亚硫酸盐可被紫外光高效活化用于降解水中存在的CBZ.     

楼板对钢筋混凝土框架结构受力性能影响

汶川8级地震震害调查发现,这次地震中现浇钢筋混凝土框架结构多发生"强梁弱柱"型破坏,这与规范中"强柱弱梁"抗震设计原则相悖。为探究其原因,采用ABAQUS软件对钢筋混凝土带楼板框架和空框架结构进行了侧向加载情况的性能分析。通过对比纵向梁端钢筋应力变化和柱端钢筋应力变化,以及分析不同侧向位移对应的楼板钢筋的应力变化情况,指出楼板对梁端抗负弯矩能力的增强有很大贡献。研究了节点类型、楼板钢筋材性、侧向位移、梁高、梁跨和板厚等因素对纵向梁端处楼板有效宽度的影响规律,提出了负弯矩作用下梁端处楼板有效宽度的取值方法。