Experimental Investigation of Demand Controlled Ventilation Systems： A Suitable Alternative for Controlling Ventilation in Dwellings

Indoor CO2 concentration depends on the number of persons, their metabolic rates, other sources of indoor pollution, ventilation rate and ventilation efficiency. These factors are not considered by the Spanish technical building code since ventilation is set only by a fixed air change rate. This paper aims to explore the possibilities of DCVS （demand controlled ventilation systems） to ensure adequate and sustainable ventilation. It is based on a research project carried out by the University of the Basque Country （EHU-UPV） and Euskadi Public Housing and Soil Join-Stock Company （VISESA）： the living rooms of 90 dwellings were provided with DCVS, where CO2 sensors were used to dynamically control the ventilation rate. Tests were carried out using tracer gas techniques, with results showing the air age to be adequate at every point of the occupied zones and free of stagnant areas, therefore proving the system＇s effectiveness and rapid response, and its energy savings.

A Hybrid Dynamic Demand Control Strategy for Power System Frequency Regulation

The rapid increase in renewable energy integration brings with it a series of uncertainty to the transmission and distribution systems.In general,large-scale wind and solar power integration always cause short-term mismatch between generation and load demand because of their intermittent nature.The traditional way of dealing with this problem is to increase the spinning reserve,which is quite costly.In recent years,it has been proposed that part of the load can be controlled dynamically for frequency regulation with little impact on customers’living comfort.This paper proposes a hybrid dynamic demand control(DDC)strategy for the primary and secondary frequency regulation.In particular,the loads can not only arrest the sudden frequency drop,but also bring the frequency closer to the nominal value.With the proposed control strategy,the demand side can provide a fast and smooth frequency regulation service,thereby replacing some generation reserve to achieve a lower expense.

Evaluation of the performance of demand control ventilation system for school buildings located in the hot climate of Saudi Arabia

The advantages of the demand control ventilation system(DCV)have been widely discussed in previous research studies.However,the literature has not addressed the benefits of DCV on controlling indoor CO_(2)concentration and minimizing cooling energy consumption for school buildings located in extremely hot climates.Therefore,this paper contributes to the development of DCV and mechanical ventilation systems through a comprehensive evaluation of these systems to maintain acceptable indoor air quality(IAQ)while minimizing cooling energy demands for school buildings located in the harsh hot climate of Saudi Arabia.The evaluation is based on a calibrated whole-building energy model and validated IAQ predictions using field data obtained from a school case study in Jeddah.The results of this research study confirm that hourly and sub-hourly monitoring of indoor CO_(2)concentration is required to ensure optimal design and operation of the ventilation systems in schools.In addition,the analyses indicate that a 13%increase in cooling energy end-use can result for any additional 0.1 students/m^(2)density increase in the classrooms.However,the energy penalties related to ventilation needs can be reduced by up to 25%using DCV instead of conventional mechanical ventilation systems for school buildings located in Saudi Arabia’s hot climate.

Co-effect of Demand-control-support Model and Effort-reward Imbalance Model on Depression Risk Estimation in Humans: Findings from Henan Province of China

Objective To investigate the co-effect of Demand-control-support （DCS） model and Effort-reward Imbalance （ERI） model on the risk estimation of depression in humans in comparison with the effects when they are used respectively. Methods A total of 3 632 males and 1 706 females from 13 factories and companies in Henan province were recruited in this cross-sectional study. Perceived job stress was evaluated with the Job Content Questionnaire and Effort-Reward Imbalance Questionnaire （Chinese version）. Depressive symptoms were assessed by using the Center for Epidemiological Studies Depression Scale （CES-D）. Results DC （demands/job control ratio） and ERI were shown to be independently associated with depressive symptoms. The outcome of low social support and overcommitment were similar. High DC and low social support （SS）, high ERI and high overcommitment, and high DC and high ERI posed greater risks of depressive symptoms than each of them did alone. ERI model and SS model seem to be effective in estimating the risk of depressive symptoms if they are used respectively. Conclusion The DC had better performance when it was used in combination with low SS. The effect on physical demands was better than on psychological demands. The combination of DCS and ERI models could improve the risk estimate of depressive symptoms in humans.

Distributed demand side management via smart appliances contributing to frequency control

Nowadays renewable energy has become a trend for energy production but its variable nature has made balancing of demand and supply of the power grid difficult. Dynamic demand management using smart appliances is proposed to serve as a way that part of the regulation burden of balancing demand and supply is shifted to the demand side. However, if all appliances respond to the same frequency deviation, they may start to synchronize, causing large power overshoots and instability of the power grid. Therefore, the idea of implementing randomness into the frequency control of the appliances is proposed and this is what we call a stochastic approach. Simulators are built from scratch to model both scenarios. The effect of synchronization is analyzed and the parameters that can affect the synchronization are investigated. It has been found that the larger the contribution from the smart appliances to the power grid, the easier and faster the synchronization takes place. The stochastic approach solves the problem of synchronization and averages out the large power overshoot. However, the overall performance of stochastic operations is unacceptable due to the randomness in the operation though the mean and variance are as expected. More advanced feedback policies and schemes may be designed to achieve a better performance.

随机需求下考虑竞争因素的众包快递平台定价策略研究

伴随着“共享经济”模式的高速发展,众包快递模式应运而生。在此背景下,文章针对众包快递平台需求呈现随机且波动变化的特点,考虑众包快递平台之间的竞争,基于古诺竞争博弈理论,建立了考虑市场需求和市场竞争的动态定价模型,并运用变分法求解最优的价格问题。由于市场需求的变动,众包快递平台的最优服务价格会发生动态的改变,同时也受到平台间竞争的影响,最优服务价格将随着平台之间竞争强度的变化而变化。

考虑空气源热泵负荷聚合参与的需求响应

基于“电网-聚合商-负荷”三级架构,提出空气源热泵负荷聚合参与需求响应的控制策略。供暖运营商作为热泵负荷的聚合商,在保证用户热舒适度的基础上,利用建筑本身的蓄能能力,结合分时电价最小化供热成本,并对负荷可调节潜力进行评估。当电网调度部门下发调控指令后,考虑用户舒适度和电网调节需求,基于多目标遗传算法分配各负荷调节量,在满足调控目标的同时可改善调控带来的聚合功率振荡、反弹负荷大等问题。最后,仿真验证所提策略的有效性。

宿迁经济技术开发区需水预测及用水总量控制指标核定研究

通过分析宿迁经济技术开发区水资源开发利用现状,根据区域人口、经济发展指标,对规划年进行需水预测。依据区域用水总量和效率控制指标、区域地下水取用水总量和水位管控要求等,结合区域功能定位、产业布局,核定了用水总量控制指标,为进一步简化建设项目水资源论证审批程序以及提高审批效能等提供参考。

计及需求响应的光热电站参与深度调峰的分层优化调度策略

从源、荷两侧挖掘系统调峰潜力,建立计及需求响应的光热电站参与深度调峰的分层优化调度模型。上层从负荷侧出发,提出一种基于负荷分类的价格需求响应模型,可有效缓解系统调峰压力;中层从电源侧出发,利用光热电站灵活的调节特性在深度调峰时段协调火电机组参与辅助调峰,构建以运行总成本最小为目标函数的日前调度模型;下层提出一种基于模型预测控制的日内动态调整模型,在滚动优化的同时,通过状态反馈环节实时调整光热电站储热装置充放热修正日前调度计划。仿真结果表明,所提调度策略在降低系统调峰成本的同时能有效抑制风光以及负荷的短时功率波动,在保证系统安全稳定运行的前提下提升风光消纳率。

控制性供水湖泊旱限水位确定方法——以洱海为例

旱限水位作为干旱预警以及工程抗预案的重要指标和依据,对科学指导湖泊开展抗旱调度具有重要的作用。本文针对控制性供水湖泊的特征,在充分考虑湖泊自身生态健康稳定的同时,结合湖泊兴利调节逆序递推计算,提出了一种控制性供水湖泊旱限水位计算方法,以洱海为例,验证了该方法的合理性。结果表明:通过设定旱限水位,在考虑湖泊最小生态需求的基础上,通过在干旱前期预留水量,可有效缓解干旱年份的湖泊周边地区的严重缺水情况;在设置旱限水位后,连旱最不利年份下洱海环湖供水缺水量减少1023万m^(3),引洱入宾农业灌溉用水减少1016万m^(3),环湖城市供水、引洱入宾灌溉严重缺水月数分别减少11、10个,低于最低生态水位月数减少15个。本研究为水旱灾害防御部门制定湖泊旱限水位、指导湖泊开展抗旱调度提供了一套通用算法,能够为干旱防御决策提供科学依据和技术支撑。

论守门人平台市场力量的形成逻辑与认定规则

遵循何种逻辑、设置何种考察因素与标准认定守门人平台的市场力量是数字经济规制的一个基础性问题。现有的考察因素是结合了传统平台经济特性的修正,存在考察因素过于复杂、包含关系混乱导致的适用困境。造成这一困境的根源在于既有的市场力量认定逻辑与考察因素的设置是围绕“产能控制”的底层逻辑,这一逻辑在守门人平台语境下存在适用偏差。守门人平台市场力量的生成与维持逻辑是围绕“需求控制”展开,积累用户规模、利用网络效应、采取策略性商业手段主要以实现需求方规模经济最大化以及阻碍需求转向为基本商业逻辑。因此,在守门人平台市场力量认定的考察因素设置上,应当以是否实现了“需求控制”为基准,以需求方规模经济的实现以及阻碍需求转向为基本分析维度,并需重点考察用户数量大小、网络效应强弱、用户需求依赖性、数字生态系统构建和数据的获取、收集与利用情况。

传输控制中的确认机制研究

Internet传输层协议需要依赖于确认(ACK)机制提供的反馈信息,实现拥塞控制和可靠传输等功能.以Internet传输协议演化的历史为线索,回顾传输控制领域中的确认机制,并讨论现有确认机制中需要解决的问题;基于“类型-触发条件-信息”三要素,提出按需确认机制及其设计原则,重点分析确认机制和拥塞控制、丢包恢复等传输协议子模块之间的耦合关系;结合设计原则,详细阐述一种可行的按需确认机制实现——TACK机制,并对相关概念进行系统的、深入的分析和澄清.最后结合按需确认机制面临的挑战,给出几个有意义的研究方向.

人口老龄化对医疗费用的影响及其影响机制研究——基于中介效应和调节效应分析

基于2011—2021年的省级面板数据,利用中介效应和调节效应分析我国人口老龄化对医疗费用的影响以及其影响机制。结果发现,人口老龄化显著促进了医疗费用的上升,中介效应的结果显示人口老龄化会进一步加剧医生诱导需求行为,引起医疗费用的不合理增长;调节效应的结果显示随着收入约束的放松,人口老龄化对医疗费用的影响也随之增加,同时也进一步促进了医生的诱导需求行为。地区间异质性分析表明,东部地区医疗费用更容易受到老龄化的正向影响,西部地区医疗费用容易受诱导需求影响,且经济发展对该影响的正向调节作用更强。因此,在费用控制和健康老龄化的背景下,我国应进一步完善健康导向的医疗服务体系建设,减少不必要的医疗支出,针对老年人等弱势群体建立有针对性的医疗行为引导和监管机制,提高医疗资源的使用效率。同时,针对不同地区的问题,进行精准施策。

CPT在实现我国控烟目标中的应用探索

目的:采用卷烟购买任务(cigarette purchase task,CPT)对我国吸烟者的卷烟需求进行评价,并评估不同假设情境下的卷烟价格,以实现“健康中国2030”行动中降低吸烟率的目标。方法:共计447名受试者通过问卷调查完成CPT,根据价格框架和对应的卷烟消费量拟合卷烟需求曲线,并得到5个相关指标,分别为强度(免费时的卷烟消费量)、断点(消费量降为0的价格)、最高消费额(maximum output,Omax)、最高价格(maximum price,Pmax,最高消费额对应的卷烟价格)和弹性(消费量变化与价格变化的比率)。采用单因素分析探索CPT指标和社会人口学特征、吸烟特征的相关性。采用单相衰减模型拟合戒烟率-卷烟价格曲线,并确定一系列情境下能使吸烟率降到20%的最佳卷烟价格。结果:从卷烟需求曲线得到吸烟者弹性为0.54,表明价格上涨10%可使吸烟率降低5.4%。收入越高的吸烟者对卷烟价格敏感性越低(弹性=-2.31,P=0.028)。CPT指标在常用卷烟价格、吸烟量和烟草依赖程度不同的吸烟者中差异有统计学意义,常用卷烟价格越高的吸烟者断点、最高消费额和最高价格均越高,弹性越低(P=0.001),烟草依赖程度越高的吸烟者强度、断点、最高消费额和最高价格均越高,而弹性越低(P=0.001),吸烟量更大的吸烟者强度、最高消费额更高,弹性更低(P<0.001)。要实现将吸烟率降至20%的目标,卷烟的价格至少为37.36元/包,调整受教育水平和收入水平后,卷烟价格分别至少为37.37元/包和37.84元/包。结论:CPT指标与收入水平和常用卷烟价格、吸烟量和烟草依赖程度显著相关,在研究影响吸烟行为的价格因素方面有应用空间;本研究模型拟合卷烟价格远超当前实际市场水平,应采取更有力的政策措施提高烟草税和卷烟零售价,以实现将吸烟率降低到20%的“健康中国2030”目标。

城市配电网数智化电动汽车需求响应控制措施及机制研究

新能源电动汽车快速发展对城市配电网乃至全网供需平衡运行的影响日益突出。笔者通过分析新能源发电特性、典型配电网台区用电特性,提出电动汽车需求响应技术手段、市场及政策机制、车桩行政规范建设等控制措施,设计了移峰填谷引导、填谷响应充电、谷用峰发双向三种响应模式,并探索配电网电动汽车需求响应步骤及控制流程。电动汽车电力需求响应可最大程度平抑大量新能源的随机性引发的低谷消纳困难和高峰电力供应紧缺交替运行的阶段性波动,减少大量电动汽车随机充电对城市配电网用电高峰的冲击及重过载影响,增加低谷富余电力消纳能力,降低电动汽车用电成本,并提高发输变配电力设备利用效率,减少电力固定建设投资。

组织变革对员工工作沉浸体验的影响机理研究

组织变革是企业适应新环境和重新建立市场竞争优势的重要手段,组织变革能否成功的关键在人,因而员工工作沉浸体验对组织变革至关重要。本文通过对367位企业员工进行问卷调查,基于悖论理论、工作需求—控制模型和沉浸体验模型,检验组织变革对员工工作沉浸体验的影响、工作需求与工作控制匹配在两者关系中的中介效应,以及心理资本在两者关系中的调节效应。研究结果显示,组织变革对员工工作沉浸体验具有正向影响,工作需求与工作控制匹配在组织变革对员工工作沉浸体验的影响中发挥中介效应,心理资本在组织变革对员工工作沉浸体验的影响中发挥调节效应。本文不仅丰富了组织变革和员工工作沉浸体验方面的研究,而且为企业顺利推进组织变革提供了经验证据。

大规模变频空调的可信聚合优化与自适应分散协调方法

变频空调(IAC)可观的调节潜力使其成为电力系统的重要灵活性资源,但其海量、异质和隐私敏感的特点使得集中式调控实施性不佳。现有的弱中心化方法较为关注计算效率的提高,对结果的可行性和解聚合的自适应性考虑不足,极易导致实际负荷分配越界且收敛困难。因此,首先基于IAC物理模型,通过构建保守能量场景得到个体可信边界,以保证集群调度曲线始终处于可调范围内。然后,为了敏捷地分配负荷,提出基于分层分散式架构的自适应解聚合策略,使集群在各时段精确跟踪调度目标并最小化效用损失。其控制过程轻量、无参数化,且仅需极少迭代即可快速得到可行次优解;数据经分层汇总后实现降维,避免了个体隐私泄露,更具实施性。最后,为进一步挖掘实时调节潜力,利用IAC集群进行三相负载均衡,开创了应用场景,并通过“迭代即调整”方式平抑负荷与光伏波动,实现能量优化、分配、平衡的完整统一。算例结果验证了所提方法的高效性,为海量IAC的灵活性挖掘提供了新思路。

基层疾病预防控制机构2017—2022年政务热线案件特征分析

目的通过分析2017—2022年某基层疾控机构政务热线诉求反映的问题,为基层疾控机构政务热线处理提供参考。方法回顾性对比分析2017—2019年(常态化防控期)与2020—2022年(动态化防控期)受理的市民热线政务工单,通过比较诉求原因分类及受理科室分布,探讨不同时期市民诉求的变化情况。结果该基层疾控机构在动态化防控期(6974件)受理热线工单量较常态化防控期(284件)增加了23.6倍。常态化防控期“公共卫生服务质量”类(7.75%)、“公共卫生服务可及性”类(49.30%)诉求引发的案件占比高于动态化防控期同类型案件占比(3.63%和19.29%)。动态化防控期“管理措施”类(27.37%)案件占比低于常态化防控期同类案件(33.10%),“数据信息化”类案件受理量在动态化防控期间更为突出。结论动态化防控政策直接影响了市民获得公共卫生服务的体验,导致市民诉求原因的变化。基层疾控机构应通过完善公共卫生服务能力建设,以诉求问题为导向,加强沟通培训等措施提高政务热线处理能力。

2023中国舞台影视灯光调研分析报告———工程应用篇

根据中国照明学会舞台电影电视照明专业委员会2023年对国内灯光设备、舞台机械、工程集成等企业的调研情况,分析探讨相关企业在产品研发、技术创新和工程应用等方面的发展现状,以期共同推进技术进步和行业发展。

喀斯特石漠化治理生态产品价值实现及其对乡村振兴的启示

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