Energy Saving Cooperative Communication over Fading Channels with Relay Selection and Power Control

In order to save energy and make more efficient use of wireless channel, this article puts forward an energy saving cooperative relaying scheme which actuates the cooperative transmis- sion only when the feedback from the destination indicates failure of the direct transmission. The proposed scheme selects the optimal relay and its corresponding transmission power in each time slot based on channel condition and residual ener- gy with the objective of minimizing energy con- sumption and extending network lifetime. In the study, the f＇mite-state Markov channel model is used to characterize the correlation structure of channel fading in wireless networks, and the pro- cedure of relay selection and transmission power decision is formulated as a M arkov decision process. Numerical and simulation results show that the proposed scheme consumes less energy and prolongs the network lifetime.

Discussion on the application of the concept of environmental protection and energy saving in the design of building water supply and drainage

With the current,our country social economy rapid development,people's living standard and quality of life and therefore have got improved,at the same time,it is the concept of environmental protection and energy saving is also enhanced value,many fields in our country environmental protection and energysaving concept can be seen in the application,especially the application in building water supply and drainage design more widely,to protect the environment,to maximize the use of limited resources,how to reasonable use of water resources in building water supply and drainage construction,above is current the paper mainly discusses the problems in the construction field,this paper based on environmental protection and energy-saving concept,discusses its application in the building water supply and drainage design,for your reference.

Energy saving performance improvement of intelligent connected PHEVs via NN-based lane change decision

Plug-in hybrid electric vehicles(PHEVs) unite the advantages of the engine and electric motor which could provide great potential in saving energy. However, the fuel economy performance of the PHEVs is highly associated with the driving condition, especially for parallel PHEVs because they could not decouple the engine work status from the driving condition. Meanwhile, fuel economy performance is not only a longitudinal issue but also related to lane selection. Lane selection is an important driving behavior and the algorithm of lane selection is necessary for the development progress of intelligent connected vehicles. Energy consumption cost is an important part of the vehicle’s using consumption cost. Therefore, lane selection strategies must consider this point.With the development of intelligent connected vehicle technology, such as V2X(Vehicle to Everything), the potential of energy consumption performance of intelligent connected PHEVs could be improved by taking environment information from V2X and smart sensors into lane selection. In this paper, a neural network(NN) based method is proposed to predict the future status of the local vehicle using the information from V2X, and then another network is used to estimate the future energy consumption of each lane. The lane selection is decided on energy consumption estimation. Lastly, the effectiveness of the method is validated by simulation using Matlab combined with SUMO(Simulation of Urban MObility).

Energy saving analysis of a transparent radiative cooling film for buildings with roof glazing

A transparent radiative cooling(T-RC)film with low transmittance in solar spectra and selectively high emissivity in the atmospheric window(8-13𝜇m)is applied on roof glazing for building energy saving.To evaluate the per-formance of the T-RC film,two identical model boxes(1.0 m×0.6 m×1.2 m,L×W×H)were constructed and the inside air temperatures were measured in August in Ningbo,China.Results show that the maximum temperature difference between the two model boxes with and without the T-RC film was 21.6℃during the experiment.A whole building model was built in EnergyPlus for the model box.With a good agreement achieved between the calculation results and the measured temperature data,the experimentally validated EnergyPlus model was then extended to an 815.1 m^(2)exhibition building with roof glazing to analyze the annual air conditioning(AC)energy consumption.The results show that by incorporating both the T-RC film’s cooling benefit in summer and heating penalty in winter,the annual AC energy consumption of the exhibition building can be reduced by 40.9-63.4%,varying with different climate conditions.

生料辊压机终粉磨系统节能减碳实践中存在的问题与对策

因原材料水分大、系统烘干能力不足、设备阻力大、高效选粉机结构缺陷等原因造成生料辊压机终粉磨系统运行不稳定且循环负荷大、停机次数较多、系统阻力大、循环风机拉风过大、细度跑粗现象,导致生料工段电耗偏高、成品细度合格率低。对物料特性、工艺流程、设备选型及运行、成品细度进行热工诊断和研究分析,并实施相应的设备、工艺及系统操作优化措施。优化后,生料辊压机终粉磨系统工段电耗降低了2.2kWh/t,选粉效率提升,成品细度明显改善,实现提质增效,节能减碳的目的。

碳交易驱动下的公共建筑节能改造技术选型决策研究

针对公共建筑节能改造方案决策,从节能与碳交易综合收益出发,建立围护结构(墙体、窗体)改造、照明改造、空调优化、屋顶光伏、锅炉电能替代六项技术的节能减碳与经济效益模型,借助多元回归算法构建电价、碳交易价格波动下的改造方案决策方法,突破传统的经验赋权评价模式,推演最佳初投资金额和各项技术选型决权重与优先级,最后结合工程案例验证了方法的有效性,旨在为业主灵活应对能源与碳交易市场、精准节能提供参考。

基于交能融合的分布式海上风电选址与布置

[目的]在近海浅水海上风电场场址资源日益稀缺,场址逐步向深远海、大型化、基地化发展的背景下,探讨一种交能融合的分布式海上风电,以规避开放式水域的大型海上风电场常出现的涉海范围广、征海面积大、影响通航安全等问题。[方法]基于已建或正在规划的大型港区配套建设的防波堤进行优选场址,在分析港池与防波堤的功能与布置的基础上,通过对海上风力发电机组及海底电缆的优化布置,可实现技术与经济、政策与环境等多方面的提升。[结果]对比国内数十个开放式水域已建海上风电工程,基于交能融合的分布式海上风电场可显著地缩小场址涉海范围、减少征海面积,并降低对周边区域船舶海上通行的影响,是一种相对安全、经济、环保的海上风电场址类型。[结论]通过对交能融合的分布式海上风电选址与布置的探讨,阐述了该类型海上风电场在节约用海、减少海上碍航物、捆绑送出和就地消纳、施工与运维等多方面的优点,并可将其作为现阶段单一海上风电类型的重要补充,成为一种新的增量海上风电场址资源。

能耗均衡与节能的自适应水下路由协议

针对水下传感器网络中节点能耗不均衡和能量有限的问题,提出一种能耗均衡与节能的自适应水下路由协议ECBES(energy consumption balanced and energy saving adaptive underwater routing protocol)。构建双区非均匀分层拓扑。基于能耗均衡因子,利用拓扑和节点剩余能量计算节点转发优先级,实现自适应转发节点选择,均衡网络能耗。与此同时,通过候选转发区域各分区域中节点参与转发数据包的比例确定次优候选转发区域,将次优候选转发区域作为初始策略,利用策略迭代思想确定最优候选转发区域,保证投递率的同时减少不同网络规模中重复数据包的转发,降低网络的整体能耗。仿真结果表明,ECBES相比VBF、ES-VBF和ALRP,在不同节点数量下,节点死亡率均最低,在保证数据包投递率的同时,能耗最少。

高层办公建筑的电气节能与环保设计策略

本文主要以某实际高层办公建筑为例,对其电气节能和环保设计策略进行分析。包括能耗分项计量设计、能效管理系统设计、节能环保灯具选择、开敞办公室照明系统设计等策略。希望通过本次的分析,可以为高层办公建筑中的电气节能及其环保设计提供一定参考,以此来提升现代高层建筑电气工程的节能环保效果。

建筑节能设计Low-E玻璃窗的遮阳参数取值分析

节能外窗属于精密工业制品,也是建筑工程外围护结构的重要组成部分。为能降低房间内的夏季太阳得热,工程中通常采用低辐射Low-E玻璃外窗,但由于国家及各地区的技术规范对Low-E玻璃窗的参数取值不尽相同、审图机构的把握尺度不一、门窗厂家的加工技术水平参差不齐,为能解决Low-E玻璃外窗的遮阳参数取值和选型困难的问题,达到概念清晰、数据可靠、便于实施的目的,文中采用公式计算和查表对比的方法,对规范的遮阳参数概念作补充说明,同时结合江苏某住宅项目的工程实践,给出Low-E玻璃窗遮阳参数的取值原则和建议,并认为一般Low-E玻璃的自遮阳系数取值最高不应超过0.60。

关于低压电动机能效等级选择的探讨

文章对低压电动机能效等级的新旧标准进行了对比,并对相关国家政策的要求进行了详细介绍,对低压电动机能效等级的选用提出了建议。

大型矿山发展时代技术应对方法的探讨

鉴于年产超1 000万吨的大型水泥原料矿山和砂石原料矿山具有投资额大、运营费用高,矿区占地面积大、开采深度高,开采技术条件复杂,矿石质量变化大,对周边环境及配套条件要求高等特点,结合大型矿山的设计,提出了大型矿山前期矿点的选择应充分评价矿区及周边环境、矿石品质、矿山储量折减程度、矿山地质条件、开采条件、可综合利用资源等重要技术因素;同时,应对大型矿山进行合理分区开采规划、合理平衡采矿与剥离的超前关系、合理选择开拓运输系统、科学确定溜井平硐系统参数、合理配置开采设备、充分利用采空区排废、合理设计排废场等节能降耗措施,为大型矿山建设提供了技术应对方法。

110kV变电站设计与设备选型的优化策略研究

本文阐明了110 kV变电站的概念及特性,提出变电站设计应注重的关键点,从电网模拟仿真分析、高效节能设备选型以及自动化与信息化技术应用三个角度,分析了110 kV变电站设计与设备选型的优化策略。研究结果表明,运用电网仿真对变电站供电区域的电网运行情况进行建模分析,找出稳定性的薄弱环节,可为变电站设计方案的优化提供依据;选用低损耗高效的变压器、断路器等节能设备,可显著降低变电站运维损耗,提升经济效益。

某综合体项目节能措施及计算

大型综合体用电负荷较多,能耗较大,应采取有效的节能措施。如采用高电压等级供电、提高功率因数、合理选择变压器、合理选择电线电缆、风机水泵节能、充分利用自然光节能等节能措施。结合实际项目对以上几种节能方式进行计算,结果验证了节能措施的有效性及可实施性。

面向低碳灵活运行的超临界机组模糊预测控制策略

为实现“碳达峰、碳中和”目标下超临界机组的低碳灵活运行,提出一种计及机组灵活性、经济性和环保性的模糊广义预测控制策略。基于超临界机组调峰需求下的预测模型,首先构建包含一般控制目标和节能减排需求的综合滚动优化目标。然后,利用模糊选择确定目标函数中各子目标的加权系数以消除参数不确定性的影响。其中,模糊选择过程中模糊规则的制定以跟踪误差和碳排放增量为输入,加权系数为输出。进而通过预测模型、反馈校正与所设计滚动优化的协调配合求取最优控制律。最后,立足于我国大连某电厂600MW超临界机组运行数据进行所提控制策略的有效性验证。该方法在机组快速负荷调控、抗扰动及节能减排等方面均具有显著优势。

D2D异构网络节能模式选择和资源分配

为合理分配蜂窝网络的频谱资源,提升蜂窝网络能源效率,降低用户间的干扰,提出一种基于深度强化学习的设备到设备(D2D)异构网络节能模式选择和资源分配方法。构建系统模型并对节能模式选择和资源分配进行优化;将优化问题转化为马尔可夫决策过程(MDP),采用深度确定性策略梯度算法(DDPG)找到最优问题的最优策略,实现最大化长期能效。通过仿真分析与其它4种方法进行性能对比,实验结果表明,所提方法在D2D异构网络中具有更高的能源效率,表现出更好的收敛性,可有效提升系统吞吐量和频谱资源利用率。

工业锅炉运行与烟气治理的节能减排措施

本文主要介绍了工业锅炉节能减排的措施,包括燃料选择、燃烧优化、余热回收和烟气治理等方面的技术,并结合实践案例详细阐述了这些措施的应用效果。本文旨在提供对工业生产中如何降低工业锅炉能源消耗和烟气排放的实用指导,以期推动绿色、低碳的可持续发展。

涤纶缝纫线倍捻设备的选型与应用

为保证本色涤纶缝纫线品质和生产效率,对比传统槽筒并纱加捻技术,分析了新型精密并纱加捻技术的优势。采用AW22型精密卷绕并纱机+TS20D型气动倍捻机的方案,阐述了其工艺设计、操作管理、设备维修、产品质量和节能等方面的实践和体会。结果证明:采用AW22型精密卷绕并纱机+TS20D型气动倍捻机配套方案,生产的涤纶缝纫线纱疵、断头、捻度不匀率和毛羽等质量指标较优,节约能耗26.4%。认为:该设备配套方案产品质量高,节约能耗,是保证并纱捻线工艺质量的较佳选择。

综合医院电气设计的探讨

结合马銮湾医院项目设计实例,介绍若干综合医院建筑电气设计要点:供配电系统、变配电室选址、火灾自动报警系统、谐波治理、空调系统节能设计等,为综合医院电气设计提供一些参考。

白象山选矿厂中碎系统干抛工艺优化研究

白象山选矿厂中碎产品(35~0 mm)中可供回收的有价成分为铁,磁性铁分布率达80.73%,磁滑轮干抛废石全铁及磁性铁品位均较高,干抛效果较差,资源浪费严重。为解决该问题,进行了实验室抛废工艺优化研究。结果表明,现场中碎产品全粒级干式预选(磁场强度318.47kA/m、带速为0.83 m/s)抛废产率为8.49%、废石磁性铁品位为2.56%,显著优于现场生产指标,但仍意味着进入高压辊磨机的新给料量非常大;现场中碎产品采用先筛分分级(筛孔宽5 mm)再粗细分别抛废、块精矿进入高压辊磨机辊压、辊压产品返回筛分的闭路流程处理,可抛出产率9.92%、全铁品位8.70%、全铁损失率2.69%的块废石(35~5mm),产率27.00%、全铁品位11.50%、全铁损失率9.69%的粉尾矿(5~0 mm),获得产率63.08%、全铁品位44.50%、全铁回收率87.62%的粉精矿(5~0 mm),达到了较好的能抛早抛、节能降耗效果。