Review on viability and implementation of residential PV-battery systems: Considering the case of Dominican Republic

Lara, Edwin Garabitos; García, Félix Santos

doi:10.1016/j.egyr.2021.11.208

Cited by 22 publications

(12 citation statements)

References 184 publications

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“…Tinjauan implementasi sistem PV-BES terhubung ke grid juga telah dilakukan di berbagai negara dengan menunjukkan nilai ekonomis yang baik [14][15][16][17][18][19]. Berbagai faktor yang berpengaruh terhadap operasi sistem PV-BES antara lain adalah karakteristik beban [20], teknologi baterai, geografi [21] dan iklim [22].…”

Section: Pendahuluanunclassified

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Optimasi Sistem Panel Surya dan Baterai Untuk Meminimasi Biaya Pemakaian Energi Listrik Rumah Tangga

Zebua,

Ginarsa

2024

D.K.

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The use of photovoltaic-battery energy storage systems to meet the electrical energy needs of house while reducing the cost of using electricity from the grid is increasing. Optimization of this system can be performed by optimizing the energy consumption of solar panels and batteries. This paper presents the optimization of solar panels and battery systems to minimize the cost of using electricity from the grid. Circuit models and mathematical formulations of grid-connected solar panel and battery systems were created for optimization purposes. The optimization problem is solved by using mixed-integer linear programming and Pyomo software based on the Python programming language. Data on household electricity consumption and output power from two solar panels with a capacity of 100 Wp and 200 Wp respectively were obtained from the results of simultaneous measurements for one month. The test results show that the optimization of the solar panel and battery system can reduce the cost of electricity consumption at home with optimal energy consumption from solar panels and batteries.

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Section: Pendahuluanunclassified

“…(16) ii. Daya pengosongan baterai setiap waktu, , harus lebih kecil dari daya pengosongan maksimum, , yakni: (17) iii. Daya panel surya setiap waktu, , harus lebih kecil atau sama dengan daya konverter, , yakni: (18) iv.…”

Section: Formulasi Matematis Optimasi Sistem Pv-bes Terhubung Ke Gridunclassified

Optimasi Sistem Panel Surya dan Baterai Untuk Meminimasi Biaya Pemakaian Energi Listrik Rumah Tangga

Zebua,

Ginarsa

2024

D.K.

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“…In recent years, due to the inherent intermittence and randomness of RESs, individual households are becoming participants in RESs electricity generation with the independence and self-sufficiency feature of home microgrids. Currently, RESs are integrated into smart homes including solar photovoltaic (PV) [66], wind [67], biomass [68], geothermal energy [69], and so on [70]. In addition, hybrid energy systems such as solar-wind energy [49] and solarwind-diesel energy [71] have also been complemented to provide a reliable and sustainable power supply for a family with a full set of modern home appliances and complete basic residential functions.…”

Section: Energy Generation and Storage Devicesmentioning

confidence: 99%

Home Energy Management Systems: A Review of the Concept, Architecture, and Scheduling Strategies

et al. 2023

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Growing electricity demand, the deployment of renewable energy sources and the widespread use of smart home appliances provide new opportunities for home energy management systems (HEMSs), which can be defined as systems that improve the overall energy production and consumption of residential buildings by controlling and scheduling the use of household equipment. By saving energy, reducing residential electricity costs, optimizing the utilization rate and reliability of utility companies' power systems, and reducing air pollution for society, HEMSs lead to an enhancement in the socioeconomic development of low-carbon economies. This review aims to systematically analyze and summarize the development trends and challenges of HEMSs in recent years. This paper reviews the development history of the HEMS architecture and discusses the characteristics of several major communication technologies in the current HEMS infrastructure. In addition, the common objectives and constraints related to scheduling optimization are classified, and several optimization methods in the literature, including various intelligent algorithms, have been introduced, compared, and critically analyzed. Furthermore, experimental studies and challenges in the real world are also summarized and recommendations are given. This paper reveals the trend from simple to complex in the architecture and functionality of HEMSs, discusses the challenges for future improvements in modeling and scheduling, and shows the development of various modeling and scheduling methods. Based on this review, researchers can gain a comprehensive understanding of current research trends in HEMSs and open up ideas for developing new modeling and scheduling approaches by gaining insight into the trade-offs between optimum solutions and computational complexity.INDEX TERMS Demand response, home appliances, home energy management system, optimization, renewable energy resources, smart grid.

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“…Sisa dari radiasi pada photovoltaic cell diubah menjadi panas sehinga suhu photovoltaic cell meningkat. [18] Photovoltaic dapat mengkonversi energi matahari menjadi energi listrik dengan daya listrik searah (DC) dan jika akan diubah menjadi daya listrik bolak-balik (AC) menggunakan inverter [19]. Prinsip kerja modul photovoltaic cell di tunjukkan pada gambar 1.…”

Section: Pendahuluanunclassified

Studi Eksperimental Performa Photovoltaic Cell dengan Variasi Jenis Pendingin

Soumi,

Utomo,

Atmoko

et al. 2023

CERIE

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Energi matahari salah satu sumber energi yang dapat dikonversikan menjadi energi listrik melalui photovoltaic cell. Salah satu tujuan dari penelitian ini adalah mengetahui performa modul photovoltaic cell ketika menggunakan pendingin fan dan heat sinks. Pada penelitian ini menggunakan modul photovoltaic cell dan perangkat perangkat microcontroller menggunakan Arduino untuk menjalankan program sensor suhu dan daya listrik. Parameter yang diukur dalam pelitian ini meliputi suhu photovoltaic cell, tegangan, arus, dan daya yang dihasilkan photovoltaic cell. Pengujian dilakukan pada modul photovoltaic cell tanpa pendingin, photovoltaic dengan pendingin fan, dan photovoltaic dengan pendingin heat sinks. Pengujian dilakukan langsung di luar ruangan dan terkena sinar matahari langsung. Dari hasil pengujian ditunjukkan modul photovoltaic cell dengan menggunakan pendingin menghasilkan daya lebih tinggi dibandingkan modul photovoltaic cell tanpa pendingin. Daya tertinggi yang dicapai photovoltaic cell dengan pendingin fan.

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Review on viability and implementation of residential PV-battery systems: Considering the case of Dominican Republic

Cited by 22 publications

References 184 publications

Optimasi Sistem Panel Surya dan Baterai Untuk Meminimasi Biaya Pemakaian Energi Listrik Rumah Tangga

Optimasi Sistem Panel Surya dan Baterai Untuk Meminimasi Biaya Pemakaian Energi Listrik Rumah Tangga

Home Energy Management Systems: A Review of the Concept, Architecture, and Scheduling Strategies

Studi Eksperimental Performa Photovoltaic Cell dengan Variasi Jenis Pendingin

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