QuEChERS-气相色谱质谱法测定苹果中45种农药残留

建立了QuEChERS-气相色谱质谱法同时测定苹果中45种农药残留检测方法,样品以1%乙酸乙腈提取,经25 mg PSA、25 mg C₁₈和7.5 mg GCB净化,GC-MS选择离子监测(SIM)模式下检测,基质匹配外标法定量。检测结果表明,45种农药在10~200 μg/L质量浓度范围内线性关系良好,各农药的线性相关系数均大于0.995;在30、50和100 μg/kg添加水平下,45种农药的回收率在69.3%~116%之间,相对标准偏差在0.7%~7.9%之间;方法的检出限在1.5~15.0 μg/kg之间,定量限在5.0~50.0 μg/kg之间。该方法准确度高、精密度好、步骤简单、操作快捷、成本低廉,适用于苹果中农药残留的检测。     

贝壳源纳米乳酸钙的制备与表征

该文以废弃贻贝壳为原料制取食品级的纳米乳酸钙,将贝壳预处理后与乳酸中和反应生成乳酸钙,在重结晶过程中采用高速剪切结合微量表面活性剂的新方法,控制晶体粒径实现纳米化的同时保持分散性,最终纯化干燥可制得纳米乳酸钙。通过单因素和响应面试验,结合表征分析研究并优化整个过程的工艺条件。结果表明,当剪切速度7 500 r/min、剪切时长240 s、表面活性剂吐温80最终反应浓度20μL/L时,可制成一种平均粒径为95. 1 nm、纯度为99. 5%,符合食品级添加剂国标要求的纳米乳酸钙。相较于现有方法,该生产工艺具有成本低、环境友好、产品质量安全可靠等优势。该文研究结果有望为废弃贝壳的综合利用提供一种新的有效途径。     

微乳液组分对体系增溶水量的影响及纳米羟基磷灰石的制备

应用电导率法研究了TritonX-100/正戊醇／环己烷体系中各组分及条件对微乳液最大增溶水量的影响。结果表明：当表面活性剂TritonX-100用量为3ml，助表面活性剂选正戊醇用量为1ml，环己烷为油相，温度为48℃，Ca（NO3）2溶液与（NH4）2HPO4溶液分别为0．24和0．14mol／L时，体系增溶水量最大，可得到较高产率的纳米羟基磷灰石。并且用XRD和TEM手段对产物进行了表征。     

Ultra-Low Pt Doping and Pt–Ni Pair Sites in Amorphous/Crystalline Interfacial Electrocatalyst Enable Efficient Alkaline Hydrogen Evolution

Noble metal doping can achieve an increase in mass activity (MA) without sacrificing catalysis efficiency and stability, so that alkaline hydrogen evolution reaction (HER) performance of the catalyst can be optimized to the maximum degree. However, its excessively large ionic radius makes it difficult to achieve either interstitial doping or substitutional doping under mild conditions. Herein, a hierarchical nanostructured electrocatalyst with enriched amorphous/crystalline interfaces for high-efficiency alkaline HER is reported, which is composed of amorphous/crystalline (Co, Ni)₁₁(HPO₃)₈(OH)₆ homogeneous hierarchical structure with an ultra-low doped Pt (Pt-a/c-NiHPi). Benefiting from the structural flexibility of the amorphous component, extremely low Pt (0.21 wt.%, totally 3.31 µg Pt on 1 cm⁻² NF) are stably doped on it via a simple two-phase hydrothermal method. The DFT calculations show that due to the strongly electron transfer between the crystalline/amorphous components at the interfaces, electrons finally concentrate toward Pt and Ni in the amorphous components, thus the electrocatalyst has near-optimal energy barriers and adsorption energy for H₂O^* and H^*. With the above benefits, the obtained catalyst exhibits an exceptionally high MA (39.1 mA µg⁻¹_Pt) at 70 mV, which is almost the highest level among the reported Pt-based electrocatalysts for alkaline HER.     

Multilayer-Cavity Tandem Catalyst for Profiling Sequentially Coupling of Intermediate CO in Electrocatalytic Reduction Reaction of CO2 to Multi-Carbon Products

Electrochemical CO₂ reduction reaction (CO₂RR) is an effective approach to address CO₂ emission, promote recycling, and synthesize high-value multi-carbon (C₂₊) chemicals for storing renewable electricity in the long-term. The construction of multilayer-bound nanoreactors to achieve management of intermediate CO is a promising strategy for tandem to C₂₊ products. In this study, a series of Ag@Cu₂O nanoreactors consisting of an Ag-yolk and a multilayer confined Cu shell is designed to profile electrocatalytic CO₂RR reactions. The optimized Ag@Cu₂O-2 nanoreactor exhibits a 74% Faradaic efficiency during the C₂₊ pathway and remains stable for over 10 h at a bias current density of 100 mA cm⁻². Using the finite element method, this model determines that the certain volume of cavity in the Ag@Cu₂O nanoreactors facilitates on-site CO retention and that multilayers of Cu species favor CO capture. Density functional theory calculations illustrate that the biased generation of ethanol products may arise from the (100)/(111) interface of the Cu layer. In-depth explorations in multilayer-bound nanoreactors provide structural and interfacial guidance for sequential coupling of CO₂RR intermediates for efficient C₂₊ generation.     

热交换器的分类及优缺点分析

热交换器是将不同温度介质之间的热量通过热传导的形式,由高温介质传递给低温介质,使介质达到生产所需温度的工艺设备,也可作为一种节能设备使用.通过对不同热交换器的结构分析,总结不同热交换器的优缺点、适用环境,为生产工艺设计人员及设备制造单位在选择可降低能耗、提高效率的设备上提供参考.     

用角位置信号估计角速度方法的研究

用SIMULINK语言建立光电码盘的仿真模型,分析码盘测速值中包含噪声的原因及其对系统性能的影响。并提供了一种速度观测器以估计电机的瞬时速度。并用仿真结果证明以该观测器的输出构成的闭环系统对系统性能的影响。     

利用粉煤灰合成分子筛及其脱除高浓度氨氮的研究

利用工业废渣流化床粉煤灰成功合成出X型分子筛.通过XRD衍射表征发现,碱的添加量是影响合成分子筛结晶度的关键因素,而原料中含有微量的α-石英对合成的影响较小.应用合成的分子筛处理高浓度氨氮废水效果良好.该项研究不仅可解决粉煤灰堆置所引起的占用土地污染环境等问题,而且可解决高浓度氨氮废水的降解难题,以废治废,具有很高的经济和社会效益.     

微构造的地震识别与应用效果

胜利油田的油气勘探具有较大的剩余勘探潜力，且大部分油气蕴藏在微构造油气藏中。微构造油气藏在胜利油田的勘探开发老区均有分布，纵向上从沙四段到东营组均有发育。该类油气藏埋深浅、储层物性好、产量高，具有较高的经济效益。微构造油气藏在国内外研究较少，国内外较注重目的层沉积微构造的研究，且主要是沉积微构造对注采关系的影响。在对复杂断块的精细研究中，以前研究的重点也主要集中在应用钻井资料对断层的成因和对断层封堵性的研究上，而对微构造圈闭的成因、识别及成图，一直没有进行系统的分类研究。文章划分了微构造的类型，研究了微构造的特点，并认为构造作用、沉积作用和后期改造作用是微构造形成的３种主要原因。同时，利用地震资料对微构造圈闭的识别方法和描述技术进行了探索，形成了一套具有针对性的技术系列，取得了显著的效果，这对油气田老区的滚动勘探开发具有重要的意义。