Nitrification performance of nitrifying bacteria immobilized in waterborne polyurethane at low ammonia nitrogen concentrations

Suspended and waterborne polyurethane immobilized nitrifying bacteria have been adopted for evaluating the effects of environmental changes, such as temperature, dissolved oxygen （DO） concentration and pH, on nitrification characteristics under conditions of low ammonia concentrations. The results showed that nitrification was prone to complete with increasing pH, DO and temperature. Sensitivity analysis demonstrated the effects of temperature and pH on nitrification feature of suspended bacteria were slightly greater than those of immobilized nitrifying bacteria. Immobilized cells could achieve complete nitrification at low ammonia concentrations when DO was sufficient. Continuous experiments were carried out to discuss the removal of ammonia nitrogen from synthetic micropollute source water with the ammonia concentration of about 1mg/L using immobilized nitrifying bacteria pellets in an up-flow inner circulation reactor under different hydraulic retention times （HRT）. The continuous removal rate remains above 80% even under HRT 30 min. The results verified that the waterborne polyurethane immobilized nitrifying bacteria pellets had great potential applications for micro-pollution source water treatment.

Pretreating Stored Human Urine for Solar Evaporation by Low-Technology Ammonia Stripping

In order to avoid the loss of ammonia during solar drying of stored urine, low-tech stripping is suggested as a pretreatment process for ammonia recovery. The mass transfer of ammonia from stored urine with an initial pH of about 9 was tested in a simple closed vessel operated at 72°C, 74°C and 85°C. The specific urine/gas interface was 16.97 m-1. For ammonia absorption, a beaker with sulfuric acid was positioned in the gas phase of the container. After keeping the stored urine for 73 h at 85°C, the concentration of free ammonia (NH3) was reduced by more than 99%, and the pH of the stored urine decreased to 6.4 due to ammonia volatilization. Total ammonia (NH3+ NH4+) concentration was reduced by only 83% in the same period. At lower temperatures, the process was slower. Required treatment time can be reduced when specific gas/liquid interface is increased. Because it is known that water can be heated in solar boxes to temperatures above 90°C, this simple stripping apparatus is feasible to be operated with solar energy in remote areas with suitable climatic conditions where no electric power is available. As the area demand for solar “low-tech stripping” is less than 1 m2 per capita, this process can be looked at as a suitable pretreatment of stored urine prior to solar evaporation.

N_(2)H_(4)强化常温低NH_(4)^(+)-N亚硝化系统的稳定运行研究

为获得稳定的亚硝化过程,研究通过投加联氨(N_(2)H_(4))强化了低NH_(4)^(+)-N亚硝化系统在常温下的运行效能,并探究了该策略对硝化过程关联菌群特性的影响。结果显示,在温度由35℃降低至20℃的过程中,NH_(4)^(+)-N转化率(Ammonia-Nitrogen Conversion Rate,ANCR)和亚硝积累率(Nitrite Accumulation Rate,NAR)逐渐降低,分别由60%和31%下降至45%和9.39%。通过投加5 mg/L N_(2)H_(4),可使ANCR和NAR分别提升至61.36%和75%以上。亚硝化主要功能菌-氨氧化菌(Ammonia-Oxidizing Microorganisms,AOB)(Nitrosomonas属)相对丰度提升至15%,干扰-亚硝酸盐氧化菌(Nitrite-Oxidizing Bacteria,NOB)(Nitrospira属)相对丰度被抑制在0.05%以下。AOB活性由(0.39±0.01)mg N/(g VSS·h)上升至(0.42±0.01)mg N/(g VSS·h)。功能基因预测分析发现,AOB的主要功能基因(氨氮加氧酶)相对丰度提升了20百分点,而NOB的功能基因(亚硝酸盐氧化酶)未被预测出,表明投加N_(2)H_(4)促进了亚硝化系统的稳定运行。

低温硝化细菌的筛选及其氨氮去除性能研究

针对低温污水处理过程中氨氮去除困难的问题,在12℃条件下,从冬季新疆城市污水处理厂二沉池活性污泥中筛选出一株耐低温假单胞菌,将其命名为Pseudomonas veronii A4。对菌株A4的氨氮去除特性进行研究,菌株A4的最适碳源为丁二酸钠,在以丁二酸钠为碳源,COD/N为5的情况下,24 h时NH_(4)^(+)-N去除率为50.82%。

基于绿氨的低碳火电关键技术及经济性研究

在“双碳”目标指引下,低碳以及零碳燃料发展迎来重大机遇。对此,对氨作为零碳燃料在火电掺烧中的应用潜力进行了研究,通过梳理全球及我国火电掺氨发展历程,提出了低碳火电掺氨改造的技术方案并分析了其经济性,确保燃煤锅炉掺烧绿氨的安全性、稳定性和环保性,同时针对性分析了甘肃省与浙江省实现低碳火电转型的经济性,验证了其构建绿色新型电力系统的可行性。研究结果表明,基于绿氨的低碳火电技术路径不仅技术可行,而且具有合理的经济性,能够为推进低碳火电建设提供有力支持。

Effect of ultraviolet mutagenesis on heterotrophic strain mutation and bioleaching of low grade copper ore

The effect of ultraviolet mutagenesis on a heterotrophic strain(Providencia JAT-1) mutation was studied and bioleaching of low grade copper ore with mutant bacteria was investigated. The results show that the activity of bacteria was improved after ultraviolet mutagenesis; the best irradiation time was 120 s. Compared to the original bacteria, the cells density of mutant bacteria at stationary phase increased by 26% and ammonia produced by mutant bacteria increased by 12%. Higher activity of bacteria leads to a higher copper extraction rate. The bioleaching performance of Providencia JAT-1 was improved after UV mutagenesis. The copper extraction rate with mutant bacteria increased by 10.6% compared to the original bacteria. The ore surface was corroded and the fine particles were absent after bioleaching. Free copper oxide and copper silicates could be leached out easily by using JAT-1; a small part of the copper sulfide can also be leached out. Bioleaching using JAT-1 is more effective than ammonia leaching and copper extraction rate with mutant bacteria was 21.1% higher than that by ammonia leaching under the same condition.

催化裂化装置余锅运行优化与调整

清江石化催化装置余锅排烟温度逐步上升,检查时发现余锅后部蒸发段和省煤段压降也在上升,而且余锅出口烟气中氮氧化物含量上升明显。为保证烟气中氮氧化物达标排放,只有不断提高注氨量,而高的注氨量会造成氨逃逸,从而引起省煤段翅片管结晶,以上问题也更加严重。针对此问题,决定将再生器改加强化脱硝助剂,优化操作,降低床温,控制烟气低含氧量操作,同时优化余锅激波吹灰运行等措施后,余锅压降、排烟温度得到有效控制,注氨量大幅下降,保证装置长周期运行。

低氨氮质量浓度废水DPR-SNAD脱氮除磷效能研究

针对低氨氮废水单级自养脱氮系统副产物硝氮残留,有机物耐受能力差,以及缺乏除磷功能等问题,提出反硝化除磷(Denitrifying Phosphorus Removal,DPR)-单级自养脱氮(Simultaneous Partial Nitrification,Anaerobic Ammonium Oxidation and Denitrification,SNAD)组合处理技术,重点考察氨氮负荷对单级自养脱氮工艺(Single-stage Nitrogen Removal Using Anammox And Partial Nitritation,SNAP)系统、泥龄对DPR系统构建的影响,以及低氨氮废水DPR-SNAD组合处理系统的脱氮除磷效能与微生物种群。研究结果显示:采用氨氮质量浓度梯度递减方式,氨氮负荷为0.20 kg N/(m^(3)·d)的低氨氮质量浓度的SNAP系统构建时间为63 d,较负荷为0.05 kg N/(m^(3)·d)的系统缩短了37 d。泥龄对构建的DPR系统效能影响显著,泥龄为35 d的系统除磷脱氮效能较高,PO_(4)^(3-)-P、NO_(3)^(-)-N、COD去除率分别为86.25%、98.00%、92.00%,系统释磷、吸磷、反硝化脱氮速率分别达4.60 mg/(L·h)、4.13 mg/(L·h)、5.53 mg/(L·h)。DPR-SNAD组合处理系统的氨氮(NH_(4)^(+)-N)、总氮(Total Nitrogen,TN)、总磷(Total Phosphorus,TP)、化学需氧量(Chemical Oxygen Demand,COD)去除率分别为100%、98.64%、86.00%、93.30%。TN、TP去除率较对照组SNAP分别提高了19.20百分点和86.00百分点。16S rRNA高通量测序结果显示,组合系统脱氮除磷功能菌属主要有Rhodobacter、Candidatus_Brocadia、Nitrosomonas、Gemmobacter,SNAD系统中厌氧氨氧化菌(Anaerobic Ammonia Oxidation,AnAOB)相对丰度显著高于对照组SNAP系统,DPR促进SNAD提高了系统脱氮效能。

Accurate equilibrium inversion barrier of ammonia by extrapolation to the one-electron basis set limit

A scheme based on treating uniform singlet-pair and triplet-pair interactions is suggested to extrapolate electron correlation energy of ammonia, calculated at two basis-set levels of ab initio theory in the infinite one-electron basis-set limit. The dual-level method is tested on the extrapolation of the full correlation in coupled-cluster singles and doubles and in the case also a noniterative perturbative correction for connected triple energies for the C3v and D3h structures of ammonia, with correlation-consistent basis sets of the type cc-pVXZ （X = D, T, Q, 5, 6） and aug-cc-pVXZ （X = D, T, Q, 5）. For testing and comparison purposes, the energies reported by Klopper [J. Comput. Chem. 22 1306 （2001）] have been taken. From a corresponding extrapolation of CCSD（T）/AVXZ energies for X = 4, 5, we obtain total inversion barriers of 1833.87 cm-1/1832.33 cm^-1 for the two/three-parameter extrapolation rules, which are in good agreement with other theoretical extrapolation and empirical values in the literature.

六偏磷酸钠改性沸石处理矿井水中氨氮

我国部分矿区矿井水中氨氮(NH_(4)^(+)—N)存在超标问题,且去除矿井水中的NH_(4)^(+)—N要求越来越高,为了实现矿井水中NH_(4)^(+)—N的高效去除,对天然沸石(NZ)进行六偏磷酸钠(SHMP)浸渍改性,增强其对矿井水中NH_(4)^(+)—N的去除效果。结果表明:天然沸石经过0.1 mol/L SHMP溶液浸渍3 h制备出了六偏磷酸钠改性沸石(SHMP-NZ),在初始NH_(4)^(+)—N质量浓度5 mg/L、投加量2 g/L的条件下振荡吸附2 h后NH_(4)^(+)—N去除率可达到95.7%,相较于未改性天然沸石提高了39.9%。扫描电镜和比表面积测定显示改性后沸石孔隙变大,表面变得光滑松散,比表面积增加,微孔体积减小,介孔、大孔和平均孔径增加。X射线衍射和傅里叶红外光谱分析表明改性后沸石的基本骨架无明显变化。弱酸性或中性环境有利于SHMP-NZ吸附去除水中的NH_(4)^(+)—N,共存阳离子的影响由大到小排序为K^(+)>Na^(+)>Ca^(2+)>Mg^(2+)。拟一级动力学、拟二级动力学和Elovich动力学非线性拟合表明,天然沸石和SHMP-NZ吸附NH_(4)^(+)—N更加符合拟二级动力学模型,对NH_(4)^(+)—N的吸附属于化学吸附(离子交换)过程,颗粒内扩散模型表明2种材料对NH_(4)^(+)—N的吸附涉及外扩散、内扩散和反应平衡3个阶段;Freundlich等温线模型表明,SHMP-NZ较天然沸石更易于吸附NH_(4)^(+)—N,Langmuir等温线模型可以较好地描述天然沸石及SHMP-NZ吸附NH_(4)^(+)—N的过程,相关系数R2分别为0.9636和0.9828,SHMP-NZ最大NH_(4)^(+)—N吸附量为11.03 mg/g,较天然沸石提升了88.23%;吸附热力学表明各试验温度下吉布斯自由能变(ΔG)均小于0,焓变(ΔH)和熵变(ΔS)大于0,是一个熵增反应,有利于NH_(4)^(+)—N的去除。SHMP-NZ吸附-解吸循环5次后,对NH_(4)^(+)—N的去除效率仍有89.7%。实际矿井水中低浓度NH_(4)^(+)—N的处理,改性沸石在投加量1 g/L,25℃条件下振荡吸附1 h后,出水满足《地表水环境质量标准》Ⅲ类水质中氨氮的要求。

低碳氨燃料生命周期碳排计算和应用前景探究

文章梳理了低碳氨的燃料属性和特点,测算了目前技术水平下低碳氨生命周期碳排因子,对低碳氨与煤制氨的成本进行了分析,指出随着技术进步成本进一步下降,风光发电制低碳氨燃料经济性将逐步体现,未来具有发展空间。低碳氨生命周期碳排因子生产环节排放占90%以上,生产环节中碳排基本上是制氢和制氮用电导致,因此降低碳排主要方向是减少生产环节用电量和尽可能增加绿电使用量。

可再生能源驱动放电等离子体助推双碳目标策略与路线

实现碳达峰、碳中和对促进我国经济高质量发展至关重要。面对现有CO_(2)捕集封存(高能耗)和合成氨(高碳排)技术升级需求,发展基于可再生能源的新型CO_(2)、N_(2)等能源小分子转化利用技术势在必行。为推动等离子体能源小分子转化技术的发展,助力国家重大需求、实现碳中和目标,该文分别围绕可再生能源驱动等离子体产生、等离子体CO_(2)转化利用、等离子体固氮和合成氨、等离子体氨/大分子裂解燃烧、等离子体催化材料和催化耦合等方面,规划建议高压放电等离子体技术助推“双碳”战略目标的策略与路线,以期为实现C、H和N绿色循环提供有效的解决方案。

钼酸铵生产中杂质钾的浸出特征分析研究

在采用焙烧―氨浸法生产钼酸铵过程中,通过ICP、XPS、SEM等手段研究了钼焙砂氨浸过程中钾元素的浸出规律,并借助MLA和Factsage热力学软件考察了氨浸过程中钾元素的赋存形态变化。采用未反应核模型、抛物线扩散方程、双常数方程、Elovich方程及一级动力学方程等动力学模型探讨了钾释放的动力学规律。结果表明:钼焙砂氨浸过程中钾的浸出可分为2个阶段:前期为离子钾的浸出过程,主要发生KCl、K 2SiF 6的离子交换反应,浸出活化能较小,仅为4.79 kJ/mol,Elovich模型对该阶段的拟合效果最好;后期主要为矿物钾中钾的浸出过程,浸出活化能较大,为34.55 kJ/mol,最优动力学模型为双常数模型。浸出后期,钾的释放速率较慢,4种含钾矿物的释钾能力由弱到强顺序为:伊利石<钡铁云母<云母<正长石。

考虑电转氨和生物质废能转换的农村化工综合能源系统低碳调度方法

农村地区能源绿色转型发展是构建现代能源体系的重要组成部分,而引入化工类产业在促进乡村振兴的同时,也带来严重的污染问题。因此,研究农村化工生产脱碳及园区能源结构优化对实现“双碳”目标和农村现代化具有重要意义。该文提出一种考虑电转氨和生物质废能转换的农村化工园区综合能源系统低碳调度方法,通过利用富余可再生资源产生绿氨,考虑碳-氨耦合过程,将绿氨与碳捕集设备联合运行促进化工生产,同时利用生物质能替代燃煤发电,三者构建化工园区联合生产单元,进而降低园区碳排放及运行成本。首先,建立电转氨两阶段模型和生物质废能转换模型及其能流关系。其次,构建化工园区联合生产单元,分析其电、热、气以及碳能量耦合特性。再次,引入有机朗肯循环(organic Rankine cycle,ORC)余热发电和负荷侧综合需求响应,综合优化化工园区联合生产单元。最后,以化工园区运行总成本最低为目标,通过不同场景对比分析证明所提调度方法对化工园区有较好的改善作用,可为农村产业结构调整和能源转型提供理论支持。

考虑绿色化工的工业园区微电网多层规划方法

针对该背景下工业园区绿色微电网的规划方法进行研究,从分布式电源、多能互补等角度建立微电网基础,引入氢、氨等绿色化工产业增加绿电消纳途径,推进低碳减排进程。以多层规划方法解决该复杂规划问题,上层以经济性指标优化冷热电联供系统的设备容量;中间层从清洁利用角度配置氢、氨等制气设备;下层考虑系统的协调运行能力,优化灵活性较差的燃气轮机的运行特性。最终通过单纯形法将该规划问题线性化,并以Matlab的Cplex求解器进行计算。最后以某钢铁厂工业园区为仿真算例,结果表明考虑氢氨利用的微电网系统减碳效果明显,并带来了一定的节支收益和经济效益。

氨-柴油双燃料船用低速机温室气体排放特性分析

针对一台低压喷射二冲程船用发动机进行三维全尺寸模拟,研究了引燃策略和掺混氢气对氨-柴油双燃料低速机燃烧及排放特性的影响.结果表明:提高引燃油能量占比(1.5%)、增加预燃室数量(3个/缸)可有效强化预燃室射流引燃能力,改善氨燃烧性能,实现高效引燃与快速燃烧;提高主燃室内氢气掺混比,可增加缸内OH等活性自由基,提升氨燃烧的强度,通过稀燃工况下掺氢反应活性调控改善了NO_(x)及N_(2)O排放;综合比较,相同的循环总能量输入工况下,在指示热效率水平相当、NO_(x)满足TierⅢ排放法规的前提下,采用氨燃料时当量CO_(2)排放(19.0 g/(kW·h))相对于天然气(393.0 g/(kW·h))降低约95.0%,在氨燃料中掺混10%(能量分数)氢、过量空气系数φa为3.4,当量CO_(2)排放(4.7 g/(kW·h))相对于天然气降低约98.8%,实现近零碳排放.

超声波对镉冲击下的短程硝化污泥特性影响

本文旨在探讨超声波对短程硝化性能及镉(Cd)抑制下污泥特性的影响。通过6个SBR装置实验,发现超声辐照能显著降低出水氨氮浓度,提升氨氮去除率。在特定声能密度下,污泥TB-EPS蛋白质含量增加,AOB脱氮速率提升,而NOB活性降低。添加重金属镉后,SAOR(氨氧化)与SNOR(亚硝酸盐氧化)速率均受抑制。随着声能密度增加,AOB活性增强,NOB活性减弱。本研究揭示了超声辐照对污泥处理中硝化过程的调控作用,并发现其在重金属镉抑制下对硝化细菌活性具有选择性影响,有助于优化短程硝化工艺。

钼精矿氧化焙烧-酸浸预处理后焙砂的氨浸工艺研究

钼精矿经氧化焙烧-酸洗处理后,焙砂杂质元素减少,钼得到显著富集。针对除杂后的焙砂,采用氨水进行浸出,研究氨浸过程钼浸出的影响因素。结果表明,焙砂氨浸的最佳条件下,温度为60℃,氨浸时间为30 min,液固比为3.5~4.0,pH为8.5~9.0。焙砂氨浸浸出率可超过98.6%,氨浸渣率约为16%,氨浸渣含钼量为3.5%左右。氨浸渣中残存的钼主要为焙烧过程中未被氧化的MoS2,其他主要为脉石,氨浸渣真比重为2.85 g/cm^(3)。氨浸液含钼量为140~150 g/L,还含有少量的Fe与Cu,氨浸液比重为1.15~1.18 g/cm^(3)。

DN-PN/A耦合处理低氨氮电镀尾水研究

以物化预处理后的电镀工业园区尾水为处理对象,构建了中试规模连续流形式的反硝化-部分亚硝化-厌氧氨氧化多单元反应器,前置反硝化TIN和COD的去除率为(29.96±10.37)和(73.33±9.6)%,大量溶解性有机物被去除,减少了污染物对后续单元的冲击.亚硝化单元验证了沸石填料的方法有助于实现稳定亚硝化,NAR达到(87.73±22.28)%,长期运行过程中会受水垢影响,水垢清除后性能可恢复.厌氧氨氧化单元为主要脱氮单元,在亚硝化单元失衡情况,依靠AOB与DNB和AnAOB协同作用,能够贡献TIN去除(41.25±14.46)%.微生物高通量测序结果表明,亚硝化反应器检出AOB功能菌Nitrosomonas,相对丰度为5.45%,Anammox功能菌Candidatus Anammoxoglobus,其相对丰度达到25.91%.本文为厌氧氨氧化工艺工程化应用提供理论与实践基础.

利用新型红酵母苯丙氨酸解氨酶制备低苯丙氨酸酪蛋白

【目的】挖掘高活性、高稳定性的苯丙氨酸解氨酶(EC 4.3.1.24;penylalanine ammonia-lyase,PAL),为后续在制备无(低)苯丙氨酸特膳食品的应用奠定基础。【方法】从胶红酵母(Rhodotorula mucilaginosa)和双倒卵形红酵母(Rhodotorula diobovata)中克隆到基因RmPAL和RdPAL,并通过生物信息学分析两个酶的序列和结构特征;在大肠杆菌中异源表达纯化RmPAL和RdPAL蛋白,测定最适反应条件和底物特异性;通过高效液相色谱和苯丙氨酸试剂盒测定了RmPAL和RdPAL转化酸解酪蛋白(casein acid hydrolysate,CAH)中苯丙氨酸(L-phenylalanine,L-Phe)的能力。【结果】RmPAL和RdPAL是真菌来源的PAL,分别由3个结构域组成:MIO结构域(MIO domain)、核心结构域(core domain)和屏蔽结构域(shielding domain),活性中心具有催化氨基酸Tyr和底物特异性特征氨基酸His;RmPAL和RdPAL在溶液中均以四聚体形式存在,两个酶的最适pH和最适温度均为8.9和50℃,且具有较宽泛的pH和温度稳定性,优于黏红酵母来源的商用PAL酶;此外,两种酶均能催化L-Phe和酪氨酸(L-tyrosine,L-Tyr)反应,且对L-Phe的催化效率较高,约为L-Tyr的5倍,脱除酸解酪蛋白中L-Phe的转化率分别为88%和93%。【结论】RmPAL和RdPAL具有较强稳定性和L-Phe水解偏好性,可从食源蛋白中有效去除L-Phe。