Optimization and pharmacodynamic evaluation of stir-frying with bran for Tangshen processing

Background:Traditional Chinese medicine requires special processing before it can be effectively used for clinical treatment of diseases.In particular,Tangshen stir-fried with wheat bran smoke has been found to enhance the function of the stomach and spleen.However,there is limited research on the technology and pharmacodynamic effects of Tangshen fried with bran.Therefore,the objective of this article is to optimize the method of stir-frying with bran for Tangshen processing and to compare the anti-fatigue and hypoxia-resistance effects of Tangshen before and after bran-frying.Methods:The response surface methodology was utilized to optimize the frying temperature,frying time,and the bran-to-Tangshen ratio,using lobetyolin as the indicator.The swimming time of mice and the levels of blood urea nitrogen,lactate dehydrogenase,and blood glucose in fatigued mice were compared before and after Tangshen was fried with bran.Additionally,the hypoxic resistance ability of Tangshen before and after bran-frying was determined through normobaric hypoxia test and sodium nitrite poisoning test.Results:The optimal bran-frying conditions for Tangshen processing were determined as:frying temperature of 167°C,frying time of 2.67 min,and the bran-to-Tangshen ratio of 50:100.Pharmacodynamic analysis results indicated that Tangshen significantly increased the GLU content(P<0.01)and significantly reduced the LDH content(P<0.01)both before and after bran-frying.While both traditional and new bran-frying methods significantly increased the content of muscle glycogen(P<0.05),the optimized method in this study also significantly elevated the content of liver glycogen(P<0.05).The traditional method significantly prolonged the survival time of mice from sodium nitrite poisoning(P<0.05).Conclusion:The response surface model proved to be highly effective in optimizing the stir-frying process with bran for Tangshen processing.The results of this study indicate that Tangshen possesses anti-fatigue and hypoxia-resistance effects both before and after bran-frying,with bran-fried Tangshen exhibiting significantly stronger effects.

Design and Construction of a Digital Multichannel Analyzer for HPGe Detector Using Digital Signal Processing Technique

The outstanding advantage of digital signal processing (DSP) techniques and Field Programmable Gate Array (FPGA) technology is capable of improving the quality of the experimental measurements for nuclear radiation. In this article, a compact DMCA 8 K was designed and manufactured using DSP technique based on FPGA technology. In particular, the output of the preamplifier is completely processed by digital techniques which are obtained from the analog-to-digital converter (ADC) to calculate the baseline, DC offset, energy peaks, pile up, threshold discrimination and then the form of energy spectrum. The Spartan-6 board is used as a hardware for the development of the digital multichannel analyzer (DMCA), which is equipped with the 14-bit AD6645 with 62.5 Msps sample rate. The application software for instrument control, data acquisition and data processing was written under C++ builder via the RS-232 interface. The designed DMCA system has been tested with a HPGe detector using gamma sources of 60Co and 137Cs and a reference pulser.

Integration system research and development for three-dimensional laser scanning information visualization in goaf

An integration processing system of three-dimensional laser scanning information visualization in goaf was developed. It is provided with multiple functions, such as laser scanning information management for goaf, cloud data de-noising optimization, construction, display and operation of three-dimensional model, model editing, profile generation, calculation of goaf volume and roof area, Boolean calculation among models and interaction with the third party soft ware. Concerning this system with a concise interface, plentiful data input/output interfaces, it is featured with high integration, simple and convenient operations of applications. According to practice, in addition to being well-adapted, this system is favorably reliable and stable.

Techno-Economic Analysis and Life Cycle Assessment for the Typical Intermediate Crude Refining Scheme in China

The integration of refinery and petrochemical units(IRPUs)has become an inevitable choice for the sustainable development of petrochemical industry.The utilization efficiency of petroleum resources could be improved obviously through IRPUs.However,integrating economic and environmental impacts into the model of IRPUs is still a grand challenge.Herein,a model called TEA-GHG-OPWM(Techno-Economic Analysis and GreenHouse Gases Oriented Plant-Wide Model)has been established on Aspen HYSYSTM platform to calculate the energy consumption,the technoeconomic performance,and the GHG emissions for two different kinds of schemes,viz,:VRHCU(Vacuum Residue Hydrocracking Unit)and VRDS-RFCC(Vacuum Residue Desulfurization and Residue Fluid Catalytic Cracking).Furthermore,a novel processing pathway named VGOHDT-HTMP-DC(Vacuum Gas Oil Hydrotreating,Hydrogenation and TMP coupling process and Delayed Coking)has also been developed to find methods to improve the economic performance based on a ten-million-CNY output value(TMYOV)and a reduced GHG emissions.Our results demonstrate that VRHCRU could consume more energy and emit more GHG(877.11 t of CO2 eq·TMYOV^-1·h^-1)than VRDS-RFCC(817.03 t of CO2 eq·TMYOV^-1·h^-1)and VGOHDT-HTMP-DC(721.96 t of CO2 eq·TMYOV^-1·h^-1),while obtaining a higher mass yield of petrochemicals.The VGOHDT-HTMP-DC process exhibits the lowest feedstock consumption,hydrogen consumption,energy consumption,and GHG emissions,indicating that VGOHDT-HTMP-DC has both well economic and environmentally friendly performance.

科教融汇理念下现场工程师培养的内涵意蕴、基本遵循与实践路径

科教融汇既是科技创新发展的崭新要求,也是推动职业教育适应产业需求的有效途径。为应对产业数字化转型下的人才素质需求变化,国家围绕产业高端和高端产业提出“职业教育现场工程师专项培养计划”,旨在培养具有一线生产运作技能,并能优化生产流程的高素质技术技能型人才。为实现这一类型人才培养,政府主管部门应统筹多方科教资源,辐射现场工程师培养框架建设;职业院校应积极主导并搭建多方协同育人体系,共建科教融汇平台资源,落实现场工程师技能孵化与输出;同时吸收社会力量有效补位,完善和深化培训课程体系适应性建设,赋能现场工程师可持续发展。

基于移动GIS的地球化学野外采集系统的设计与实现

在传统地球化学野外调查工作中,尤其在样品数量多、自然环境恶劣的工区,采集工具携带不便、内业数据整理过程繁琐势必会影响地球化学野外调查的质量和精度。地球化学野外调查的信息化和智能化是时代的要求,更是方法技术发展的必然趋势。本文综合移动GIS技术、数据库等技术,映照地球化学野外调查工作的流程,基于ArcGIS和Android平台研发了一套涵盖工作布置、野外采集以及质量检查等功能的地球化学野外调查软件。系统实现了地球化学野外调查全流程的信息化和智能化,改变了地球化学野外数据的采集方式,节省了一线野外工作的时间,提高了内业数据整理的效率以及野外调查信息的质量和精度,推动了地球化学野外调查的数字化进程。

中药材农药残留检测技术研究现状及展望

中药材产业是中华民族原创的具有悠久历史的传统产业,中药材在人类与疾病的抗争史上作出了重大贡献。近年来,中药材中检出农药残留的事件时有发生,严重影响我国中药材的安全及其走向国际市场。为此,从中药材农药残留现状、农药残留检测前处理技术、农药残留检测方法等方面进行综述,对我国中药材农药残留原因进行剖析,并提出相应的建议,旨在为开展中药材农药残留检测等相关研究工作提供参考。

桔梗生药粉湿热灭菌工艺优化及不同灭菌方法对其质量的影响

目的 优化桔梗生药粉湿热灭菌工艺,并考察辐照灭菌、湿热灭菌、乙醇灭菌、干热灭菌对其质量的影响。方法 在单因素试验基础上,以灭菌时间、灭菌温度、干燥温度为影响因素,桔梗总皂苷、桔梗皂苷D含量及灭菌率的综合评分为评价指标,响应面法优化湿热灭菌工艺。评价不同灭菌方法对微生物限度、鉴别项、水分、总灰分、浸出物、含量测定、指纹图谱相似度的影响。结果 最佳条件为灭菌时间35 min,灭菌温度103℃,干燥温度76℃,综合评分为95.14分。4种灭菌方法下微生物限度检查全部合格;灭菌后桔梗皂苷D含量有不同程度的下降,依次为辐照灭菌>湿热灭菌>乙醇灭菌>干热灭菌;指纹图谱相似度依次为辐照灭菌>乙醇灭菌>湿热灭菌>干热灭菌。结论 该方法便于操作,重复性好,生产成本低,灭菌彻底,可为桔梗生药粉大规模工业化生产提供理论依据。

煤炭地下气化井工程关键技术新进展

开展煤炭地下气化关键技术研究对于推动煤炭行业的可持续发展以及国家“双碳”目标的实现具有重要意义,井工程作为其核心部分正面临一系列关键技术挑战。为此,聚焦煤炭地下气化井工程,从气化工艺选择、井筒完整性研究、高效点火与可控燃烧、井筒温度场预测与控制方面回顾了煤炭地下气化工艺的发展历程,系统总结了井工程面临的问题和技术新进展,提出了促进井工程技术发展的建议。研究结果表明:①气化工艺优化、井筒完整性、高效点火及燃烧、井筒温度场预测与控制是煤炭地下原位气化面临的关键技术难题;②煤炭气化工艺由有井式向无井式、单口垂直井向多口水平井的方向发展,其对井筒完整性与耐腐蚀性提出了更高的要求;③点火可控燃烧系统逐渐向更安全更高效的方向发展,还需深化气化过程的温度场分布规律认识,通过多学科交叉融合精准预测和调控气化工艺参数;④加速多场耦合条件下的理论研究,积极研发耐高温高压腐蚀的相关材料及工具,完善多目标优化的煤炭气化工艺优选方法,结合人工智能预测将是未来深层煤炭地下气化井工程的关键发展方向。结论认为,强化煤炭地下气化与多领域融合发展,能够为煤炭地下气化先导试验和天然气增储上产提供技术支撑,并加速煤炭资源向绿色、清洁、高效利用转型,助力能源结构优化与可持续发展。

Application of FPGA in Process Tomography Systems

This paper will provide some insights on the application of Field Programmable Gate Array (FPGA) in process tomography. The focus of this paper will be to investigate the performance of the technology with respect to various tomography systems and comparison to other similar technologies including the Application Specific Integrated Circuit (ASIC), Graphics Processing Unit (GPU) and the microcontroller. Fundamentally, the FPGA is primarily used in the Data Acquisition System (DAQ) due to its better performance and better trade-off as compared to competitor technologies. However, the drawback of using FPGA is that it is relatively more expensive.

固化降温工艺对固体发动机药柱温度场和结构完整性的影响

固化降温工艺对固化降温过程固体发动机药柱的温度场和应力场有显著影响。为准确评估固化降温过程固体发动机药柱的结构完整性水平,优化固化降温工艺,采用数值模拟方法对某碳纤维复合材料壳体发动机药柱在6种固化降温工艺条件下的温度场和结构完整性进行计算,计算过程考虑壳体表面对流换热系数的动态变化和热辐射效应,极大提高了降温过程热载荷引起的药柱结构响应的计算精度。计算得到了不同工艺条件下药柱的温度场及变化规律、应力应变响应规律,评估了药柱的结构完整性。结果表明,通过监测壳体表面温度,并结合温差变化规律和药柱温度平衡时滞可估算药柱内的温度及其平衡时间。通过调整降温工艺参数,可提高药柱的安全系数。降温初期缓慢降温可降低药柱应力应变增长速率,同时可降低药柱的累积损伤水平。

基于1985—2022年专利数据的我国中药饮片炮制技术发展问题与对策研究

中药饮片炮制技术是我国特有的一种制药技术,对保障中药饮片质量和临床用药安全至关重要。通过收集1985—2022年的专利申请数、申请主体、地域分布等相关信息,梳理近年来我国中药饮片炮制技术的专利保护现状。结果显示我国中药饮片炮制技术领域的专利申请量不断提高但总申请量较少且质量较低,专利类型以发明为主,发明以炮制工艺为主,炮制设备相对较少,主要集中在实用新型。企业主体在申请主体中占比最大,高校和科研单位占比较小,道地药材产区和传统中医药大省的专利申请量较多。从数据来看中药炮制专利申请意识已经有了很大的提升,提高炮制技术专利质量、完善中药专利激励机制对于中药饮片炮制技术专利保护至关重要。

中药饮片虎掌南星微生物污染状况分析

目的:建立虎掌南星的微生物限度检查方法,考察该饮片微生物污染的程度,并评估其潜在的风险。方法:依据《中国药典》2020年版四部通则1105、1106、1108收载中药饮片微生物限度检查法对虎掌南星进行方法适用性试验,对20个批次药品的需氧菌总数(TAMC)、霉菌和酵母菌总数(TYMC)、耐热菌总数(NAIRE)、耐胆盐革兰阴性菌、大肠埃希菌、沙门菌、金黄色葡萄球菌、铜绿假单胞菌、白念珠菌进行检查,同时对耐热菌做探索性检验。结果:需氧菌总数在102~107之间;霉菌和酵母菌总数在101~105之间;12批次检出耐热菌,检出的耐热菌数在101~103之间;15批次检出耐胆盐革兰阴性菌,N均小于104;13批次检出大肠埃希菌;0批次检出沙门菌;20批次均检出金黄色葡萄球菌;7批次检出铜绿假单胞菌;6批次检出白念珠菌;耐热菌数随水浴时间增加,菌数下降明显。结论:通过对微生物的污染调查分析,给虎掌南星饮片的合理使用提供了一些数据上的保障。建议根据该饮片不同的用药方式,制定不同的微生物限度标准。

门诊血透室一体化药品管理流程优化效果评价

目的提高门诊维持性血液透析患者的药品管理规范率及使用安全性。方法医院自2020年1月起采用医院信息系统(HIS)对门诊维持性血液透析患者进行住院化管理,联合多部门实施血透室一体化药品管理。随机选取管理前(2019年1月至12月)在门诊行维持性血液透析的35例患者为对照组,管理后(2020年1月至12月)35例患者为观察组,比较两组患者的药品种类出错率、遗忘返院带药率、返院带药失效率、患者满意度及护理质量评分。结果观察组药品种类出错、遗忘返院带药和返院带药失效发生率均显著低于对照组,护理质量评分及满意度显著高于对照组(P<0.05)。结论一体化药品管理流程应用于门诊血透室效果较理想,能显著改善门诊血透室的护理服务质量,降低药品差错事件的发生率;保障安全、节约资源;改善患者就医感受,提升患者满意度。

浙江石化40 Mt/a炼化一体化项目规划设计总结

总结了浙江石油化工有限公司40 Mt/a炼化一体化项目的规划设计,重点解决了7个关键技术问题。设计原油采用高硫高酸方案;重油加工工艺采用固定床渣油加氢脱硫+重油催化裂化+延迟焦化+渣油浆态床加氢裂化工艺,是加氢和脱碳组合工艺模式;柴油和蜡油采用多产优质重石脑油的加氢裂化工艺,增产重石脑油10.85 Mt/a;炼化过程副产的轻烃(C2~C5)供给2套1.4 Mt/a蒸汽裂解装置和1套0.6 Mt/a丙烷脱氢装置;煤和自产的石油焦采用气化工艺满足项目清洁工艺燃料和氢气的供应;综合利用海水,为项目提供全部生产用水;采用大型化、标准化和模块化设计。项目实施后,主要工艺装置规模和技术经济指标达到了世界级水平,实现了分子炼油,项目炼化一体化率高达62.4%,成品油收率仅为37.7%。

2000国家GPS大地控制网的数据处理和精度评估

2000国家GPS大地控制网集合了各类GPS网近10年的观测数据,提供GPS点在全球参考框架下2000.0历元的绝对位置.文中简要介绍GPS数据处理的方法,给出数据处理的精度统计;以部分点的实测速度为基础,建立中国大陆地壳运动速度场;基于GPS测量的动态系统状态,选择序贯卡尔曼滤波的广义测量平差方法,对GPS点做顾及地壳运动的整网平差,并给出整网平差结果的精度统计和外部检核.一系列的手段和措施保证了平差结果的合理性和可靠性.

炮制对生药化学成分的影响研究概述

文章综述了炮制对生药具有明显生理活性的成分———挥发油、生物碱、苷类、多糖、鞣质及微量元素的影响,进而为探讨中药炮制的真正意义,制定合理的炮制工艺和质量标准提供参考。

中药醋制入肝减毒、增效现代研究

醋制是以醋为辅料炮制中药的方法统称,是体现中药炮制"增效减毒"的典型代表,其理论基础"醋制入肝"是指导中药炮制的基本理论之一。近些年来,学者围绕中药在醋制前后成分变化、药效学机制、药代动力学方面进行了大量研究,有力地推动了对"醋制入肝"理论的科学阐释。从醋制减毒、增效角度就近些年来醋制中药研究进展进行综述,并对目前研究中存在问题进行分析,提出了"醋制入肝"机理研究的思路,以期为深入开展"醋制入肝"理论研究提供参考。

地龙规范化生产的研究概况

综合分析近年来地龙规范化生产的相关研究,重点针对地龙的种质资源调查、品种鉴定、人工养殖技术、采集加工和质量控制等关键问题进行评述。地龙规范化养殖相关研究取得了一定进展,但仍然存在着野生药用资源不足,药材品种混杂以及药材品质优劣参差不齐等问题。特别是缺少规范化养殖、产地加工和饮片炮制等关键技术的专项深入研究。因此,加强这方面的研究是今后研究的主攻方向和发展策略。

枳壳研究概况

综述枳壳的生药鉴定,以及化学成分、炮制机理、药理作用等方面近年的研究进展。