生化法污水处理技术探讨

在城市发展中,人口增多和居民生活方式的变化都加大了城市污水量的增加,现代城市污水已经对地下水体产生了污染,人们的生活用水受到了严重影响。在国家环保要求下,利用先进污水处理式方法对城市污水进行处理至关重要,本文对城市污水特点进行了分析,并重点对生化法污水处理工艺进行了分析,希望能为行业内人士提供参考,提高城市污水的净化能力,促进城市的持续发展。     

Influence of sewage culvert cover plate thickness on dynamic response and damage of the cover plate under gas explosion

In order to address the risk of combustible gas explosions in sewage culverts, a numerical model was established using ANSYS/LS-DYNA software. The model consisted of a culvert and a cover plate, and was used to study the effect of cover plate thickness (ranging from 0.08 m to 0.12 m) on the dynamic response and damage of the structure under explosive loads. The results indicated that, during the loading negative pressure stage, the equivalent stress peak value of the central monitoring unit of the cover plate first increased and then decreased with increasing cover plate thickness. Additionally, the maximum principal stress peak value first decreased and then increased, while the maximum shear stress peak value first increased and then decreased. During the loading positive pressure stage, the maximum principal strain peak value of the monitoring unit decreased overall with increasing cover plate thickness. However, the equivalent plastic strain peak value initially increased and then decreased gradually. The equivalent strain indicated that plastic damage occurred in the cover plate. Beyond a thickness of 0.11 m, increasing the cover thickness did not appear to enhance its resistance to plastic damage. The damage analysis revealed that as cover plate thickness increased, the peak displacement and velocity of the monitoring unit continued to decrease, while the overall stability and explosive resistance of the cover plate increased. Additionally, the number of damaged fragments decreased. However, once the cover plate thickness reached 0.11 m, the bonding performance of the reinforced concrete structure had been fully developed, increasing the thickness of the cover plate no longer had a significant impact on the explosive resistance of the cover plate.     

啤酒厂的废水处理及环境污染

以某市某啤酒厂为例,论述啤酒生产过程中废水的处理工艺,分析废水处理过程中带来的环境污染。     

剩余污泥对柠檬黄-85的吸附行为

以城市污水厂中的剩余污泥为主要原料制备污泥吸附剂(SA),并用于柠檬黄-85(Tt-85)脱色的实验研究。静态实验主要考察了pH值、投加量、反应时间、反应温度和Tt-85初始浓度对吸附的影响。结果表明:在投加质量浓度为6 g/L,pH值=2.0,温度为25℃的条件下,反应90 min后,SS对水中初始质量浓度为65 mg/L和221 mg/L的Tt-85去除率分别达到了97%和75%。对动力学实验数据进行拟合,发现准二级动力学模型能较好地描述SA对Tt-85的吸附行为。动态吸附柱实验表明,污泥凝胶球对水中Tt-85的去除率为64%。Langmuir等温吸附模型符合SA对Tt-85的吸附过程,其最大吸附质量比为27.78 mg/g,由SEM,FTIR和XRD的分析可得,SA对柠檬黄-85的化学吸附主要发生在表面,其中SA表面羟基官能团起到关键性作用。     

印染行业污水处理工艺探析

本文对我国现阶段印染生产的现状以及危害性进行分析,从印染产生的污水的特点以及印染污水处理的方法等方面进行探究,并且分析了印染污水治理的难点,并提出了制定印染废水治理的技术路线,将印染行业废水治理作为一系统工程进行综合整治。     

城市污水处理厂控制系统现状及发展趋势

随着我国经济的发展和城市化进程的加快,城市规模不断扩大,城市的人口迅速增长,随之而来的是城市生活污水量不断增加。因此,未来我国应当加大对城市生活污水的处理力度,以改善不断恶化的水环境污染趋势。自动控制系统在城市污水处理系统中至关重要,目前已经逐步应用到污水处理工艺过程及出水水质监测过程当中,并且取得了很好的效果,这样不但节约了能源,而且有着广阔的发展前景。     

Experimental study on agitated drying characteristics of sewage sludge under the effects of different additive age

Drying experiments of dewatered sewage sludge (DSS) were conducted on a agitated paddle dryer, and the effects of additive agents, i.e., CaO, pulverized coal (PC), heavy oil (HO), and dried sludge ("DS" through back mixing) on the agitated drying characteristics of DSS were investigated. The results indicated that CaO can significantly increase the drying rate of DSS. The drying rate at CaO/DSS (mass ratio) = 1/100 was 135% higher than that of CaO/DSS = 0. Pulverized coal has no obvious effect on drying rate, but the increase of PC/DSS can promote breaking up of sludge lump. Heavy oil was found to be slightly effective in improving the drying rate of DSS in the examined experimental range of HO/DSS = 0-1/20. It is also found thatHOcan reduce the torque of the dryer shaft, due to its lubrication effect. Back mixing of DS was found to be effective in alleviating the unfavorable effect of the lumpy phase by improving the mixing effect of the paddle dryer. There was a marked increase of drying rate with an increase of the DS/DSS in the experimental range of DS/DSS = 0-1/3.     

Effect of aeration rate on composting of penicillin mycelial dreg

Pilot scale experiments with forced aeration were conducted to estimate effects of aeration rates on the performance of composting penicillin mycelial dreg using sewage sludge as inoculation. Three aeration rates of 0.15, 0.50 and 0.90 L/(min·kg) organic matter(OM) were examined. The principal physicochemical parameters were monitored during the 32 day composting period. Results showed that the higher aeration rate of 0.90 L/(min·kg) did not corresponded to a longer thermophilic duration and higher rates of OM degradation;but the lower aeration rate of 0.15 L/(min·kg) did induce an accumulation of NH+4-N contents due to the inhibition of nitrification. On the other hand, aeration rate has little effect on degradation of penicillin. The results show that the longest phase of thermophilic temperatures ≥ 55°C, the maximum NO-3-N content and seed germination, and the minimum C/N ratio were obtained with 0.50 L/(min·kg) OM. Therefore, aeration rates of0.50 L/(min·kg) OM can be recommended for composting penicillin mycelial dreg.     

探究城市污水处理项目的环境影响评价

水作为人类赖以生存的主要能源物质,随着社会综合水平的提高,各行业对水资源的需求越是急切。而现阶段城市中大量污水给环境带来很多不利影响,环保公司针对城市污水处理不断在技术上进行突破、完善,将智能化节能技术运用到城市污水处理中,使设备、资源得到充分利用,为人们用水条件带来更加充沛、丰富的保障与支持。为有效处理城市污水,争取在城市污水处理发挥更大作用,带动城市环境可持续发展。     

基于农村生活污水生态处理工艺研究

伴随我国经济发展的进步,虽然农村的生活水平得到一定的改善,但是并没有根据实际情况将相关生态处理技术应用,导致农村污水处理的效率无法有效的提升,严重影响农村的发展。基于此,本文主要分析了农村生活污水处理的方式,以及污水处理不当对人们的危害与影响,并阐述了农村污水处理的主要对策与方案,笔者根据自身经验提出相应的建议与意见。