基于CHPS的万古霉素安全性及临床应用研究

参考中国医院药物警戒系统(CHPS)的数据,观察和评价上市后注射用万古霉素实际用药情况,为提高安全用药水平、优化用法用量提供更多临床线索和依据,更好的指导临床用药。方法:结合中国医院药物警戒系统(CHPS)数据,依从医院信息系统(HIS、),提取使用万古霉素住院患者信息,运用统计学方法进行分析。结果:(1)从CHPS系统调取2020年1月至2023年10月注射用万古霉素不良反应上报数据共有11例,其中7例为一般的,1例新的(干呕);3例严重的。(2)从HIS系统调取2020年1月至2023年10月期间使用万古霉素患者227例,其中男136例(59.91%),女91例(40.09%);年龄<18岁的69例(30.40%),年龄>19岁的有158例(69.60%);实行万古霉素血药浓度监测(TDM)的患者有32例(14.1%),未实施TDM监测的有195例(85.9%);227例使用万古霉素患者中有25例出现不良反应,发生率为11.01%。结论:(1)不良反应上报不及时,CHPS系统数据与HIS系统数据不一致;(2)万古霉素血药浓度监测结果部分偏低,未达到治疗浓度,达标率低(40.62%);(3)万古霉素使用存在一定不良反应风险,尤其是急性肾损伤风险高。

基于CHPS系统主动监测对贝伐珠单抗不良反应发生特点及相关性回顾性分析

探讨贝伐珠单抗注射液致药品不良事件的规律和特点,为合理用药提供依据。方法 选取桂林市人民医院2020年1月~2022年12月使用贝伐珠单抗治疗的患者病例,收集患者的病历信息,包括患者的病历号、年龄、性别、化疗方案、以及给药前后肌酐、血糖、心率、电解质等检验指标变化。评估患者用药后发生的不良反应。采用X2检验进行影响因素分析。结果 本研究共纳入160例患者,贝伐珠单抗治疗恶性肿瘤时不良反应发生特点及相关性结果分析显示,治疗过程中,年轻组(≥16岁)和老年(≥70岁)患者使用贝伐珠单抗后仅出血的发生率,差异有统计学意义。急性肾损伤、血清电解质紊乱、骨髓抑制、心动过缓、胃肠道反应(恶心、呕吐、腹泻等)、低血糖、如急性肝损害、过敏反应的发生情况比较,差异无统计学意义。结论 贝伐珠单抗注射液所致ADR较轻微,但是在临床应用该药物时,仍应注意其可能导致的不良反应特点,密切监测,以便及时处理不良反应。

计及氢能高效利用和热电灵活输出的综合能源系统源荷灵活运行策略

为进一步发挥氢能高效利用优势,构建绿色低碳能源系统,提出一种计及氢能高效利用和热电联产灵活输出的综合能源系统源荷灵活运行策略。首先,对源侧供能模型进行两方面改进:一是引入含风电制氢、燃气混氢、多能用氢和储氢的氢能利用模型,并考虑到电解水和甲烷化反应过程中的热量散失情况,引入热量回收装置,构建计及热量回收的氢能高效利用模型;二是针对常规热电联产灵活性不足的问题,构建含电锅炉和有机朗肯循环的热电灵活输出模型,以解耦常规热电联产“以热定电”和“以电定热”限制。其次,在荷侧引入含可转移、可削减和可平移的电、热柔性负荷,以缓解电、热负荷峰谷差,并与源侧相结合,形成源荷灵活运行模型。最后,综合考虑阶梯型碳交易成本、设备运行维护成本、弃风成本以及购能成本,建立综合能源系统源荷灵活优化运行模型。采用CPLEX求解器对所提综合能源系统源荷灵活运行模型进行求解,并设置不同场景进行对比。结果表明,相比常规氢能利用模型,考虑所提计及热量回收的氢能高效利用模型时,系统的总成本、碳排放量分别降低了1.92%、4.22%,并且引入热电联产改进模型后,其总成本、碳排放量可进一步降低4.08%、7.32%,实现系统低碳、经济和灵活运行。

CHPPO工艺氧化液耦合除杂技术的研究与工业应用

异丙苯过氧化氢法(CHPPO)是生产环氧丙烷的绿色新工艺,然而如何从异丙苯氧化液中脱除有机酸和Na+等杂质一直是CHPPO工艺的关键问题。针对现有碱水洗单元洗涤塔设备投资高、占地面积大、传质效果不佳等问题,通过小试和中试实验,开发了基于静态混合和聚结分离的耦合除杂技术,并研究了一系列操作条件对耦合技术分离性能的影响,实现了异丙苯氧化液高效除杂。结果表明,在NaOH溶液浓度为1.5%,碱液用量为氧化液进料量的4%~5%、纯水用量3%~5%、自循环量10%~15%的条件下,处理后的氧化液总酸含量低于10 mg/L,Na+低于0.5 mg/L。此外,耦合除杂技术在某石化工业装置上实现了首次工业应用,处理后的氧化液有机酸含量为33 mg/L、Na^(+)含量为0.4 mg/L,满足环氧化工段对前处理的技术要求,同时减少了5%的碱、水用量,显著增加了装置的绿色属性。该技术为解决氧化液深度净化问题和促进环氧丙烷合成工艺的发展提供了一种极具前景的选择。

基于斜温层等效容积的大型蓄热罐动态特性分析

斜温层蓄热罐可以提高热电联产(combined heat and power,CHP)机组在供热期间的调峰能力,因此逐渐向大型化发展,但设计参数对蓄热罐的性能影响较大,且采用目前的性能评估方法效率较低。为此,建立大型蓄热罐的物理模型及数学模型,研究蓄热过程中斜温层的形成及变化过程,提出斜温层等效容积的概念,同时分析结构参数及运行参数对斜温层等效容积的影响。结果表明:形成稳定斜温层后,随着蓄热量的增加,斜温层厚度变化不大,采用斜温层等效容积可以更高效的评估蓄热罐的性能。比较不同工况下蓄热罐等效容积的相对变化量可知,不同影响因素对斜温层等效容积的影响从高到低排序依次为布水器布置、蓄热流量、高径比和冷热水温差。研究成果为大型蓄热罐的性能评估提供了一种新参考。

含电动汽车和热电联产的区域微电网参与电网辅助服务调度

如今,在发达的特大城市,越来越多的分布式电源和电动汽车接入微电网。该文提出一个区域微电网,由一个热电联供系统和一系列插电式电动汽车组成。其主要目的是通过将PEV整合为快速响应存储来提供辅助服务和充分利用可再生能源提高系统的能源利用率和经济效益。停车场会聚集形成电力电子设备集群,并与CHP签订双边合同,以便能够参与调节电力市场。提出改进的乌鸦算法,对问题进行求解。通过MATLAB对算法进行数值仿真表明,如果区域微电网参与电力市场调控,每兆瓦的经济价值显著提高,总利润增加。

热电联供燃料电池系统效率分析

为解决燃料电池发电效率低的问题,提出一种热电联供燃料电池。介绍了热电联供系统的原理,对传统燃料电池系统效率和热电联供燃料电池系统效率进行了分析和对比,同时进行了寄生功耗分析和优化。热电联供燃料电池系统综合利用总效率接近90%,发电效率提高至50%。

A Comparative Study of the Economic Feasibility of Employing CHP Systems in Different Industrial Manufacturing Applications

Extensive research work including multiple methodologies and numerous simulations have been completed in order to determine the economic effectiveness of employing CHP at commercial and residential sites. In contrast to the above, very few attempts have been made to develop methodologies to study the feasibility of CHP systems at industrial manufacturing facilities. As a result, practical opportunities for CHP at industrial sites are often not realized or even investigated. It follows that there is a need in the CHP related literature for an analysis that is explicit and yet general enough to determine the economic viability and potential for success of CHP systems at industrial manufacturing facilities. Therefore, the purpose of this paper is to clearly outline a methodology to determine the economic effectiveness of installation and operation of a CHP system at industrial facilities that have a need for space or process heating in the form of steam. The effect on the CHP system economic performance of several parameters, such as the project payback, internal rate of return, net present value, etc., are considered in the proposed methodology. The applicability and generality of the methodology is illustrated by examples including four different manufacturing facilities. The effects of the variability of factors such as annual facility operational hours during which both process heat and electricity are needed, facility average hourly thermal load, cost of utility supplied electricity, and CHP fuel type and associated fuel cost, on the outcome of the economic analysis are also examined.

某哨点医院基于中国医院药物警戒系统(CHPS)开展药品不良反应监测的研究分析

目的 通过对某哨点医院上线中国医院药物警戒系统(CHPS)前后开展药品不良反应(ADR)监测工作进行对比分析,体现国家哨点医院基于CHPS开展ADR监测工作的优越性。方法 回顾性方法收集运行CHPS前后ADR监测情况,应用鱼骨图对运行CHPS前ADR监测工作存在的问题进行根因分析,应用统计学对ADR监测中报告的新的、严重的、药品种类、零报告科室、占出院人数比例、累及系统及主要临床表现、给药途径及ADR病例监测进行对比分析。结果 运行CHPS前年上报348例ADR报告,其中新的/严重的91例(26.14%),涉及药品品种146种,其中西药141种(340例占比97.70%)、中成药5种(13例占3.74%),零报告科室10个(占比29.41%),占出院人数比例0.67%。运行CHPS后年上报771例,其中新的/严重的256例(33.20%),涉及药品品种214种,其中西药189种(754例占97.80%),中成药13种(22例占2.85%),零报告科室1个(占比2.56%),占出院人数比例1.21%,开展主动监测筛出29858例特征病例,提醒医师上报123例,占报告总数(771)的16.00%。结论 运行CHPS后提高了哨点医院ADR上报的效率、报告质量、上报率,减少漏报,ADR上报更加及时、准确、高效;提高了药师工作的技术含量,把ADR的危害降到最小,以此保障患者用药安全。

我院基于中国医院药物警戒系统(CHPS)对药物性肝损害的主动监测与上报

目的:探索药物性肝损害主动监测的有效方法,早期发现DILI,降低对患者的伤害。方法:通过CHPS主动监测功能,设置主动监测的参数,检索出可疑病例。药师应用电子信息系统筛查出DILI患者。结果:通过主动监测上报19例DILI。结论:药师基于CHPS对药物性肝损害的主动监测是有效可行的。早期诊断出DILI,降低对患者的伤害,促进用药安全。

Achieving Sustainable Development in Small Communities via Combined Heat and Power Systems

The design of a feasible Combined Heat and Power plant for a small community is presented. Of the many alternatives solid-waste disposal methods available, incineration of solid waste is recommended due to its potential energy recovery of the heat released during solid waste incineration and recovery of valuable by-products that can either be reused, re- cycled or marketed, among other advantages. Hence, an attempt is made to use the heat energy released during incin- eration of solid waste to produce steam in a boiler, which in turn powers a turbine for eventual generation of electricity. The two processes involved in the generation of electricity for in-plant use or for a small community via a steam turbine-generator combination and a gas compressor-gas turbine-generator are presented. The analysis of the amount of energy produced from the solid waste energy-conversion system using an incinerator-boiler-steam turbine-electric generator combination with a capacity of 4.5 tons/day is also presented. The net electric power for a small community was found to be 148.24 kW with an overall efficiency of about 21% having taken cognisance of the process power needs and unaccounted process heat losses. Moreover, exergy analysis of the proposed CHP plant was carried out whereby the respective energy and exergy efficiencies of 83.2% and 62.1% were obtained.

Solution for Smart Hybrid System of Electricity and Heat Generation for the Farms in Mongolia

In Mongolia,the numbers of herders who own more than 1,000 herds have been increasing year by year.Some of the herder families are operating small agricultural factories as well.The appropriate power supply systems are not being developed yet in their farms.At the farms,mostly 4-10 herder families work together and the monthly power consumption of one farm reaches to 11.8-14.9 kWh.Currently,the gasoline,diesel,solar and wind power are being used as a source of energy production.In addition,the small-scale CHP(Combined Heat and Power)system is not introduced to the farms for their sustainable operation.There are abundant biomass resources in the rural area of Mongolia.In this paper,we conduct experimental studies on biomass gasification system and suggest small-scale CHP system for rural farms in Mongolia.

基于深度强化学习的热电联产机组多工况自适应控制

针对热电联产机组受大范围出力工况运行波动性影响,导致汽轮机-锅炉协调控制系统发电负荷-抽汽流量-机前压力整体控制品质较差,提出一种基于多智能体深度确定性策略梯度(MA-DDPG)的多工况自适应控制方法。首先,根据机组非线性动态机理建立计及关键状态参数变化的多个工况子模型,利用积分型函数切换机制获取最优工况子模型;其次,提出一种多智能体同步运行机制,以快速响应、稳定供热及安全运行为协调控制目标来设计奖励函数,通过训练智能体与环境进行互动,不断在线调整多回路增益,实现机组多工况自适应控制。仿真结果表明,与传统控制方法相比,所提方法在保证供热平稳性的同时,有效提升了机组大范围出力工况发电负荷响应速率。

The ecosystem of Lake Kenon:past and present(Transbaikal Territory,Russia)

Present-day conditions of the Lake Kenon ecosystem are determined by a combination of natural and anthropogenic factors.We have estimated the effects of a complex of factors on the condition of the abiotic environment and on specific biological components in the lake ecosystem.Change in biogenic load has caused an increase in the role of phytoplankton in the general balance of organic matter during the high-water period.Charophytes are the main dominants of bottom vegetation.Anthropogenic load has caused a decrease in both fish species and fish capacity.The lake application as a water reservoir-cooler has influenced the average annual water mineralization(from 420 mg/L to 530.0 mg/L with a maximum 654 mg/L in 1993) and fluctuations in its hydrochemical composition.The present composition of the lake is sulfate-hydrocarbonate-chloride calcium-sodic-magnesium in character.SO 4 – content is twice as much as the maximum permissible concentration in fishery waters.Water drainage from an ash disposal area to the lake has caused an increase in chemical-element concentrations including the heavy metals.Hg concentration in Perca fluviatilis muscles is 0.5 μg/g dry wt.Thus,understanding directions in the ecosystem of the water reservoir-cooler under changing hydrological conditions will let us forecast the consequences of new combined heat and power plant operation.

含吸收式热泵的高能效热电厂优化运行研究

针对乏汽余热利用方案的差异性对比,文章首先基于吸收式热泵整体建模,建立配置最佳容量吸收式热泵后抽凝机组的可行运行区间模型以及煤耗函数模型。以此为基础,量化分析配置吸收式热泵较低压缸可灵活切除改造、高背压改造二者在运行灵活性、调峰成本和供热能力方面的优劣,提出包含3种余热利用方案的高能效热电厂厂内机组优化调度通用模型。最后根据东北某热电厂的数据,在不同场景下校验了3种余热利用方案的差异,进一步总结不同余热利用方案并存时,厂内不同类型机组之间的协同运行规律。

基于中国医院药物警戒系统的曲美他嗪处方点评实践

目的开发中国医院药物警戒系统(Chinese hospital pharmacovigilance system,CHPS)的处方点评功能并探讨其应用前景。方法利用CHPS的开发工具及专用搜索引擎,对2019年1月1日至2021年1月1日聊城市人民医院入院病人中曲美他嗪的使用情况进行分析和评价,并与人工点评结果进行比较。结果CHPS检索244406例住院病人,并完成1261例使用曲美他嗪住院病人的点评,共用时2 min30 s,共检索出953例病人用药不合理。经人工复核,40例病人被误判为不合理,曲美他嗪用药不合理率为72.40%(913/1261)。基于CHPS的曲美他嗪处方点评方案阳性预警率为95.80%(913/953)。对CHPS点评结果与人工点评结果进行χ^(2)检验,两者差异无统计学意义(P>0.05)。结论通过对CHPS处方点评功能的开发与推广,可以使CHPS兼顾药物不良反应监测与处方点评工作,从而打破区域屏障,实现资源共享。

太阳能PV/T光储直驱热电联产系统性能

面对居民日益增长的生活热水和电能需求,光伏/光热(photovoltaic/thermal,PV/T)技术的应用可以降低建筑运行时的能源消耗。本文介绍了一种太阳能PV/T光储直驱热电联产(combined heat and power,CHP)系统,为了减少系统运行过程中的能量损失,采用直流压缩机和储能电池,并在兰州地区对系统的运行性能开展了实验测试。研究结果表明,PV/T系统的光伏板温度相比传统PV组件温度平均降低12.26℃,平均发电效率相对提升8.1%。在将24.4~27.2℃的水加热到50.1~50.7℃的过程中,平均性能系数(coefficient of performance,COP)可达到5.48,相比传统空气源热泵热水器提高82.1%~106.8%。平均集热效率和综合效率分别为37.30%和71.24%,PV/T系统的发电量和耗电量分别为3.33kWh和1.69kWh,发电量相比PV系统提高5.7%。太阳能PV/T光储直驱热电联产系统可以减少建筑部门的能源消耗,并提升PV/T系统的发电效率和综合效率,在晴天条件下可以实现离网运行。