Operation Performance of Central Solar Heating System with Seasonal Storage Water Tank in Harbin

This paper presented a preliminary research on the central solar heating system with seasonal storage(CSHSSS)used in cold climate in China.A mathematical model of the solar energy seasonal storage water tank used in the central solar heating system was firstly developed based on energy conservation.This was followed by the simulation of the CSHSSS used in a two-floor villa in Harbin,and analysis of the impacts on storage water temperature of tank volume,solar collector area,tank burial depth,insulation thickness around the tank,etc.The results show there is a relatively economical tank volume to optimize the system efficiency,which decreases with increasing tank volume at the constant collector area,and increases with increasing collector area at the constant tank volume.Furthermore,the insulation thickness has obvious effect on avoiding heat loss,while the tank burial depth doesn't.In addition,the relationship between the solar collector efficiency and storage water temperature is also obtained,it decreases quickly with increasing storing water temperature,and then increases slowly after starting space heating system.These may be helpful for relevant design and optimization in cold climates in China and all over the world.

Attenuating water hammer pressure by means of gas storage tank

The basic equations for computing the volume of gas storage tank were derived from the principles of attenuating water hammer pressure. Verifications using experiments indicate that the proposed equation can provide a fare precision in the predictions. By using the model of solid liquid two phase flow, the gas storage tank, pressure relief valves and slow closure reverse control valves were compared with practical engineering problems, and the functions of gas storage tank in attenuating water hammer pressure were further investigated. [

Survey on Storage of Water for Domestic Use in Underground Reinforced Concrete Tanks: The Case of Brazzaville (Republic of Congo)

The problem of water supply from the public distribution network still poses very serious problems in many cities in developing countries. Intermittent water supply pushes some households to build underground reinforced concrete tanks for water storage to cope with unwanted water breaks. This study that relies on the results of a survey of households in some areas of the city of Brazzaville (Republic of Congo) aims to verify the importance that users attach to the quality of the works constructed. Indeed, the reliability of the tanks resulting in their impermeability to the external environment has a direct impact on the quality of stored water and therefore the use that is made of water daily. Five areas were selected because of their soil moisture. By 256 tanks identified, 143 are made of reinforced concrete and 113 in masonry. The coating materials used to seal the walls are preferably the earthenware tiles (64% of tanks), then the Sika cement (31%). Food painting (5%) is only rarely used. However, 66% of households are not assured of the potability of the water stored. A significant number of households (46%) think that the stored water could be contaminated with noxious substances seeping from the outside through the walls of the tanks. The issue of sealing of underground water tanks, especially in areas where the water table is shallow, seems concerned users.

Comparison and Performance Analysis of Heat Storage Equipment in Solar Heating System

Solar heating system is widely used recently. Heat storage equipment is the guarantee for steady performance of solar heating system. A design of latent heat storage exchanger with submerged coil was introduced with the structure, working principle, and the main advantages. This heat exchanger was integrated into solar heating system as the heat storage equipment. Advantage comparison of the designed heat exchanger in solar heating system with hot water tank was carried out. The analysis results show that the latent heat storage exchanger is superior to hot water tank obviously. The heat exchanger performance parameters and variations of these parameters are got： （1） with the increase of phase change material （PCM） volume ratio, heat storage equipment volume ratio decreases; （2） heat storage efficiency has the same varying tendency with outdoor and air temperature; while the bigger PCM volume ratio is, the weaker the effect of outdoor air temperature on heat storage efficiency is; （3） heat storage capacity and heat storage efficiency increase together; when PCM volume ratio is big, heat storage efficiency is high and the system can begin operating effcienfly and quickly; （4） with the increase of heat storage capacity, life cyde operation cost （LCOC） of system increases gradually in high speed; but with the increase of PCM volume ratio, the difference between the two systems LCOCs becomes smaller and smaller; （5） the reasonable range of PCM volume ratio is 0.5 - 0.7. Temperature characteristic analysis shows that, with the filled PCM, heat storage medium temperature presents several segments at different time, under conditions of different heat storage capacity and different PCM state.

基于Digital Water的初期雨水径流污染控制措施研究

初期雨水作为非点源污染已经严重影响城市水环境现状,初期雨水的治理也被国内外专家重视。分析类比了不同类型的初期雨水径流污染控制措施,阐述了初期雨水污染物的积累及冲刷过程的模拟函数。借助Digital Water对研究区域降水进行模拟,分析未开发、仅增加LID措施、增加LID措施与末端调蓄池组合方案3种情况,发现初期雨水的源头控制和末端控制对初期雨水径流总量削减和污染物浓度削减分别在不同的时间和空间上起着显著的作用,LID措施通过源头截留在降雨初期削减污染物浓度和洪峰流量,而后削减能力减弱,继而雨水进入末端调蓄池,降雨后期洪峰流量和污染物通过调蓄池削减。初期雨水的源头控制和末端控制组合应用效果良好,对流总量削减和污染物浓度削减有不同的贡献率。而初期雨水的过程控制也就是初期雨水截留控制应用及研究还不足,是未来研究和实践的发展方向。

Potential of rooftop rainwater harvesting to meet outdoor water demand in arid regions

The feasibility of rooftop rainwater harvesting （RRWH） as an alternative source of water to meet the outdoor water demand in nine states of the U.S. was evaluated using a system dynamics model developed in Systems Thinking, Experimental Learning Laboratory with Animation. The state of Arizona was selected to evaluate the effects of the selected model parameters on the efficacy of RRWH since among the nine states the arid region of Arizona showed the least potential of meeting the outdoor water demand with rain harvested water. The analyses were conducted on a monthly basis across a 10-year projected period from 2015 to 2024. The results showed that RRWH as a potential source of water was highly sensitive to certain model parameters such as the outdoor water demand, the use of desert landscaping, and the percentage of existing houses with RRWH. A significant difference （as high as 37.5%） in rainwater potential was observed between the projected wet and dry climate conditions in Arizona. The analysis of the dynamics of the storage tanks suggested that a 1.0-2.0 m3 rainwater barrel, on an average, can store approximately 80% of the monthly rainwater generated from the rooftops in Arizona, even across the high seasonal variation. This interactive model can be used as a quick estimator of the amount of water that could be generated, stored, and utilized through RRWH systems in the U.S. under different climate conditions. The findings of such comprehensive analyses may help regional policymakers, especially in arid regions, to develop a sustainable water management infrastructure.

深圳沙河水质净化厂及3#调蓄池工艺设计要点及特点

沙河水质净化厂设计规模为旱季10万m^(3)/d,雨季额外处理10万m^(3)/d初期雨水,3#调蓄池设计规模为15.3万m^(3)。污水及初期雨水处理采用预处理+多段厌氧-好氧(AO)+二沉池+磁混凝高效沉淀池+精密过滤+紫外消毒的工艺,出水水质执行深圳市地方标准《水质净化厂出水水质规范》(DB 4403/T 64—2020)B级标准,其中总氮(TN)≤8 mg/L。污泥处理采用离心浓缩+低温热干化工艺,处理后含水率≤40%。作为国内首个将水质净化厂与初期雨水调蓄池深度融合的全地下式水污染治理综合体,项目采用多段AO耦合“3W法”(Wet-Weather-Wastewater法),并以此为核心提出了一种实现大规模污水及初期雨水高标准协同处理的系统解决方案,且无需大幅度增加污水处理设施体量、投资和运行成本。

布水器结构参数对拼装式方形蓄热水箱热分层性能影响的实验研究

本研究提出了一种用于改善拼装式方形蓄热水箱内部热分层效果的方形布水器,对比了有无布水器对蓄热水箱热分层的影响。实验研究了布水器的3种结构参数(平板尺寸、平板间距、挡板安装形式)对蓄热水箱热分层的影响。结果表明:布水器入口方式能有效改善水箱内热分层效果;平板当量直径与水箱当量直径比为0.15、平板间距与水箱高度比为0.05的布水器表现出更好的分流效果,挡板安装形式对水箱热分层的影响不大。

可燃液体储罐区固定式灭火系统管网布置方式的探讨

为充分发挥固定式灭火系统的作用,有效缩短灭火时间,提高可燃液体储罐火灾的灭火效率,降低火灾对消防人员生命安全的威胁,本文系统调研了国内已建成的固定顶储罐、外浮顶储罐的固定式泡沫灭火系统管网的布置方式和消防冷却水系统的管网布置方式,分析了不同布置方式的优缺点,提出了可燃液体储罐区固定式灭火系统设计及改进的建议。

光伏蓄能恒温库系统数值模拟分析

为进一步降低热泵系统冬季能耗,减少恒温库能源消耗情况,本文提出了一种新型光伏驱动蓄能型恒温库系统。基于TRNSYS仿真系统,构建了太阳能-热泵蓄能型热力耦合数学模型,对该恒温库系统进行数值模拟和理论分析。结果显示,在新型光伏驱动蓄能型恒温库系统运行下,库内温度可以稳定维持在-2.0~3.7℃保持24 h,在稳定运行过程中热泵系统运行效率保持在3.0~4.0,系统平均性能系数(COPa)可以达到1.9,系统运行功率在0~0.7 kW,系统24 h累计制热量达到了18.0 kW·h,日平均累计消耗市电仅6.8 kW·h。结果表明,该系统可以为节能型恒温库提供一种设计依据。

城中村初雨调蓄池的设计与应用

城中村作为外来人口的主要聚集地,基础设施薄弱,雨水在形成地表径流过程中携带的污染物日益增多,初期雨水污染已经成为河流污染的主要来源。通过对调蓄池截水系统、排空系统、冲洗系统、除臭系统等的介绍及经验总结,为调蓄池设计提供借鉴及指导依据,为城中村初期雨水污染控制提供系统的解决方案。

GT-GRA-TOPSIS在雨水调蓄池选址及数量优化中的应用

【目的】为有效减轻极端暴雨天气造成的城市洪涝问题,开展了对城市雨水排水系统(USDS)中雨水调蓄池(SST)的选址及数量优化的研究。【方法】采用博弈论(GT)思想将层次分析法(AHP)获得的主观权重与改进熵值法(IEVM)获得的客观权重组合赋权,并与灰色关联分析(GRA)和逼近理想解排序(TOPSIS)相结合,建立了城市内涝与面源污染风险的定量评估框架。根据各节点的相对接近度确定风险等级,风险较高的节点设置SST,根据积水削减率和总悬浮物(TSS)削减率优化SST的数量。以山西省长治市为例,探讨了该方法在不同降雨重现期时城市内涝和面源污染的控制效果。【结果】GRA-TOPSIS法在5 a和10 a降雨重现期时的综合变异系数分别为0.355和0.361,极值均为0.496,均高于单独GRA或TOPSIS.【结论】GT赋权并耦合GRA-TOPSIS的优化方法采用较少的经济投资可较好地消除城市内涝和面源污染风险,为SST的选址和数量优化提供了新思路。

Recent Progress on Thermal Energy Storage for Coal-Fired Power Plant

With countries proposing the goal of carbon neutrality,the clean transformation of energy structure has become a hot and trendy issue internationally.Renewable energy generation will account for the main proportion,but it also leads to the problem of unstable electricity supply.At present,large-scale energy storage technology is not yet mature.Improving the flexibility of coal-fired power plants to suppress the instability of renewable energy generation is a feasible path.Thermal energy storage is a feasible technology to improve the flexibility of coal-fired power plants.This article provides a review of the research on the flexibility transformation of coal-fired power plants based on heat storage technology,mainly including medium to low-temperature heat storage based on hot water tanks and high-temperature heat storage based on molten salt.The current technical difficulties are summarized,and future development prospects are presented.The combination of the thermal energy storage system and coal-fired power generation system is the foundation,and the control of the inclined temperature layer and the selection and development of molten salt are key issues.The authors hope that the research in this article can provide a reference for the flexibility transformation research of coal-fired power plants,and promote the application of heat storage foundation in specific coal-fired power plant transformation projects.

24h全日集中空气源热泵热水系统贮热水箱容积的分析探讨

在空气源热泵热水系统设计中,贮热水箱容积的计算至关重要。介绍并分析了现行标准规程贮热水箱容积的计算公式,指出了公式运用时可能存在的问题。针对空气源热泵定时运行、24 h全日集中热水供应系统,根据热泵运行时间与用水高峰持续时段的覆盖关系,分情况分析并推导了贮热水箱容积的计算公式。在设计取值范围内,对上述推导公式计算的贮热水箱容积进行了分析。提出了贮热水箱容积在方案阶段的估算建议值。

大型储液罐内外基础环墙抗不均匀沉降性能分析

大型储液罐对地基沉降变形非常敏感,需要采用基础环梁来防止其对上部结构的危害,因此,基础环梁设计是大型储罐建设的重要一环。本文采用有限元软件对大型储罐-基础环梁-地基土层的共同作用进行了数值模拟,主要考察了大型储油罐基础环墙环向拉力的分布,探讨了影响环墙受力的主要因素。研究表明,垫层参数对环墙环向拉力的影响较大,压缩性低,抗剪强度大并经过压实处理的垫层材料对应的环墙环向拉力最小,环墙环向拉力随环墙半径的增大先近似线性增加而后略微减小。

2×330 MW热电机组热电解耦深度调峰技术研究

通过对比热电解耦技术路线,确定对A热电厂2×330 MW热电机组配合应用电锅炉解耦技术和储热罐解耦技术。结合该机组实际运行经验,对电锅炉和蓄热水罐设备进行了最优选择,可以满足供热期的最大供热需求。经济性分析证明该方案具有良好的经济效益,为热电企业深度调峰工作提供了经验。

矿山井下排污水系统自动化应用研究

矿山井下水仓排水系统多采用自吸式排污泵进行排放污水,排水期间需要人员手动开启水泵及阀门,并且需对水泵的排水状况进行实时监管,否则当水仓内污水排空时,若不及时关闭水泵及阀门则会引发电机烧毁、泵头机械密封损坏等一系列故障。针对这一现状,本文对矿山井下水仓排污水系统进行自动化控制改造,在原有排水系统的基础上增设电动偏心半球阀、水位传感器、搅拌机以及电气控制系统等相关部件,利用水位传感器的信号电动控制水泵的启停以阀门的开关,同时优化安装工艺并进行调试,实现了排水自动化。经过对比分析,系统故障率下降了60%,现场使用效果显著,减轻了维修人员的工作量,切实提高了矿井排水的安全性以及稳定性。

纺织空调开式系统缓冲水箱的应用研究

为提高冷冻循环水的使用效率,进一步减少初期投资、节约能源,根据不同温度下水的密度不同的性质,对纺织空调开式系统缓冲水箱进行研究。结果表明:相对于传统缓冲水箱,新型开式系统缓冲水箱在实现应急冷源调峰的同时减少了水箱的容积,并且实现了缓冲水箱的自然分层的水蓄冷。认为:在纺织空调设计中,新型开式冷冻循环水二次泵系统的缓冲水箱设计可以更好地解决应急冷源调峰,充分利用自然分层的水蓄冷原理,提高了水箱蓄冷的体积利用率,从而减小缓冲水箱的容积,节省了制冷机房的占地面积,进而节约成本。在低负荷运行情况下,可以停止冷水机组工作,利用缓冲水箱供冷,可避免冷水机组的小负荷运行,提高冷水机组的运行效率。

涉水油田储罐溢油风险量化评估技术研究

文章分析了储罐溢油发生的事故原因、影响机制,通过细化影响因子,整合数据模型,从涉水油田储罐溢油频率、环境受体影响、溢油泄漏后果、溢油风险等级等方面构建了储罐溢油风险模型,通过实际运算案例对方法进行验证,提出熟练运用模型,夯实基础信息强化体系管理,加强人员培训提升安全意识等强化储罐溢油风险管理的建议。通过评估潜在风险,有助于各涉水油田企业、港口码头、海事部门、应急部门采取相应风险管控措施,减少事故发生的可能性,提升安全生产管理水平、保护生态环境。

资源共享在氯碱生产中的应用

利用一期与二期氯碱装置的布局优势和产能优势,对两期装置的部分仪表气系统、循环水系统、纯水系统、电解系统淡盐水槽和盐酸储槽进行互连互通,在满足现有生产需求的前提下,实现过剩产能互补利用以及异常工况下的资源互助,其在安全、环保、节能方面发挥重要的作用。