An overview of the latest development of microencapsulation for agricultural products

Abstract

For the production of controlled‐release agricultural formulations microencapsulation technologies are now the most used. Over the past two decades enormous progress has been made in order to develop the technologies which allow us to produce formulations tailor made to reach the target and fitting our toxicological requirements. This lecture is devoted to the definition of the criteria for selection of an active ingredient for microencapsulation and to a detailed review of the various techniques used today in commerçai microencapsulated formulations.

Resources are increasingly allocated into microencapsulation research & development by many agrochemical companies. Therefore the next 20 years should continue to yield innovative ideas including significant improvement of the physico‐chemical and toxicological properties of the actual formulations on the market. Some of this new ideas are applied by our company in order to modify or improve those properties playing the key role in the intent for targeted activity:

√ Recombination during production or upon storage.

New protective colloides

Dermal toxicity (LD 50) ‐ secondary protective colloides.

√ Release rate parameters.

Modification by the change of mobility of the active ingredient from the core (solvent or fluid type) affecting transit time and therefore LD 50 values.

√ Oral toxicity (LD 50).

Graft copolymers irreversibly adsorbed to the capsule surface.     

Accidental release: Fuzzy selection of adequate formal model

Risk assessment of a chemical process plant requires the application of a variety of consequence models in order to estimate the potential physical effects of accidental releases. The types of models required vary depending upon the substance under consideration and the circumstances of a release. The objective of this study was the development and application of a system based upon ‘fuzzy logic’, for the selection of a computer model to be used in consequence analysis in specific situations where only certain types of consequence models can be used. The collection of data for modelling purposes from different kinds of computer model and application of fuzzy methods were also important aims of the study.     

Investigation the effect of adding graphene oxide into diesel/higher alcohols blends on a diesel engine performance

ABSTRACT

This article aims to study the influence of the addition of graphene oxide nanoparticles (GO) to diesel/higher alcohols blends on the combustion, emission, and exergy parameters of a CI engine under various engine loads. The higher alcohols mainly n-butanol, n-heptanol, and n-octanol are blended with diesel at a volume fraction of 50%. Then, the 25 and 50 mg/L concentrations of GO are dispersed into diesel/higher alcohols blends using an ultrasonicator. The GO structures are examined using TEM, TGA, XRD and FTIR. The findings show that there is a reduction in p_max. and HRR when adding higher alcohols with diesel fuel. Regarding engine emission, there is a significant improvement in emissions formation with adding higher alcohols. The addition of GO into diesel/higher alcohols blends improves the brake thermal efficiency by 15%. Moreover, the p_max. and HRR are both enhanced by 4%. The CO, UHC and smoke formation are reduced considerably by 40%, 50 and 20%, respectively, while NO_x level is increased by 30% with adding GO. Finally, adding high percentages of n-butanol, n-heptanol, and n-octanol with diesel fuel with the presence of GO has the potential to achieve ultra-low CO, UHC, and smoke formation meanwhile keeping high thermal efficiency level.     

潮湿巷道风流温度与湿度变化规律分析

通过对矿井风流与围岩热湿交换理论的研究,提出理论上更可靠的风流温、湿度计算方法,编制了模拟解算矿井风流与围岩热湿交换的计算机程序,解算出潮湿巷道风流温度及湿度的变化规律,并分析通风时间、湿度系数等参数对风流温度及湿度变化规律的影响;沿风流流动方向,风流温度及湿度不断增加;巷道风流温度及湿度随着通风时间的增加而不断减小,通风时间越长减小的幅度越小;围岩壁面湿度系数对风流温度及湿度的影响较大,其他参数不变时,壁面湿度系数越大,风流温度越小,风流湿度越大。     

液化四氟乙烷小孔泄漏试验研究

采用高速摄影技术,考察了液化四氟乙烷发生小孔泄漏时,其水平泄漏和垂直泄漏的初始云团演化行为、泄漏的质量流率、喷射速度和喷射角,并与理论计算公式进行了对比。结果表明:水平喷射两相云团尾部出现涡流,涡流大幅加快了云团向空气中扩散的速率;垂直喷射的两相云团在地面形成液池,液池大幅增加了液化气体向空气中蒸发的速率。水平泄漏试验的喷射角与容器内超压变化规律相似,泄放初期喷射角逐渐增大,经历一段平坦期,到泄放末期喷射角减小。水平泄漏和垂直泄漏的初始喷射速度分别为25 m/s和20 m/s,与理论值26.6 m/s基本吻合。水平泄漏的质量流率的试验值和理论值分别为0.0598 kg/s和0.0684 kg/s,垂直泄漏的分别为0.0472 kg/s和0.059 6 kg/s,结果对比基本吻合,推荐的泄漏质量流率和小孔喷射速度公式可以用于液化四氟乙烷小孔泄漏。     

对应分析在CFIT事故致因研究中的应用

为揭示可控飞行撞地(CFIT)事故致因规律,根据Reason-SHEL模型得出的10个CFIT事故致因因子,分析从飞行安全基金会数据库中整理出的2006—2011年间40起CFIT事故。在此基础上建立CFIT事故年份-成因列联表,再利用SPSS软件对表格进行对应分析。将事故成因和年份同时反映在二维散点图中,实现数据可视化。最后对图形进行向量、圆心接近点以及区域化等3项分析。根据结果得出,CFIT事故的主成因是人因操作和外界环境;随着年份增加,飞行员状态(药物/疲劳、经验不足)对造成CFIT事故的重要性越来越明显;不同年份有不同的重要致因因子。     

不同pH值对磷矿废石磷素浸出特性影响的实验研究

采用EPA 1314pH酸碱预滴定实验和pH浸出实验,研究了pH对磷矿废石磷元素浸出特性的影响,以及磷矿废石的酸碱缓冲容量。实验结果表明:磷矿废石的碱缓冲容量小,pH从8.75上升到13.50消耗了0.1mmol/g的NaOH,磷矿废石酸的缓冲容量较大,pH从5.50到1.00,共消耗2.2mmol/g的H2SO4;浸提液的酸碱性是影响磷矿废石中磷元素浸出的重要参数,酸性条件下很大程度上促进了磷元素的浸出,随着H+离子浓度的增加,总磷浓度随之升高。相反在碱性条件下的反应过程中,OH-阻碍磷元素的浸出,消耗正磷酸根离子和羟基磷酸根离子,使其生成沉淀,有一定的固磷作用,为磷元素的固化提供了更多途径。     

外源有机酸添加对风化煤矸石污染释放及重金属有效性的影响

为评价不同类型有机酸对风化煤矸石污染释放的影响,通过在风化煤矸石中添加不同种类的外源有机酸(腐殖酸、柠檬酸、草酸、水杨酸)进行处理,分析稳定7d后煤矸石浸出液的特征污染组分及TCLP提取态重金属含量。结果表明:对照处理组的风化煤矸石浸出液具有典型的酸性矿山废水特征。添加少量柠檬酸、草酸和水杨酸能显著(p0.05)降低风化煤矸石浸出液的pH和Eh值、明显增加浸出液的盐度、亚铁、总铁和硫酸盐含量,然而腐殖酸处理对浸出液pH、EC、Eh无明显影响,且可降低浸出液硫酸盐含量。少量外源有机酸添加均能不同程度促进风化煤矸石中Fe、Mn、Cu、Zn元素溶出,其中水杨酸处理对4种金属元素的溶出量较大。然而4种外源有机酸处理则能有效抑制Pb溶出,其中柠檬酸、水杨酸处理抑制效果最明显。有机酸添加对风化煤矸石的重金属有效性影响表现为4种外源有机酸处理均能明显增加风化煤矸石中Mn元素的有效性,降低Zn元素的有效性,但对Fe元素的有效性影响不明显。4种外源有机酸添加对煤矸石中Cu元素有效性具有不同程度的影响,其中腐殖酸、草酸处理能明显降低Cu元素有效性,而柠檬酸和水杨酸处理则明显增加Cu的有效性。     

城市河网区河流沉积物磷形态分布特征及释放贡献

以嘉兴城市河网区为研究区域,在调查区域水质和沉积物磷空间变化特征的基础上,分析沉积物中各形态磷的垂直与空间赋存状态,通过吸附释放参数计算EPC₀值,明确了沉积物-水界面磷迁移影响因素和沉积物中活跃磷素的释放风险和贡献.结果表明,研究区域水质氮磷污染较为严重,沉积物TP含量均值呈北部河网区>西部河网区>南部河网区,基于单因子指数法的生态风险评价为Ⅱ、Ⅲ和Ⅳ级的样本比例分别为10.91%、25.45%和63.64%.沉积物各形态磷整体呈现TP>IP>HCl-P>NaOH-P>OP,沉积物生物有效磷（BAP）整体呈现Olsen-P>AAP>WSP>RDP;在沉积物垂直剖面中,部分位点受到外界因素的强烈影响垂向波动较大,整体上是随深度的递增而减小,这与近年来研究区域接收的外源磷积累过程在加重有关.相关性分析表明,沉积物磷吸附容量（Q_max）与铁铝氧化物呈显著相关性 （p<0.05）;释放参数EPC₀与TP、IP与HCl-P呈显著相关性 （p<0.05）.结合BAP形态,研究区域河流沉积物NaOH-P、HCl-P、AAP、Olsen-P及WSP存在较高的释放潜力.南部河网区沉积物主要呈现磷“源”角色,西部和北部河网区部分区域沉积物充当磷“源”角色.南部河网区在长短时间尺度下的磷主要释放形态为NaOH-P、HCl-P和OP,北部河网区在长时间尺度下主要释放磷形态为NaOH-P、HCl-P,西部河网区在短时间尺度下主要释放形态以HCl-P为主,在长时间尺度下3种磷形态的释放风险仍然较高.     

典型污染源材料中多溴联苯醚(PBDEs)的释放

为研究以多溴联苯醚（PBDEs）为代表的含卤半挥发性有机物（SVOCs）在室内空气中的扩散特性,在对杭州室内环境（办公室、居室）空气中PDBEs14种单体浓度检测的基础上,分析比较了不同污染源材料中PBDEs的含量,测定了材料PBDEs挥发强度系数;探究了典型污染源材料中PBDEs释放的影响因素及其相关性.结果表明,杭州室内环境空气颗粒相和气相中PBDEs平均浓度为427.26和416.46pg/m³,其中颗粒相和气相中主要特征单体均为BDE-209.所选取的9种室内常用材料的PBDEs挥发强度系数大小依次为：地毯>电线>塑料板>阻燃布>电路板>防烫桌布>保温棉>自粘墙纸>绝缘胶带.对比不同材料中各PBDEs同系组的含量：绝缘胶带、塑料板、防烫桌布、阻燃布中十溴二苯醚（deca-BDEs）的占比最高,分别为81.33%、63.83%、27.3%和34.1%;电线中四溴二苯醚（tetra-BDEs）的占比最高,为29.83%;自粘墙纸、电路板、地毯、保温棉中五溴二苯醚（penta-BDEs）的占比最高,分别为35.82%、41.25%、45.75%和38.64%.典型污染源材料中PBDEs释放的影响因素实验结果表明,环境模拟舱中的PBDEs总浓度与温度和封闭时间对数均呈显著正相关,相关系数r和显著水平P分别为r=0.811,p<0.05和r=0.883,p<0.05,且封闭时间对源释放PBDEs总浓度的影响比温度稍大.同时,污染源特征因素（材料中PBDEs的固有含量与PBDEs挥发强度系数）对源释放的影响程度比环境因素（温度和封闭时间）大.