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The Experimental Study of Photovoltaic Performance Improvement Using Multiple Reflectors 利用多反射镜提高光伏性能的实验研究
Q2 Energy Pub Date : 2023-05-31 DOI: 10.15866/irecon.v11i3.23976
Erfan Dimas Ardiyanto, Zainal Arifin, Rendy Adhi Rachmanto
The energy used in the world today still comes from fossil fuels. Limited fossil energy causes prices to continue to rise. One renewable energy source that is easily found is solar energy. There are various methods for harnessing solar energy. The method that is often used is to use PV panels. PV panels have the ability to create electricity by using direct sunlight. One case in the use of PV panels is low efficiency and output power. This article discusses the use of reflectors on PV panels to increase the intensity of solar radiation and the output power of PV panels. This study aims to optimize the use of reflectors made from glass mirrors and aluminum sheets on PV panels with variations in reflector angles. Various parameters are measured, such as solar radiation intensity, output power, and electrical efficiency. The use of reflectors on PV panels can increase the intensity of solar radiation received, output power and efficiency of electricity generated. Variations in reflector angles and reflective materials used affect the performance of PV panels. In this study, aluminum reflectors have provided a more significant improvement compared to glass mirror reflectors. However, at certain times, PV panels with reflectors can reduce the performance of PV panels because the reflector covers part of the panel area.
当今世界使用的能源仍然来自化石燃料。有限的化石能源导致价格持续上涨。一种很容易找到的可再生能源是太阳能。利用太阳能的方法多种多样。常用的方法是使用光伏板。光伏板能够利用阳光直接发电。使用光伏板的一个问题是效率和输出功率低。本文讨论了在光伏板上使用反射器来增加太阳辐射强度和光伏板的输出功率。本研究旨在优化光伏板上由玻璃镜和铝板制成的反射器的使用,并改变反射器的角度。测量各种参数,如太阳辐射强度、输出功率和电效率。在光伏板上使用反射器可以增加接收太阳辐射的强度、输出功率和发电效率。反射角度和反射材料的变化会影响光伏板的性能。在本研究中,与玻璃反射镜相比,铝反射镜提供了更显著的改进。然而,在某些时候,由于反射器覆盖了部分面板面积,因此带有反射器的光伏板会降低光伏板的性能。
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引用次数: 0
Analysis of Convergence Behavior and Derivation of Divergence Indicator in Continuation Power Flow Iterations 连续潮流迭代中的收敛行为分析及发散指标的推导
Q2 Energy Pub Date : 2023-05-31 DOI: 10.15866/irecon.v11i3.23591
Agron Bislimi
This research aims to achieve the following objectives: an analysis of the convergence behavior of the correction step within the iterations of the Continuation Power Flow (CPF), and the development of a divergence indicator. Specifically, the research delves into examining the numerical stability and convergence properties of the Continuation Power Flow Method (CPFM). Subsequently, a defined convergence area for the correction iterations is established. This definition enables an early estimation at the onset of the correction step regarding the likelihood of convergence. Additionally, it helps determine whether actions to enhance convergence (such as reducing the predictor step size) are necessary. The practical applications of the convergence area are exemplified using a few practical examples. The introduced convergence area concept proves effective in identifying potential divergence of the correction process, particularly during the critical phase of CPF analysis - even as early as the first iteration. Hence, if the corrector demonstrates a tendency to diverge, corrective actions can be implemented in advance before expending unnecessary computational time on iterations that diverge. Critical phase of CPF analysis involves the lower PV curve processing at the Lambda continuation parameter. Here, the concept of "area of convergence" serves as a valuable tool for stabilizing the corrector.
本研究旨在分析连续潮流(CPF)迭代过程中修正步骤的收敛行为,并建立发散指标。研究了连续潮流法(CPFM)的数值稳定性和收敛性。随后,建立了修正迭代的收敛区域。这个定义能够在校正步骤开始时对收敛的可能性进行早期估计。此外,它有助于确定是否有必要采取行动来增强收敛性(例如减少预测器步长)。通过几个实例说明了收敛区域的实际应用。引入的收敛区域概念证明在识别校正过程的潜在偏差方面是有效的,特别是在CPF分析的关键阶段-甚至早在第一次迭代。因此,如果校正器显示出发散的趋势,那么可以在在发散的迭代上花费不必要的计算时间之前提前实现校正动作。CPF分析的关键阶段涉及Lambda延拓参数下PV曲线的处理。这里,“收敛区域”的概念是稳定校正器的一个有价值的工具。
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引用次数: 0
Energy Analysis of a H2O-LiBr Absorption Cooling System Under the Climatic Conditions of Senegal 塞内加尔气候条件下H2O-LiBr吸收式冷却系统的能量分析
Q2 Energy Pub Date : 2023-05-31 DOI: 10.15866/irecon.v11i3.23167
Serigne Thiao, Mamadou Sow, Awa Mar, Diouma Kobor, Issakha Youm
This work is an energy analysis of a simple effect absorption cooling system operating with H2O-LiBr pair in the climatic conditions of Senegal. To achieve this, the energy balance at the level of the various components of the system will be established in order to show the behavior of each component of the system according to the climatic conditions of the study site. To find out if this cooling absorption system is suitable for the Senegalese climate, the effects of the temperature of the absorber and the generator have respectively been seen on the mass flow rates and on the circulation factor. The behavior of the cooling absorption system in the weather conditions of Senegal was predicted using a mathematical model developed with Engineering Equation Solver (EES) software. The simulation results of this present work were compared with those found in the literature. The thermodynamic parameters such as temperature, entropy, enthalpy, mass fraction found at the level of the various components of the system are in agreement with those found by other authors. Similarly, the results obtained show that for better performance of the system, the operating parameters must be optimized taking into account the crystallization limits of lithium bromide. Similarly, modifications must be made to the design of some devices such as the absorber and the generator to better adapt them to local climatic conditions. Beyond the design and modification of the components of the system, it is also necessary to play on the operating conditions for a better functioning of the absorption cooling system in Senegal.
本工作是对塞内加尔气候条件下使用H2O-LiBr对运行的简单效应吸收冷却系统进行能量分析。为了实现这一目标,将建立系统各个组成部分水平上的能量平衡,以便根据研究地点的气候条件显示系统每个组成部分的行为。为了确定这种冷却吸收系统是否适合塞内加尔的气候,分别观察了吸收器和发电机的温度对质量流量和循环系数的影响。利用工程方程求解器(EES)软件建立的数学模型,预测了塞内加尔冷却吸收系统在天气条件下的行为。本文的模拟结果与文献中发现的结果进行了比较。在系统各组分水平上得到的热力学参数如温度、熵、焓、质量分数等与其他作者的发现一致。同样,研究结果表明,为了提高系统的性能,必须考虑溴化锂的结晶限制,对操作参数进行优化。同样,必须修改一些装置的设计,例如吸收器和发电机,以使它们更好地适应当地的气候条件。除了设计和修改系统的组成部分外,还必须根据塞内加尔吸收式冷却系统的运行条件更好地发挥作用。
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引用次数: 0
Evaluation of the Economic, Environmental and Energy Performance of Generation Technologies for Use as Backup Sources 作为备用电源的发电技术的经济、环境和能源性能评价
Q2 Energy Pub Date : 2023-05-31 DOI: 10.15866/irecon.v11i3.23657
Cesar Peralta, Cristian Perilla, Johan Jose Castañeda, Alvaro Zambrano, Javier Rosero Garcia
This article presents a comparison of the economic, environmental, and energy performance of two 75 kW gas-fired and diesel-fired power plants. A series of performance tests have been conducted to register emission values at different operation points for both technologies. Additionally, a simulation model has been developed to evaluate the performance of both technologies under different operating scenarios based on the assumption that the plant will operate as a backup to a local distribution system. Initially, the model has been provided with theoretical information collected from different bibliographic sources. Subsequently, the model input data have been replaced from the results obtained in the measurement process. Finally, the results and the main conclusions identified during the development of the project are presented.
本文介绍了两个75千瓦燃气和柴油发电厂的经济、环境和能源性能的比较。进行了一系列性能测试,以记录两种技术在不同工作点的排放值。此外,还开发了一个仿真模型,以评估两种技术在不同运行场景下的性能,该模型基于电厂将作为本地配电系统的备份运行的假设。最初,该模型提供了从不同书目来源收集的理论信息。随后,将模型输入数据替换为测量过程中获得的结果。最后,介绍了项目开发过程中的结果和主要结论。
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引用次数: 0
Impact of the Solar Ventilation System on the Fuel Savings and CO2 Reductions for Gasoline Vehicle Engine Parked Under the Sun 太阳能通风系统对停在阳光下的汽油车发动机节约燃料和减少二氧化碳的影响
Q2 Energy Pub Date : 2023-03-31 DOI: 10.15866/irecon.v11i2.23410
H. A. Al-Shakhanbeh, M. Z. Abdullah, Hani Al-Rawashdeh, J. Sakdapipanich
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引用次数: 0
Inter-Turn Fault Resilient Controls of a PMSM-Based Tidal Stream Turbine 基于永磁同步电机的潮流涡轮机匝间故障恢复控制
Q2 Energy Pub Date : 2023-03-31 DOI: 10.15866/irecon.v11i2.23541
S. Toumi, Y. Amirat, M. Benbouzid, E. Elbouchikhi, Zhibin Zhou
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引用次数: 0
Instrumental Research on the Voltage Harmonic Distortion Coefficient in the Modern 110 kV Urban Electric Network 现代110千伏城市电网电压谐波失真系数的仪器研究
Q2 Energy Pub Date : 2023-03-31 DOI: 10.15866/irecon.v11i2.22979
Assemgul Zhantlessova, S. Zhumazhanov, T. Akimzhanov, B. Issabekova, Zhanat B. Issabekov, A. Mekhtiyev, Y. Neshina
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引用次数: 0
Distribution System Reconfiguration and Capacitor Placement for Loss Reduction by Ant Colony Algorithm 基于蚁群算法的配电系统重构与电容布置
Q2 Energy Pub Date : 2023-03-31 DOI: 10.15866/irecon.v11i2.23877
M. J. Kasaei, H. Norouzi
High current amounts, low voltage level and radial structure assign high percentage of active power loss in distribution system. There are many means in reducing the active power loss of distribution networks; this paper introduces an ant colony algorithm to solve the optimal network reconfiguration and capacitor placement problem for power loss reduction and voltage profile enhancement in distribution networks. The ant colony algorithm was inspired from natural behavior of the ant colonies on how they find the food source and bring them back to their nest by building the unique trial formation. Ants of artificial colony are able to search for the successively shorter feasible routes by using information accumulated in the form of a pheromone trial deposited on the edge of their traveling path. The proposed approach is demonstrated employing one distribution network. Computational results show that by taking into account feeder reconfiguration and capacitor placement simultaneously, one can be minimize losses more efficiently by considering them separately.
大电流、低电压和径向结构决定了配电系统有功损耗的高比例。降低配电网有功损耗的方法有很多;本文介绍了一种蚁群算法,用于解决配电网中降低损耗和提高电压分布的最优网络重构和电容器布置问题。蚁群算法的灵感来自于蚁群的自然行为,即它们如何通过构建独特的试验队形来找到食物来源并将它们带回巢穴。人工蚁群的蚁群能够利用蚁群移动路径边缘的信息素试验积累的信息,依次寻找较短的可行路径。该方法以一个配电网为例进行了验证。计算结果表明,同时考虑馈线重构和电容器布置,可以更有效地减小损耗。
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引用次数: 0
Effect of Cylinder Injection Signal Override on Power Losses and Fuel Economy in Internal Combustion Engines 汽缸喷射信号覆盖对内燃机功率损失和燃油经济性的影响
Q2 Energy Pub Date : 2023-01-31 DOI: 10.15866/irecon.v11i1.22747
Carlos Pardo García, J. Pabón, Marlen Fonseca Vigoya
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引用次数: 0
Improving the Performance of Steam Power Plant by Applying Energy and Exergy Analysis at Altering Operating Parameters 应用能量和火用分析提高蒸汽发电厂运行性能
Q2 Energy Pub Date : 2023-01-31 DOI: 10.15866/irecon.v11i1.23452
Hayder Rafeeq Shaheed, R. Radhi, H. N. Mohammed
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引用次数: 0
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International Journal on Energy Conversion
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