污水处理厂原位扩容提标设计实例

某污水处理厂现状规模为2×10^(4)m^(3)/d,需原位扩容至4×10^(4)m^(3)/d,出水水质标准由GB 18918-2002《城镇污水处理厂污染物排放标准》一级B标准提高至一级A标准。设计选用AAO-MBR工艺,在进水ρ(COD)=216~282 mg/L,ρ(BOD_(5))=92.9~100 mg/L,ρ(SS)=255~270 mg/L,ρ(TN)=30~39 mg/L,ρ(NH_(3)-N)=25~36 mg/L,ρ(TP)=2.68~5.04 mg/L的条件下,处理后出水水质远优于一级A标准。介绍了该工程的设计思路、设计参数及实际处理效果。

既有浅埋公路隧道原位扩容围岩变形

针对既有浅埋公路隧道原位扩容方式对围岩变形影响程度问题,采用FLAC3D数值模拟软件,对既有浅埋公路隧道单侧扩容方式和均匀扩容方式对隧道围岩变形的影响进行数值模拟分析研究.研究结果表明:既有公路隧道均匀扩容方式下的顶底板收敛量大于单侧扩容方式下的顶底板收敛量,而均匀扩容方式下的两帮收敛量小于单侧扩容方式下的两帮收敛量;既有公路隧道原位扩容可导致围岩产生一定量的变形,但变形量未对隧道安全性造成明显影响.在围岩属于稳定级别时,扩容方式对围岩变形影响不明显,在施工时只需进行常规支护.

HPB技术应用于污水处理厂原位扩容改造

为消除厂外管网溢流污染,江苏某污水处理厂面临着处理规模从3.0×10^(4)m^(3)/d提升至4.0×10^(4)m^(3)/d的扩容需求,同时需采用工期短、占地小、投资省和运营成本低的解决方案。针对上述需求,采用了高浓度复合粉末载体生物流化床(HPB)工艺对该厂进行原位扩容改造。改造结果表明,HPB技术大幅提高了处理水量(稳定在4.0×10^(4)m^(3)/d以上),出水主要指标满足COD≤30 mg/L、NH3-N≤1.5 mg/L、TN≤10 mg/L、TP≤0.3 mg/L的排放标准;在不增加占地的情况下,改造总工期仅85d,且全程不停水。与改造前相比,碳源投加量减少50 mg/L,运行成本节省约0.09元/m^(3)。

重装备工业区雨水系统联合提标改造分析

为应对城市化建设进程中,因河浜和绿地的开发硬化以及极端气候的频发,而加剧的已建低标准雨水强排系统的内涝频率和风险,文中以重装备工业区雨水强排系统为研究对象,充分挖掘现状雨水泵站原位扩容潜能,调整汇水分区,辅以部分工程建设等联合提标措施。提标改造可解决管网瓶颈段和泵排能力缺陷等问题,减少工程措施,降低对现状雨水系统的影响,使各雨水系统排水能力提升至5年一遇。此外,文中提出了提标改造的技术路线,阐述了汇水分区调整、管网利用、现状泵站原位扩容、多系统联合提标等技术方案及要点。

吴起县第二污水处理厂冬季低温出水超标处理对策

陕西吴起县第二污水处理厂位于陕北寒冷地带,冬季时间长达3个月~6个月,最低气温时排水总出口水温仅为7℃。低温季节,污水厂功能微生物的种群组成、活性、细胞增殖以及水的粘度、曝气池的充氧效率、活性污泥的絮凝与沉降性能等指标均会发生较大变化,某些对温度敏感的微生物活性会遭受低温抑制,导致污水处理系统菌群活性失调,从而导致污水厂多项出水指标偏高,尤其是脱氮效率。因此,冬季低温已成为制约污水处理厂稳定达标运行的关键问题。本文立足污水厂实际处理现状,从技术角度提出在低温条件下水厂总氮超标去除工艺改进方案,重点介绍了将原设计改良A2/O生物处理工艺+二沉池改为BioDopp工艺,配合阳光房等物理措施,使COD、TN等出水指标一次达标,可为水厂下一步实施提标改造提供技术建议和指导帮助。

Novel layered K0.7Mn0.7Ni0.3O2 cathode material with enlarged diffusion channels for high energy density sodium-ion batteries

As promising,low-cost alternatives of lithiumion batteries for large-scale electric energy storage,sodiumion batteries(SIBs)have been studied by many researchers.However,the relatively large size of Na+leads to sluggish diffusion kinetics and poor cycling stability in most cathode materials,restricting their further applications.In this work,we demonstrated a novel K+-intercalated Mn/Ni-based layered oxide material(K0.7Mn0.7Ni0.3O2,denoted as KMNO)with stabilized and enlarged diffusion channels for high energy density SIBs.A spontaneous ion exchange behavior in forming K0.1Na0.7Mn0.7Ni0.3O2between the KMNO electrode and the sodium ion electrolyte was clearly revealed by in situ X-ray diffraction and ex situ inductively coupled plasma analysis.The interlayer space varied from 6.90 to 5.76?,larger than that of Na0.7Mn0.7Ni0.3O2(5.63?).The enlarged ionic diffusion channels can effectively increase the ionic diffusion coefficient and simultaneously provide more K+storage sites in the product framework.As a proof-of-concept application,the SIBs with the as-prepared KMNO as a cathode display a high reversible discharge capacity(161.8 mA h g-1at0.1 A g-1),high energy density(459 W h kg-1)and superior rate capability of 71.1 mA h g-1at 5 A g-1.Our work demonstrates that the K+pre-intercalation strategy endows the layered metal oxides with excellent sodium storage performance,which provides new directions for the design of cathode materials for various batteries.