Study on Curative Effect of Perforated Injection of Zinc-ammonia Complex on Rosette Disease of Fruit Tree

[ Objective ] The paper was to explore a kind of zinc preparation suitable for injection on trees with fast, efficient and safe cure effect on physiological disease of zinc deficiency. [Method] Taking three years old apple, pear, peach and grape trees as the materials, the author studied the absorption condition of these trees to six kinds of zinc substances and their security. The sealed curative effects of the injected zinc substances which were harmful and could be absorbed steadily by the fruit trees against rosette disease were studied. [ Result] The results of absorption condition and security experiments showed that only zinc-mmnonia complex could be absorbed steadily and safely throughout four seasons. When apple, pear, peach and grape trees affected by rosette disease were injected with zinc- ammonia complex, the leaves of those trees started to grow obviously after 10 d; the internodes of diseased branches elongated, the leaves turned bigger, and the ap- pearance of branches became normal after about 25 d. [ Conclusion] The curative effect of perforated injection of zinc-ammonia complex on fruit tree rosette disease was remarkable. The results also provided a new way for the cure of deficiency diseases of other trace elements.

Characterization and performance of Cu/ZnO/Al_2O_3 catalysts prepared via decomposition of M(Cu,Zn)-ammonia complexes under sub-atmospheric pressure for methanol synthesis from H_2 and CO_2

Methanol synthesis from hydrogenation of CO2 is investigated over Cu/ZnO/Al2O3 catalysts prepared by decomposition of M（Cu,Zn）-ammonia complexes （DMAC） at various temperatures.The catalysts were characterized in detail,including X-ray diffraction,N2 adsorption-desorption,N2O chemisorption,temperature-programmed reduction and evolved gas analyses.The influences of DMAC temperature,reaction temperature and specific Cu surface area on catalytic performance are investigated.It is considered that the aurichalcite phase in the precursor plays a key role in improving the physiochemical properties and activities of the final catalysts.The catalyst from rich-aurichalcite precursor exhibits large specific Cu surface area and high space time yield of methanol （212 g/（Lcat·h）;T=513 K,p=3MPa,SV=12000 h-1）.

Treatment of nickel-ammonia complex ion-containing ammonia nitrogen wastewater

Air stripping was adopted to treat nickel ammonia complex ion-containing wastewater in order to remove nickel and ammonia simultaneously in one technological process.The relationship among pH,the concentration of nickel ammonia complex ion and total ammonia concentration was analyzed theoretically.Influence of pH value,water temperature,airflow rate and time on air stripping was studied in detail by static experiment in laboratory.The results show that at pH 11,temperature of 60℃and airflow rate of 0.12 m3/h,NH3 and Ni 2+concentrations remained in wastewater are less than 2 and 0.2 mg/L,respectively,after blowing for 75 min,which reaches the standard of the state discharge.When the tail gas is absorbed by 0.5 mol/L H2SO4 in order to avoid the secondary pollution,the absorption rate can achieve 70%.

Study on the mechanism of copper-ammonia complex decomposition in struvite formation process and enhanced ammonia and copper removal

Heavy metals and ammonia are difficult to remove from wastewater,as they easily combine into refractory complexes.The struvite formation method（SFM） was applied for the complex decomposition and simultaneous removal of heavy metal and ammonia.The results indicated that ammonia deprivation by SFM was the key factor leading to the decomposition of the copper-ammonia complex ion.Ammonia was separated from solution as crystalline struvite,and the copper mainly co-precipitated as copper hydroxide together with struvite.Hydrogen bonding and electrostatic attraction were considered to be the main surface interactions between struvite and copper hydroxide.Hydrogen bonding was concluded to be the key factor leading to the co-precipitation.In addition,incorporation of copper ions into the struvite crystal also occurred during the treatment process.

微生物诱导碳酸盐沉淀修复铜污染黄土的试验研究

利用微生物诱导碳酸盐沉淀修复重金属污染场地是一种具有较大潜力和应用前景的修复技术。然而,由于在生物矿化应用于西北地区污染场地时黄土中富含的碳酸盐、各种矿物以及周围环境酸碱度(pH值)对重金属赋存形态影响甚剧,其中的内在影响机制仍有待更进一步的探究。通过一维土柱试验考虑不同Cu(II)浓度(500、2000 mg/kg和4000 mg/kg)来制备污染黄土试件,后通过注入不同体积(50m L和100m L)的细菌胶结液对其进行修复,以Tessier顺序提取、土壤pH值测量和X射线衍射(X-ray diffraction,XRD)分析不同深度土样的修复效率。结果表明,注入细菌胶结液可将可交换态的Cu转变为生物毒性更低的赋存形态(比如碳酸盐结合态Cu),然而当Cu(II)浓度较低(500 mg/kg)时,未见类似的Cu赋存形态转变。因为土柱不同深度土样Cu赋存形态的转化与周围环境pH值紧密相关,且pH值与注入细菌胶结液的体积呈正比关系,碱性环境进一步促进了Cu和黄土中矿物的配位吸附,但是当碱性环境进一步提高时,修复效率因铜氨络合物的生成而显著降低。这些发现强调了将微生物诱导碳酸盐沉淀(microbially induced carbonate precipitation,MICP)技术应用于铜污染场地复原治理的潜力。

铜氨络合粘胶纤维的制备及其抗菌性能

利用铜氨溶液对粘胶纤维进行处理,制备了铜氨络合粘胶纤维。分析了铜氨溶液浓度、反应时间对Cu^(2+)结合量的影响。通过SEM、XRD和XPS表征了粘胶纤维的形貌与化学结构,测试了不同Cu^(2+)结合量下铜氨络合粘胶纤维的抑菌性及耐水洗性能。结果表明:随着铜氨溶液浓度的提高,Cu^(2+)结合量迅速增加;当溶液浓度达到25.00 mmol/L时,Cu^(2+)结合量达到最大值;反应30 min,即可达到络合平衡。铜氨溶液处理后,Cu^(2+)与粘胶纤维的羟基发生配位络合反应,纤维纵向分布着络合物小颗粒,形貌变粗糙,横向截面变化较小;纤维化学结构无明显改变。铜氨络合粘胶纤维显示出较好的抗菌性能,当铜氨溶液浓度达到0.30 mmol/L时,对大肠埃希菌和金黄葡萄球菌的抑菌率分别为97.80%和99.33%,经50次标准水洗后,抑菌率分别为83.40%和86.51%。

功能化聚离子液体的制备及气体吸附性能——大学化学综合性实验的教学探索

介绍一个半开放式、研究型的大学化学综合性实验——功能化聚离子液体的制备及气体吸附性能。内容包括聚离子液体的合成、聚离子液体的功能化及材料的结构和形貌表征,选择性吸附氨气性能的测试等。通过本实验的实践,提高学生的实验操作技能和综合应用专业知识解决实际问题的能力;促进学生了解科研前沿,激发对科学研究的兴趣。在科教融合的教育背景下,通过利用科研反哺教学的方式,将科研成果运用于化学综合实验以实现科研与教学的统一。

固定化复合菌群处理氨氮废水的影响研究

随着能源经济的发展,城市人口的增长以及水环境面临的复杂形势,高浓度氨氮废水直接排放进入水体容易引发海水赤潮和湖泊水发生水华现象,而且高浓度氨氮废水中含有的亚硝酸盐容易使人体致癌、致病、致畸。为进一步遏制水体富营养化,解决高浓度氨氮废水带来的环境问题,我国将氨氮纳入主要污染物总量控制指标。以相关生物反应器为手段,以畜禽废水为处理对象,将复合菌剂与固定化材料相结合,考查固定化复合菌在不同pH、不同温度、不同初始浓度的影响下对高浓度氨氮废水的处理效果。设置pH为8,温度为30℃,初始浓度为400 mg/L时为最佳条件,该条件可满足畜禽废水出水氨氮标准。

镁铁镍复合氧化物的制备及其催化氨分解性能研究

采用溶胶凝胶法制备了不同计量比的镁铁镍复合金属氧化物,考查了其催化氨分解性能,结合一系列表征对催化剂构效关系进行了探讨。结果表明,复合金属氧化物催化活性明显高于传统的负载型非贵金属催化剂,Ni/Fe摩尔比的增加和碱土金属Mg的引入都有助于催化活性的增强,其中Mg_(0.2)Ni_(0.2)O_(n)在600℃时即达到96.9%的氨转化率。基于溶胶凝胶法制备复合金属氧化物具有微观形貌均一以及表面各种元素均匀分布的特点是其高活性的重要原因。

Formation of black nickel in leaching solution containing ammonia and chloride

The black nickel formation process in leaching solution containing ammonia and chloride was investigated in terms of cyclic voltammetric and galvanostatic reduction techniques. The structure of black nickel was examined by means of X-ray diffraction technique. The results show that in the scanning region, two oxidization current peaks are observed during the positive sweep, one of which is attributed to a valence state transformation of Ni（OH）2 to high valence nickel compound（black nickel）, and the other is caused by nitrogen evolution. During the formation process of black nickel, γ-NiOOH probably tends to self-discharge with water to form α-Ni（OH）2. As a result, it is observed that Ipa/Ipc(Ipa—anodic peak current; Ipc—cathodic peak current) maintains at a constant with the scanning rate increasing. Two reduction current peaks in cyclic voltammogram and two potential plateaus in galvanostatic reduction curve for black nickel are ascribed to the reduction of various oxidization states of nickel oxide. The potential plateaus at about 0.75 V reach the maximum in galvanostatic reduction curves. Black nickel presents amorphous structure.

柔性湿度传感器低温直写制备

三维导电结构的低温、高结合力直写喷印是柔性电子复合器件制造应用所面临的挑战。本文基于银氨络合机理制备出可用于三维导电结构成型的无颗粒直写溶液,克服了金属颗粒团聚的问题,做到了长期保存。50℃低温烧结条件下,银氨络合溶液制备的导电纤维与银纳米颗粒溶液制备的导电纤维相比导电性能优异,电阻低至365Ω/mm。银氨络合溶液直写制备的纤维结构与柔性基底之间有着强附着性,并具备良好的自堆叠特性,可以通过调节纤维堆叠层数在10层到50层变化,控制导电纤维的电阻在6.7~34.1Ω/mm范围内改变。在不同饱和盐溶液建立的湿度环境下,对基于银氨络合溶液设计的湿度传感器进行测试,传感器展现出良好的湿度响应性能,迟滞低至3.2%,同时在湿度循环变化下实时响应效果优良。无颗粒直写溶液在制备柔性电子产品方面有着可观的前景,并且在运动检测和健康管理等领域有广泛的应用。

具有氨氮降解能力的海洋芽孢杆菌的筛选及其降解能力研究

为筛选能降解氨氮的芽孢杆菌并应用到养殖海水的净化中,以解决高密度养殖带来的氨氮超标问题,本研究利用硫酸铵为唯一氮源的筛选培养基,从烟台周边海域分离到61株能利用氨氮的菌株,复筛得到两株具有较高氨氮降解能力的芽孢杆菌菌株X6和X37。在氨氮初始浓度为63.27 mg/L的培养基中,X6和X37的48 h氨氮去除率分别为61.02%、50.96%,在氨氮初始浓度为27.00 mg/L的培养基中两者48 h氨氮去除率分别为35.30%、35.53%。通过形态特征、生理生化特征和16S rDNA序列比对,鉴定菌株X6为花津滩芽孢杆菌(Bacillus hwajinpoensis),菌株X37为巨大芽孢杆菌(Bacillus megaterium)。菌株X6的最适降解条件为温度32℃、pH 7.0、转速170 r/min,菌株X37的最适降解条件为温度27℃、pH 6.0、转速170 r/min,且两株菌在48 h的氨氮去除速率最高。两株菌的最佳复配比为1∶1,此比例下的复合菌剂在氨氮初始浓度约为27.00 mg/L、温度为30℃、pH 6.5、接种量6%、170 r/min时,48 h的氨氮去除率为54.768%,且该复合菌剂能同时去除培养基中的亚硝态氮和硝态氮。

关于不同制冷系统应用于冷库的探讨

随着社会经济的不断发展,冷库储存在人民生活中有着重要的价值。当前冷库中的制冷系统有氟利昂制冷系统、氨制冷系统和复叠式制冷系统,如何结合实际的制冷需要有效选择不同的制冷系统,是当前冷库建设中需要考虑的关键问题。阐述了氟利昂制冷系统、氨制冷系统和复叠式制冷系统的特点,同时分析各自的优缺点,并提出不同系统的优化措施,以期满足冷库的制冷需要,实现健康发展。

无氨氮浸出离子型稀土工艺研究

为解决稀土工业开采产生严重的水体氨氮污染问题,以强化浸取离子相和还原浸取胶态相为出发点,提出抗坏血酸协同K2SO4浸出离子型稀土技术。结果表明,在K2SO4用量20g/L,滴淋速度0.8mL/min,抗坏血酸用量1.2g/L,初始pH值为2.5,浸出液用量(mL)与稀土矿用量(g)比为0.55∶1等实验条件下,稀土浸出率可达93.35%,为无氨浸出稀土的工业化生产提供参考。

不同微生物制剂对恶臭水体中氨氮去除效果的比较

实验选取了菌有效生物群(EM)、复合芽孢杆菌(F)和硝化细菌(X)三种微生物制剂,通过不同投加量的单类菌群投放实验和不同菌剂组合的复合菌群投放实验,探究不同处理对氨氮的去除效果。结果表明:(1) EM菌、复合芽孢杆菌、硝化细菌最佳投加量分别为5g/L、3.75g/L和2.5g/L,对应的有效活菌数分别为1500亿CFU/L、3750亿CFU/L和500亿CFU/L。(2)三种菌剂最佳投加量的氨氮去除率表现为EM菌>硝化细菌>复合芽孢杆菌,去除率分别为69.3%、67.5%、40.2%。(3)复合菌群投放最优组合为5g/L(有效活菌数1500亿CFU/L)的EM菌和投加2.5g/L(有效活菌数500亿CFU/L)的硝化细菌,其氨氮去除率为51.7%,显著大于其它组合的去除率,但弱于单类菌群的去除率。

氨络合物体系电积锌的阴极过程

采用CHI650电化学工作站测定了在锌氨络合物体系中锌电沉积的稳态阴极极化曲线及电流—时间暂态曲线。结果表明:锌的阴极电结晶过程是以瞬时成核方式进行的,随外加电位负移,晶体的向外生长速率增大;添加剂的加入不会改变锌阴极电沉积的成核方式,但将大大减小晶体的向外生长速率。通过对不同NH3浓度下测得的阴极极化曲线的分析,可获得各条件下的平衡电位,以及阴极过程动力学参数(交换电流密度J0、传递系数α),进而推导出溶液中存在的主要离子为Zn(NH3)2+4,在阴极直接放电的络离子为Zn(NH3)2+2。

氨络合物体系中镍在玻璃碳上的电化学成核机理

采用循环伏安法和计时电流法研究了氨络合物体系中镍在玻璃碳上电结晶的初期行为。结果表明 ,镍在该基体上的沉积没有经历UPD过程 ,镍的电沉积经历了晶核形成过程 ,在所研究的外加电位范围内其电结晶按连续成核和三维生长方式进行 ,外加电位对晶体生长具有显著的影响。通过分析恒电位暂态曲线 ,求出镍离子的扩散系数D ,以及不同外加电位下的饱和晶核数密度Nsat。

新型双功能Cu(Ⅰ)/沸石羰基化催化剂的制备与表征

报道了双功能Ｃｕ（ Ⅰ）／ 沸石羰基化催化剂的制备及其ＦＴＩＲ 和ＸＰＳ表征结果． 催化剂兼具酸性和金属羰基两类活性中心，能够在较温和的条件（ ～５２３ Ｋ， 常压） 下催化醇与ＣＯ的羰基化合成反应． 以异丁醇为原料时，其Ｃ５ 羧酸和异戊酸异丁酯的总收率可达２０－４ ％ ． 催化剂的ＸＰＳ和ＩＲ表征结果证实，铜以Ｃｕ（ Ⅰ） 价态存在，吸附ＣＯ后，形成金属羰基活性中心Ｃｕ（ＣＯ） ＋２ ． 可能的反应机理是： 母体沸石Ｈβ或ＨＺＳＭ５ 中的酸性中心使醇质子化，形成碳正离子，随后邻近的金属羰基中心Ｃｕ（ＣＯ）＋２ 提供ＣＯ， 协同催化使之生成羧酸或最后转变为羧酸酯．

用MATLAB编程求解Zn(Ⅱ)-NH_4Cl-NH_3-H_2O体系热力学模型

应用MATALAB语言编写程序建立Zn(Ⅱ)-NH4Cl-NH3-H2O体系的多元非线性热力学模型并求解其热力学关系. 模型中共有pH值、游离氨浓度、总氨浓度、溶液中总锌浓度、总氯浓度和游离氯离子浓度 6个变量, 共有锌量、氨量、氯量和电荷平衡4个方程. 根据电算指数法, 模型中各离子浓度之间服从对数和指数关系. 输入需求解的方程及其边界条件, 求出总氨浓度和总氯浓度分别在0～10 mol/L范围内变化时, 其他未知数随之变化的关系, 并绘制各种重要的热力学关系图, 包括各种立体图和二维图. 对用MATLAB求解模型和用BASIC求解模型的所得结果以及与氧化锌溶解度实验所得结果之间的差异进行分析. 结果表明, 用MATLAB编程求解冶金多元非线性热力学模型, 过程简单, 所得结果精确可靠, 根据计算所得数值可方便地绘制成各种图形, 便于进行冶金分析.

六方BN微颗粒表面化学镀镍

研究了以肼为还原剂、氨为配合剂的六方BN微颗粒表面化学镀纯镍反应新体系. 热力学计算表明,此镀镍体系是可行的. 实验发现,新的镀液体系比传统酒石酸盐镀液体系具有更好的热稳定性和化学稳定性. 镀层的XRD分析表明,不同体系镀层相结构相同. SEM观测和EDS分析显示,新体系镀层更为致密.