西安市固体废弃物卫生填埋场建设中的环境岩土工程问题研究

人与环境的和谐共处是当今社会可持续发展的重要内容,面对城市固体废弃物激增所带来的人与环境之间的各种问题,卫生填埋法作为最广泛也是最彻底的固体废弃物处理方法得到了越来越多的关注和研究。卫生填埋场的建设与环境岩土工程领域内的诸多方面密切相关,针对卫生填埋场的建设中涉及到的环境岩土工程问题,在依据已有资料概括介绍国内外相关发展现状的同时,结合西安地区的特点,在填埋场场址和类型选择、废弃物工程性质指标、填埋场防渗处理、填埋场沉降计算和边坡稳定这5个方面对西安地区城市固体废弃物卫生填埋场建设中的环境岩土工程问题进行了论述,提出了相应建议,展望了研究方向。     

陕北台塬区深层黄土湿陷性研究及地基处理

陕北台塬区深层湿性黄土厚度大,地基处理困难。室内试验表明:该区黄土的湿陷性与其结构、天然含水量、孔隙比、时代成因等因素相关,黄土的湿陷系数由上到下逐渐递减,表明湿陷性随深度增加而逐渐减弱;黄土的含水量和孔隙比分别与湿陷系数呈反相关和正相关关系。提出陕北台塬区深层湿陷性黄土地基处理时,对单位荷重小于250 kPa的建筑物,适宜采用灰土垫层、灰土挤密桩或灰土挤密桩与灰土垫层相结合方案;单位荷重大于或等于250 kPa的建筑物,宜采用桩基础方案。      

强夯法在可液化地基中的应用

介绍了强夯法在高速公路特殊路基处理中的应用,通过在青银高速公路齐河至夏津段工程中的强夯法应用实例,简述了强夯法的施工方案、地基处理效果及推广价值。     

拖网及深海摄像站位位置与水深的初步校正

对在海山富钴结壳调查中拖网取样和深海摄像调查的站位位置和水深的校正方法进行了研究,对其钢缆角度(θ角)等关键参数的选取以及水深校正可靠性的评估进行了分析和讨论,同时还利用MM3海山站位的数据进行了拖网和摄像站位的位置和水深校正,并对其可靠性进行了评估.结果表明:对于拖网站位,对应I至Ⅲ级海况,钢缆θ角分别被确定为15°、20°和25°时,其站位位置和水深校正误差最小,个别存在着较大误差的站位,需通过虚拟水深的验证进行手动校正,以保证校正后数据的可信性;对于摄像站位,当钢缆θ角被确定为25°左右时,虚拟水深和实际校正水深间在±50 m的允许误差范围(此为多波束的允许误差)内时,测站的站位位置和水深校正的效果较好,有超过50%的摄像测站的校正水深在误差允许的范围内.可见该校正方法具有较高的可信度,可基本满足富钴结壳的资源量评估和矿床圈定工作的需要.     

壳聚糖基高吸水性树脂的制备与应用进展

高吸水性树脂(Superabsorbent polymers,SAPs)是一种具有优良吸水能力和保水能力的功能高分子材料,因其良好的性能被应用于止血材料、个人卫生产品、干旱地区的农业及林业保水剂、污水处理剂以及生物材料等方面。以天然多糖原料制备新型高吸水性树脂是目前的研究热点之一。本文综述了近年来以海洋生物多糖-壳聚糖为原料制备高吸水性树脂的方法,以及壳聚糖基高吸水性树脂在应用方面的研究进展,并对壳聚糖基高吸水性树脂未来的发展趋势进行了展望。     

Treatment of Integrated Steel Plant Wastewater Using Conventional and Advanced Techniques

The integrated steel industry is considered as one of the important industrial sectors, and its outputs are inputs for other sectors including construction, engineering, medical and scientific equipment, and defence. Massive production, consumption, and export of steel signify a country's economic index. This review outlines the World's steel production quantities, the processes involved, and wastewater generation from the industry and its treatment. Wastewater generated from steel plants is highly complex and requires intensive treatment before discharge into natural water bodies. Technologies adopted for treating wastewater generated from steel industries are deliberated, focusing on coking wastewater treatment. Microbial mediated processes provide an effective means of degrading the contaminants, but the toxicity of certain compounds during higher pollutant load inhibits its further treatment. However, these processes can be integrated with either electrochemical technologies or advanced oxidation processes (AOPs), which can reduce the toxicity level. Hence, when a highly concentrated and complex mixture of contaminants is considered, an integrated approach is a resourceful option in terms of cost-effectiveness and treatment efficiency.     

Macrophytes’ Performance in Floating Treatment Wetlands for the Remediation of Ciprofloxacin-Contaminated Water

The presence of trace antibiotics in domestic and industrial effluents poses a risk of toxicity to fauna and flora. The application of floating treatment wetlands (FTWs) is a low-cost and sustainable approach to remediate wastewater. In this study, the performance of different macrophytes vegetated in FTWs for the remediation of ciprofloxacin (CIP)-contaminated water is investigated. Six macrophytes, Brachia mutica, Typha domingensis, Phragmites australis, Canna indica, Cyperus laevigatus, and Leptochloa fusca, are vegetated in FTWs for the removal of CIP (50 mg L⁻¹) from water. The FTWs show the potential to remove 30–43.58 mg L⁻¹ CIP from water in 28 days. They also reduce the chemical oxygen demand (118–138 mg L⁻¹) and biochemical oxygen demand (35–45 mg L⁻¹) of water. Among the macrophytes, C. indica removes maximum (43.58 mg L⁻¹) and T. domingensis minimum (30 mg L⁻¹) CIP. Canna indica and T. domingensis exhibit the maximum and minimum increase (30% and 12% of dry biomass) in growth, respectively. This study reveals that the FTWs vegetated with different plant species exhibit varying performances in removing CIP from water. This investigation is a step forward toward sustainable bioremediation of water contaminated with antibiotics.     

南京煦园太平湖富营养化及其防治

公园小水体的富营养化严重影响了观赏价值,这在国内是普遍存在的问题,为改变这种状态,作者于１９９４年对南京煦园内太平湖的水质进行了理化和生物指标的监测,并采取了水培经济植物的生态工程的治理措施,收到了较好效果。     

Performance Evaluation of Constructed Wetlands Treating Wastewater Treatment Plant Effluent in Taihu Lake,China

Constructed wetlands are often used for advanced treatment of the secondary effluent of municipal wastewater treatment plants (WWTPs). Through assessing wetlands based on economic, technical, environmental, and social impacts, an optimal process is selected. In this study, a set of assessment methods for wetland treatment technology is established: The analytic hierarchy process (AHP) is used to establish the evaluation index system; the entropy weight method is employed to calculate the index weights; and the preference ranking organization method for enrichment evaluation (PROMETHEE) is utilized for ranking of the selected treatment technologies. Then four processes applied in Taihu Lake basin, China are evaluated. The results show the following ranking: Vertical‐flow wetland–ecological pond–surface‐flow wetland–horizontal‐flow wetland, vertical‐flow wetland–horizontal‐flow wetland, ecological pond–horizontal‐flow wetland–surface‐flow wetland, and ecological ditch–ecological pond. The wetland exhibits certain universality and space portability with regard to treatment of municipal WWTP effluent. From the view of comprehensive benefits, the ranking of the treatment technology based on the vertical‐flow wetland is high (Φ values between 0.0224 and 0.0349), whereas that based on the ecological pond is low (Φ values between ?0.2086 and ?0.2652), owing to the mechanism of the process itself and the role of microorganisms in the system. Moreover, for organic matter removal, a vertical‐flow wetland process is recommended (48%), whereas for the removal of N contamination, an integrated‐flow wetland process is suggested (31.2% for NH₃‐N, 32.4% for TN removals).     

人工湿地废水处理系统的生物学基础研究进展

主要阐述了人工湿地废水处理系统中生物学基础的研究进展,至今,对作为湿地生产者的水生植物研究较多,水生植物除直接吸收利用废水中的营养物质,吸附和富集重金属外,还起输送氧气至根区,形成根区多种微环境和维护湿地水力传输的作用;而对作为湿地分解者的微生物的研究较少,湿地微生物的代谢活动是废水中有机物质降解的基础机制。