瞬时NH_(4)^(+)-N冲击对SBR系统污染物去除的影响

探究了瞬时NH_(4)^(+)-N冲击对SBR系统污染物去除效果的影响,在反应运行的第19、33、45天,通过提高单周期瞬时NH_(4)^(+)-N质量浓度至41.05、60.02、80.15 mg/L,对SBR系统进行冲击。结果表明,进水NH4+-N质量浓度从41.05 mg/L增加到80.15 mg/L时,COD、TP、NH_(4)^(+)-N去除效果没有明显变化,TN出水质量浓度从10.25 mg/L增加到21.49 mg/L,TN的出水变高主要受碳源不足的影响。三次瞬时NH4+-N冲击负荷下,NH4+-N降解速率基本不变。三次瞬时NH_(4)^(+)-N冲击负荷下,SBR系统中EPS总量对比常负荷运行时,均有所提高,且PN的含量在增加,PS的含量先升高后降低。而PN和PS含量的变化,在一定程度上会对活性污泥的絮凝造成影响,导致活性污泥粒径逐渐减少。系统在受到瞬时NH_(4)^(+)-N冲击后,TN出水会有所提高,但是经过一个周期的运行便可以恢复。

Impact of fertilization on chestnut growth, N and P concentrations in runoff water on degraded slope land in South China

Growing fruit trees on the slopes of rolling hills in South China was causing serious environmental problems because of heavy application of chemical fertilizers and soil erosion. Suitable sources of fertilizers and proper rates of applications were of key importance to both crop yields and environmental protection. In this article, the impact of four fertilizers, i.e., inorganic compound fertilizer, organic compound fertilizer, pig manure compost, and peanut cake （peanut oil pressing residue）, on chestnut （Castanea mollissima Blume） growth on a slope in South China, and on the total N and total P concentrations in runoff waters have been investigated during two years of study, with an orthogonal experimental design. Results show that the organic compound fertilizer and peanut cake promote the heights of young chestnut trees compared to the control. In addition, peanut cake increases single-fruit weights and organic compound fertilizer raises single-seed weights. All the fertilizers increased the concentrations of total N and total P in runoff waters, except for organic compound fertilizer, in the first year experiment. The observed mean concentrations of total N varied from 1.6 mg/L to 3.2 mg/L and P from 0.12 mg/L to 0.22 mg/L, which were increased with the amount of fertilizer applications, with no pattern of direct proportion. On the basis of these experiment results, organic compound fertilizer at 2 kg/tree and peanut cake at 1 kg/tree are recommended to maximize chestnut growth and minimize water pollution.

Effects of COD/N ratio and DO concentration on simultaneous nitrification and denitrification in an airlift internal circulation membrane bioreactor

The effects of chemical oxygen demand and nitrogen(COD/N)ratio and dissolved oxygen concentration(DO)on simultaneous nitrification and denitrification(SND)were investigated using an airlift internal circulation membrane bioreactor(AIC-MBR)with synthetic wastewater.The results showed that the COD efficiencies were consistently greater than 90% regardless of changes in the COD/N ratio.At the COD/N ratio of 4.77 and 10.04,the system nitrogen removal efficiency became higher than 70%.However,the nitrogen remova...

二氧化碳倍增对植物叶片^(15)N自然丰度的影响

大气CO_(2)浓度上升通常会提高植物生产力并伴随叶片氮含量的下降。然而大气CO_(2)如何影响叶片^(15)N丰度及其相关机理还不清楚。以小麦和向日葵为实验材料,测定了两个CO_(2)浓度(410与820μmol•mol^(-1))处理下叶片的氮同位比值(δ^(15)N)和氮含量。结果表明:小麦和向日葵叶片氮含量随CO_(2)浓度升高呈下降趋势,然而δ^(15)N对CO_(2)浓度倍增的响应存在差异。在高CO_(2)浓度处理下小麦叶片δ^(15)N显著下降6.5‰,而向日葵叶片δ^(15)N小幅上升2.1‰,且叶片和地上部生物量显著增加。基于此,小麦的氮营养特征符合氮同化受限假说,而向日葵符合稀释效应假说。小麦叶片δ^(15)N随叶龄或者细胞年龄的增加而显著下降,因此在利用^(15)N来研究植物氮代谢时需要区分叶龄的影响。整合分析结果表明,CO_(2)浓度升高导致非豆科C_(3)植物的δ^(15)N显著下降达0.3‰,与小麦的研究结果相符。综上所述,限制硝态氮同化是CO_(2)影响植物氮代谢和^(15)N丰度的重要机制。

Effect of nitrogen and phosphorus addition on leaf nutrient concentrations and nutrient resorption efficiency of two dominant alpine grass species

Nitrogen(N)and phosphorus(P)are two essential nutrients that determine plant growth and many nutrient cycling processes.Increasing N and P deposition is an important driver of ecosystem changes.However,in contrast to numerous studies about the impacts of nutrient addition on forests and temperate grasslands,how plant foliar stoichiometry and nutrient resorption respond to N and P addition in alpine grasslands is poorly understood.Therefore,we conducted an N and P addition experiment(involving control,N addition,P addition,and N+P addition)in an alpine grassland on Kunlun Mountains(Xinjiang Uygur Autonomous Region,China)in 2016 and 2017 to investigate the changes in leaf nutrient concentrations(i.e.,leaf N,Leaf P,and leaf N:P ratio)and nutrient resorption efficiency of Seriphidium rhodanthum and Stipa capillata,which are dominant species in this grassland.Results showed that N addition has significant effects on soil inorganic N(NO_(3)^(-)-N and NH_(4)^(+)-N)and leaf N of both species in the study periods.Compared with green leaves,leaf nutrient concentrations and nutrient resorption efficiency in senesced leaves of S.rhodanthum was more sensitive to N addition,whereas N addition influenced leaf N and leaf N:P ratio in green and senesced leaves of S.capillata.N addition did not influence N resorption efficiency of the two species.P addition and N+P addition significantly improved leaf P and had a negative effect on P resorption efficiency of the two species in the study period.These influences on plants can be explained by increasing P availability.The present results illustrated that the two species are more sensitive to P addition than N addition,which implies that P is the major limiting factor in the studied alpine grassland ecosystem.In addition,an interactive effect of N+P addition was only discernable with respect to soil availability,but did not affect plants.Therefore,exploring how nutrient characteristics and resorption response to N and P addition in the alpine grassland is important to understand nutrient use strategy of plants in terrestrial ecosystems.

缺口对34CrNi3Mo合金钢的扭转疲劳性能的影响

以船舶主轴为实验对象,研究34CrNi3Mo合金钢作为船舶主轴时法兰与主轴连接处的疲劳寿命.利用实验将法兰与主轴连接处简化成带U型缺口的扭转疲劳试样,基于小样本量中值S-N实验法对应力集中系数为1.45的34CrNi3Mo合金钢在扭转荷载作用下进行疲劳分析,测定其在不同应力幅值下的疲劳寿命并绘制S-N曲线,估算其疲劳极限.将绘制出的S-N曲线与光滑试样的S-N曲线进行对比,结果发现疲劳寿命差别较大.利用ABAQUS软件和Fe-safe软件进行数值模拟,将试验结果与所绘的S-N曲线对比表明,S-N曲线的方程与试验结果很接近,验证了所建立的数值模型的正确性.

Relationship Between the N Concentration of the Leaf Subtending Boll and the Cotton Fiber Quality

This experiments were conducted in Nanjing （118~50＂E, 32~02＂N） and Xuzhou （117~11 ＂E, 34~15＂N）, Jiangsu Province, China, to study the response of fiber quality to the N concentration of the leaf subtending boll in cotton （Gossypium hirsutum L.）. Results suggested that the N dilution curve of the leaf subtending boll can accurately indicate the stage- specific plant N status for fiber development. Fiber strength is likely to be the most variable fiber quality index responding to the leaf N variation which is different in cultivars. Fiber length was the most stable index among strength, length, micronaire, and elongation. There existed an optimum leaf N concentration for fiber strength development in each stage. The optimum leaf N regression curve was very close to the N dilution curve in the middle positional fruiting branches under the 240 kg N ha-1 soil N application rate.

Parametric Equation of Stress Concentration Factor for Circular X-Joints Under Axial Loads

In engineering practice, tubular X-joints have been widely used in offshore structures. The fatigue failure of tubular X-joints in offshore engineering is mainly caused by axial tensile stress. In this study, the stress concentration factor distribution along the weld toe in the hot spot stress region for tubular X-joints subject to axial loads have been analyzed by use of finite element method. Through numerical analysis, it has been found that the peak stress concentration factor is located at the saddle position. Thereafter, 80 models have been analyzed, and the effect of the geometric parameters of a tubular X-joint on the stress concentration factor has been investigated. Based on the experimental values of the numerical stress concentration factor, a parametric equation to calculate the stress concentration factor of tubular X-joints has been proposed. The accuracy of this equation has been verified against the requirement of the Fatigue Guidance Review Panel, and the proposed equation is found capable of producing reasonably accurate stress concentration factor values for tubular X-joints subject to axial loads.

APPLICATION OF NONIONIC TEMPERATURE SENSITIVE HYDROGEL FOR CONCENTRATION OF PROTEIN AQUEOUS SOLUTION

Six different N-alkyl substituted acrylarnide nonionic hydrogels were prepared and their swelling characteristics were measured. Poly N-isopropyl acrylamide (PNIPA) and poly N-n-propyl-acrylamide (PNNPA) temperature sensitive hydrogels were chosen as the nonionic temperature sensitive hydrogels for concentration of very dilute aqueous protein solution. The separation properties of PNIPA and PNNPA hydr0gels with different network dimensions were studied and the modification of the hydrogels was surveyed in order to decrease their surface adsorption of protein molecules. The experimental results of the concentration of BSA (Bovin serum albumin) dilute aqueous solution by hydroxylpropyl methacrylate (HPMA) copolymerized PNIPA hydrogel were given. The value and the limitation of concentration of dilute aqueous protein solution by this method was evaluated.

拉晶工艺参数对N型单晶硅氧含量的影响研究

TOPCon电池基板是以N型硅片为主,N型硅片的氧含量在一定程度上影响着TOPCon电池的转换效率。本文采用直拉法进行单晶硅的拉制,通过调整埚转、氩气流量和炉压来研究拉晶工艺参数对N型单晶硅氧含量的影响。数值模拟分析和实验结果表明:坩埚转速的增加会抑制浮力-热毛细漩涡,减少熔体界面处SiO的挥发,提高硅熔体内部和单晶硅棒氧含量;增大氩气流量和降低炉压可增大熔体界面处SiO的质量流量,有效促进SiO挥发,减少固液界面处氧含量,从而降低单晶硅棒氧含量。根据单晶硅氧含量测试和EL检测结果可知,坩埚转速5 r/min、氩气流量100 L/min和炉压1 200 Pa时拉制的N型单晶硅氧含量最低,电池端同心圆比例也是最低的。本文研究结果可为N型单晶硅棒降氧提供一定思路。

N-甲基二乙醇胺脱碳效果的仿真研究分析

为解决当前合成氨脱碳工艺过程中脱碳效果不佳无法满足0.2%要求的问题,在对MDEA脱碳工艺进行简单概述的基础上,对实际生产中的生产参数进行采集并初步分析了导致脱碳效果不佳的主要问题;而后,基于ASPEN PLUS软件建立MDEA脱碳工艺数值模拟仿真模型,重点对吸收塔压力、MDEA浓度以及贫液量对脱碳效果的影响进行仿真分析,得出最适宜生产参数。

脑脊液乳酸联合血肌钙蛋白I、N末端脑钠肽前体水平对动脉瘤性蛛网膜下腔出血预后有预测价值

目的:探讨脑脊液中乳酸联合血肌钙蛋白I (cTnI)、N末端脑钠肽前体(NT-proBNP)水平对动脉瘤性蛛网膜下腔出血(aSAH)患者预后的评估价值。方法:选择80例aSAH患者,检测并记录患者发病后第1、3、7天脑脊液乳酸浓度,收集患者血常规、肝肾功能、心肌酶、血气分析等指标。3个月后对患者进行随访,根据格拉斯哥预后评分将其分为预后良好组和预后不良组,比较2组患者以上指标,绘制受试者工作特征(ROC)曲线,分析脑脊液乳酸联合血cTnI、NT-proBNP对预后的评估价值。结果:80例患者中预后良好45例,预后不良35例。预后良好组第1、3天脑脊液乳酸浓度明显低于预后不良组(P<0.05),ROC曲线分析显示第1天脑脊液乳酸浓度对aSAH预后的评估效能优于第3天、第7天,曲线下面积(AUC)分别为0.842、0.657、0.533。预后良好组患者血尿素氮、血糖、pH、cTnI、NT-proBNP明显低于预后不良组(P均<0.05),ROC曲线分析显示第1天脑脊液乳酸浓度联合血cTnI、NT-proBNP对预后的评估效能最高,AUC为0.94,灵敏度88.6%,特异性88.9%,优于尿素氮、血糖、pH及单项cTnI和NT-proBNP。结论:脑脊液中乳酸浓度联合血cTnI、NT-proBNP水平对aSAH预后有较高的预测价值。

Effects of leaf N concentration and leaf area index on determining rice tillering

Relative tillering rate(RTR)increased linear-ly with the increasing of leaf N concentration(NLV)has been already reported.To testwhether this relationship could be used toquantitatively explain the difference in tilleringamong a wide range of N application,field ex- periments were conducted at the IRRI farm,Los Banos,Laguna,the Philippines.Two in- dica cultivars,IR 72 and IR68284H wereused.For each cultivar,12 treatments includ- ing 4 N levels(0,60,120,and 180kgN·ha)and 3 transplanting spacing(30×20,20×20,and 10×20cm)were arranged in a ran-domized split-plot design with 4 replications.The N treatments were designated as mainplots and spacings as subplots.Fourteen-day-old seedlings were transplanted with 3seedlings per hill.The subplot area was 20m~2.Nitrogen fertilizer was applied as basal,atmidtillering,and at panicle initiation in threeequal splits.P,K,and Zn were applied asbasal at normal dosage.The field was flooded.Plant samples were taken every 7-14 d from 14d after transplanting to flower

氧气浓度对小麦-玉米轮作农田土壤剖面N_(2)和N_(2)O产生的影响

反硝化过程是集约化农田土壤剖面硝态氮(NO_(3)^(-)-N)去除的重要途径。但对土壤剖面反硝化氮气(N_(2))产生速率的准确定量很难,尤其不同深度的土壤氧气(O_(2))浓度状况如何影响土壤N_(2)的产生仍不清楚。本研究依托集约化管理的冬小麦-夏玉米轮作田间长期定位试验(始于2006年),采集传统施肥处理0~2.5 m剖面的原状土柱,并基于在玉米生长季田间原位观测的不同深度土壤O_(2)浓度和温度状况,设置不同O_(2)浓度水平(15.0%、12.0%、2.5%和0)和培养温度(26℃和20℃),采用氦培养-直接测定N_(2)法测定3个不同深度(0~0.2、0.5~0.7 m和2.0~2.2 m)土壤N_(2)O和N_(2)产生速率。结果显示:无论是有氧还是无氧条件,土壤剖面N_(2)和N_(2)O的产生均表现为表层高于深层;有氧条件下(2.5%~15.0%O_(2))土壤N_(2)产生速率(以N计)为5.3~7.1μg·h^(-1)·kg^(-1)(0.2m)和0.5~2.3μg·h^(-1)·kg^(-1)(0.5 m和2.0 m),显著低于无氧下速率的93.0%~93.7%。同样地,有氧条件下N_(2)O产生速率(以N计)为1.1μg·h^(-1)·kg^(-1)(0.2 m)和<0.2μg·h^(-1)·kg^(-1)(0.5 m和2.0 m),显著低于无氧条件下速率的84.0%~99.1%。原位观测的土壤O_(2)浓度>2.5%(0.2 m和0.5 m)和>14.0%(2m),表明在无氧条件下的观测会高估土壤真实条件下的N_(2)和N_(2)O产生速率。无氧显著增加深层土壤的N_(2)O/(N_(2)O+N_(2))值,这可能是由于深层土壤的碳更加缺乏,不利于N_(2)O被进一步还原。基于有氧条件下观测的N_(2)和N_(2)O产生速率,估算得到玉米生长季(按120d计)剖面0~2.0 m土体的反硝化(N_(2)+N_(2)O)损失量可达219 kg·hm^(-2),表明土壤对其剖面累积的NO_(3)^(-)-N具有很强的脱氮能力,从而极大地减少了包气带累积NO_(3)^(-)-N进一步向地下水迁移的风险。

弧后C_(4)F_(7)N/N_(2)混合气体复原过程研究

C_(4)F_(7)N/N_(2)混合气体是目前潜在替代SF 6的绝缘介质之一。C_(4)F_(7)N/N_(2)混合气体分解与复原过程的研究,对于深入了解该混合气体的熄弧性能具有重要意义。首先,模拟C_(4)F_(7)N/N_(2)混合气体在0.3~30 kK热平衡条件下分解产物粒子浓度的变化;然后,确立C_(4)F_(7)N/N_(2)混合气体的分解路径及粒子种类并计算出各反应的正、逆向速率常数;最后,引用0.1 MPa下C_(4)F_(7)N/N_(2)混合气体弧后温度衰减曲线,作为模拟弧后C_(4)F_(7)N/N_(2)混合气体复原过程中的温度变化数据,通过Chemkin软件计算弧后C_(4)F_(7)N/N_(2)混合气体各粒子的复原过程。模拟结果表明:弧后温度在10 kK以上时C_(4)F_(7)N和N 2在8~10 ms内完全分解,以C、N、F、CF_(2)C、CFCF、NF、CN等粒子和自由基的形式存在;弧后温度降低至2 kK左右,N 2复合至摩尔分数约70%左右,而C_(4)F_(7)N未见复合。

活性污泥-悬浮生物膜系统处理低C/N污水深度脱氮性能

通过农业废弃物玉米芯悬浮生长生物膜的载体,构建了活性污泥-悬浮生物膜混合系统,以SBR工艺运行方式对低浓度低C/N污水的深度脱氮性能进行了研究.探究了挂膜启动阶段系统脱氮效果;在工艺稳定运行后,考察了温度、HRT、DO、进水C/N、进水pH等参数对工艺脱氮性能的影响.经过24 d挂膜后,结合污染物去除情况及镜检显示生物膜挂膜成功.运行结果表明,以预处理后的生活污水作为模拟原水,控制反应温度为26—30℃,HRT=8 h,COD/TN为(4.0±0.1),DO=(2.2±0.1)mg·L^(-1),进水pH=(8.0±0.1)的条件下,系统达到最佳运行条件,COD、NH_(4)^(+)-N、TN平均去除率分别为70.2%、94.8%和80.8%,平均出水COD、NH_(4)^(+)-N、TN浓度分别为14.89 mg·L^(-1)、0.57 mg·L^(-1)和2.40 mg·L^(-1).好氧阶段DO浓度对TN去除率有一定的影响,当好氧阶段DO浓度为(2.2±0.1)mg·L^(-1)时,TN去除率达到峰值84.38%.结果表明,活性污泥-悬浮生物膜混合系统处理低浓度低C/N污水具有优良性能,为低浓度低C/N污水的深度脱氮及玉米芯的资源化利用提供新的思路.

Stepwise Chlorination-Chemical Vapor Transport Reactions for Bastnaesite Concentrate

Vapor phase extraction and mutual separation of rare earth (RE) elements from bastnaesite concentrate were investigated using stepwise chlorination chemical vapor transport reactions mediated by vapor complexes LnAl n Cl 3 n +3 (Ln=RE elements). The bastnaesite was heated to 800 K and chlorinated between 800～1300 K with C+Cl 2+SiCl 4 to remove CO 2, SiF 4 and high volatile chlorides. At the temperature of 1300 K for 6 h, the resulted RE chlorides were chemically transported and mutual separated with the vapor complexes while CaCl 2 and BaCl 2 were remained in the residues. Significantly different CVT characteristics were observed for gradually decreased and wave form temperature gradients.

Te和Y共掺杂提高n-Mg_(3.2)Sb_(1.5)Bi_(0.5)热电性能的研究

Mg_(3)Sb_(2)材料是优秀的中温区热电材料,具有极低的热导率,然而其载流子浓度偏低。通过机械合金化法结合放电等离子烧结(SPS)技术制备n型Mg_(3.2)Y_(0.05)Sb_(1.5)Bi_(0.5)Teδ样品,并研究了其热电传输性能。结果表明阴离子位掺杂元素Te可以进一步提高阳离子位掺杂的Mg_(3.2)Y_(0.05)Sb_(1.5)Bi_(0.5)材料的载流子浓度。载流子浓度从5.02×10^(19)cm-3增加到9.76×10^(19)cm-3,接近理论预测的最佳值,同时功率因子也从10.89μW·K^(-2)·cm^(-1)提高到15μW·K^(-2)·cm^(-1).此外,Te元素进入晶格后,材料的晶格热导率也有大幅的降低,从0.92 W·m^(-1)·K^(-1)降低到0.68 W·m^(-1)·K^(-1).载流子浓度最高的样品在750 K时zT峰值可达1.6,在300~750 K温度范围内的平均zT值可达1.0.本工作证明阳离子和阴离子位共同掺杂对Mg_(3)Sb_(1.5)Bi_(0.5)载流子浓度提高的效果优于单阳离子或单阴离子位掺杂,该掺杂方法有望应用到其它的热电材料性能的优化中。

高进水TN浓度条件下A_(2)O工艺C/N调控研究

北京市某A_(2)O-MBR工艺污水处理厂的进水TN浓度高、有机物浓度低导致出水TN长期超标。为实现出水TN稳定达标开展了原水C/N调控实践研究,提出了采用COD作为C/N调控指标的方法,在进水与投加外碳源的总COD浓度与进水TN浓度的比值控制在5.9~6.98及进水与投加外碳源的总COD浓度与实际去除的TN浓度的比值控制在7.1~8.4时,达到了出水TN稳定达标的效果。同时,提出了在开展C/N调控前应首先根据实际水量调控硝化液回流量、控制回流硝化液中溶解氧,再根据推荐的C/N调控值投加外碳源并根据实际出水TN变化趋势开展动态调整的建议。