阿灭净在菠萝与土壤中的残留及消解动态研究

采用气相色谱(GC-NPD)分析技术测定除草剂阿灭净在菠萝与土壤中的残留及消解动态结果表明,GC-NPD方法的最小检出量为0.0232ng,菠萝及土壤的最小检出浓度分别为0.002mg/kg和0.005mg/kg,GC-NPD方法回收率分别为87.23%~92.10%和88.80%~93.77%。喷施阿灭净80%WP4800g(a.i/)hm2,处理检测出菠萝与土壤中原始沉积量分别为0.1448~0.1646mg/kg和3.3318~3.5536mg/kg,消解半衰期分别为29.17~29.45d和25.75~30.68d,按阿灭净用量4800g(a.i/)hm2施药菠萝1次,间隔期为10d,菠萝果实残留量2年分别为0.1646mg/kg和0.1448mg/kg,参照欧共体的MRL值0.2mg/kg,按上述阿灭净剂量方法施用菠萝是安全的。     

A simple gas chromatographic approach to evaluate CO2 release,N2O evolution,and O2 uptake from soil

Summary We have developed a simple method for the determination of gaseous compounds that reflect microbial activity in soil, as affected by factors such as the presence of an organic amendment (peat) or a variation in soil moisture. The method is based on a gas chromatographic analysis of the headspace of vials containing the soil under examination. A single gas chromatograph can detect up to 10 different gases. As expected, after peat was added to the soil, CO₂ evolution and O₂ uptake increased significantly. Positive relationships were found between the evolution of N₂O, and soil moisture and the amount of peat added to the soil. Both the these variables influenced the CO₂:O₂ ratio. The results given by this method show high reproducibility.     

Structural studies on soil nitrogen by Curie-point pyrolysis — gas chromatography/mass spectrometry with nitrogen-selective detection

Curie-point pyrolysis-gas chromatography mass spectrometry with N-selective detection was used to characterize the structure of organic N compounds in four mineral soils. The technique was found suitable for the fast, sensitive, and highly specific identification of N-containing pyrolysis products from whole soils with total N contents between 0.08 and 0.46%. In order to optimize the methodology, one agricultural soil was pyrolyzed at final temperatures of 573, 773, and 973 K. Almost no chemical alterations to identifiable pyrolysis products were observed when the final pyrolysis temperature was increased from 573 to 973 K. More than 50 N-containing pyrolysis products were identified, and were divided into compound classes chracterized by specific molecular-chemical structures. These included pyrroles, imidazoles, pyrazoles, pyridines, pyrimidines, pyrazines, indoles, quinolines, N derivatives of benzene, alkyl nitriles, and aliphatic amines. Three additional soil samples different in origin and N content were analyzed at 773 K and each showed a specific thermosensitive N-selective chromatogram. Many N-containing pyrolysis products were identified in all samples, which indicated general qualitative regularities in the thermal release of N-containing pyrolysis products from the four soils. In the pyrolyzates of the investigated soils a number of compounds were identified, which is usually not detectable in pyrolysis-gas chromatography spectrometry analyses with N-selective detection of plants and microorganisms. Among these were N derivatives of benzene and long-chain alkyl nitriles, which appear to be soil-specific and suggest significant transformations of organic N in soils. Thus, our results contribute to a better understanding of the molecular-chemical structure of unknown N.     

土壤中甲磺隆钠盐残留量的NPLC和GC分析

用液相色谱——紫外检测法和气相色谱——电子捕获检测法分析土壤中超高效除草剂——甲磺隆钠盐的残留量。土壤样品用乙腈提取,提取液用经活化的PT—Si净化柱净化。两种方法回收率分别达到96.9％和97.0％。     

废弃的植物培养基厌氧发酵产气潜力研究

[目的]弄清废弃植物培养基厌氧消化潜力与特性.[方法]以废弃的植物培养基为发酵原料,以沼气池底部的活性污泥为接种物,在常温条件下进行了批式厌氧消化试验,研究了废弃的植物培养基与接种污泥各处理厌氧消化的产气速率、潜力和产气量.[结果]常温条件下,混合培养基与接种污泥的TS比例为8∶1、浓度12％的处理,产气量最高,为10 391.3 ml,并且发酵天数为5d左右,发酵速度较快,产气效果最好;混合培养基与接种污泥的TS比例为6∶1、浓度8％的处理,原料产气率最高,为0.230 m3/kg,并且发酵天数为4d左右,说明原料被利用的水平高.[结论]该研究为植物组培工厂废弃物的处理和配套沼气工程的工艺设计提供了科学依据.     

荔枝酒香气成分的GC/MS分析

利用溶剂萃取法对荔枝酒中的挥发性成分进行提取,采用气相色谱-质谱(GC/MS)技术对其分析,经过NIST02谱库检索对比,在荔枝酒中共检测出68个峰,鉴定出67种化合物。醇类和酯类是荔枝酒中香气贡献最大的两类化合物。初步得出该荔枝酒中的特征香气化合物为β-里哪醇、香叶醇和2,6-二甲基-7-辛烯-2-醇。     

包装材料与气体组分对磨盘柿贮藏的影响

采用ＭＡ贮藏法，对脆柿在长期贮藏过程中自行脱涩保脆状况进行了观测。对柿果包装材料及方法、气体组分最佳比例、氧与乙烯吸收剂的作用以及柿果褐变进行了分析探讨。结果表明：柿果贮藏以０．１０ｍｍ聚乙烯为包装材料，采用四果小包装，加入适量氧吸收剂和乙烯吸收剂，包装袋内ＣＯ_２与Ｏ_２比例尽快达到２：１以上，可使磨盘柿贮藏期达８０ｄ以上，硬果率为９０％，无涩味，无污染，色泽鲜艳，风味纯正，商品率达９８％。     

微纳米气泡技术的研究进展及其在果蔬采后的应用

微纳米气泡（micro-nano-bubbles，MNBs）技术具有比表面积大、气体溶解能力强、表面带有Zeta 电位等特性，在环境治理、清洗、生物医学及农业等领域具有较强研究意义和应用前景。微纳米气泡技术与臭氧（O₃）、二氧化碳（CO₂）、1- 甲基环丙烯（1-MCP）等气体结合可用于果蔬采后非化学洗涤与保鲜，其中臭氧微纳米气泡、二氧化碳微纳米气泡处理通过减少有害微生物数量达到保鲜目的，1-MCP 微纳米气泡通过抑制乙烯生成延长果蔬保鲜期。本文综述了微纳米气泡技术的研究进展及其在果蔬采后的应用，以期为后续推广应用提供理论依据。     

西气东输二线工程的设计管理问题

西气东输二线项目规模庞大,面对众多的业务接口和信息接口,极易在设计质量、设计进度、配合施工、变更处理等方面出现问题。例如:下游用户分输量和分输口变化,设备资料不完备,运行单位在施工阶段对设计提出修改意见,地方规划导致路由确定困难,与地方协调能力欠缺,初设和地质勘察深度不够,专项评估和文件报批周期长等。同时,施工图设计漏项、地质勘探不详、设计不细,设计勘察分包缺乏有效的资质审查和管理,不及时执行集团公司的标准要求,设计联合体各单位之间缺乏有效的沟通与协调,设计单位工作效率低,图纸设计变更频繁等问题,均对施工进度和施工成本产生较大影响。基于对项目实施过程中设计管理问题的梳理和剖析,提出设计改进的可行性建议。