Study of Renewable Energy Penetration on a Benchmark Generation and Transmission System

Significant changes in conventional generator operation and transmission system planning will be required to accommodate increasing solar photovoltaic (PV) penetration. There is a limit to the maximum amount of solar that can be connected in a service area without the need for significant upgrades to the existing generation and transmission infrastructure. This study proposes a framework for analyzing the impact of increasing solar penetration on generation and transmission networks while considering the responses of conventional generators to changes in solar PV output power. Contrary to traditional approaches in which it is assumed that generation can always match demand, this framework employs a detailed minute-to-minute (M-M) dispatch model capable of capturing the impact of renewable intermittency and estimating the over- and under-generation dispatch scenarios due to solar volatility and surplus generation. The impact of high solar PV penetration was evaluated on a modified benchmark model, which includes generators with defined characteristics including unit ramp rates, heat rates, operation cost curves, and minimum and maximum generation limits. The PV hosting capacity, defined as the maximum solar PV penetration the system can support without substantial generation imbalances, transmission bus voltage, or thermal violation was estimated for the example transmission circuit considered. The results of the study indicate that increasing solar penetration may lead to a substantial increase in generation imbalances and the maximum solar PV system that can be connected to a transmission circuit varies based on the point of interconnection, load, and the connected generator specifications and responses.

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Bidirectional Battery Interface in Standalone Solar PV System for Electrification in Rural Areas

IJITEE (International Journal of Information Technology and Electrical Engineering) ◽

10.22146/ijitee.63471 ◽

2021 ◽

Vol 5 (2) ◽

pp. 59

Author(s):

Yuwono Bimo Purnomo ◽

F. Danang Wijaya ◽

Eka Firmansyah

Keyword(s):

Rural Areas ◽

High Efficiency ◽

High Reliability ◽

Reference Value ◽

Solar Pv ◽

Pv System ◽

Solar Pv System ◽

Dc Bus ◽

Bus Voltage ◽

Power Capability

In a standalone photovoltaic (PV) system, a bidirectional DC converter (BDC) is needed to prevent the battery from damage caused by DC bus voltage variation. In this paper, BDC was applied in a standalone solar PV system to interface the battery with a DC bus in a standalone PV system. Therefore, its bidirectional power capability was focused on improving save battery operation while maintaining high power quality delivery. A non-isolated, buck and boost topology for the BDC configuration was used to interface the battery with the DC bus. PID controller-based control strategy was chosen for easy implementation, high reliability, and high dynamic performance. A simulation was conducted using MATLAB Simulink program. The simulation results show that the implementation of the BDC controller can maintain the DC bus voltage to 100 V, have high efficiency at 99.18% in boost mode and 99.48% in buck mode. To prevent the battery from overcharging condition, the BDC stops the charging process and then works as a voltage regulator to maintain the DC bus voltage at reference value.

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Power Quality and Performance Analysis of Grid-Connected Solar PV System Based on Recent Grid Integration Requirements

International Journal of Photoenergy ◽

10.1155/2021/4281768 ◽

2021 ◽

Vol 2021 ◽

pp. 1-14

Author(s):

Estifanos Abeje Sharew ◽

Habtemariam Aberie Kefale ◽

Yalew Gebru Werkie

Keyword(s):

Power Quality ◽

High Harmonic ◽

Harmonic Distortion ◽

Distribution Networks ◽

Photovoltaic System ◽

Solar Pv ◽

Pv System ◽

Solar Pv System ◽

Maximum Penetration ◽

The Impact

The electrical energy demand is steadily growing, and hence, the integration of photovoltaic system to the distribution networks is also dramatically increasing though it has a significant effect on the network’s power quality. The purpose of this paper is to analyze the impact of solar PV integration on the power quality of distribution networks. The study is conducted using ETAP software, taking one of the radial distribution networks available in Bahir Dar city during the peak of connected loads which has the least voltage profile. Furthermore, the optimal location of the PV in the network is done using particle swarm optimization. Accordingly, the appropriate location of the PV system is determined to be the farthest end bus (bus 34). Also, the impact in terms of voltage and current harmonic distortion on the distribution feeder network is comparatively discussed by comparing the distribution system parameters with different penetration levels of solar PV system. The simulation results obtained demonstrate that high harmonic distortion level is injected correspondingly as the penetration capacity of PV system increased which indicates that the solar PV system should be integrating only up to a maximum possible capacity the network can carry. The integration of the PV system beyond this maximum penetration level causes production of high harmonic distortion which adversely affects the system performance. At the maximum penetration level which allows the acceptable harmonic distortion limit, the total voltage harmonic distortion and current demand distortion are found to be 4.97% and 14.98%, respectively.

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Increasing the Productivity of Solar Photovoltaic Systems

Solar Energy ◽

10.1115/isec2006-99096 ◽

2006 ◽

Cited By ~ 2

Author(s):

David A. Torrey ◽

James M. Kokernak

Keyword(s):

Energy Production ◽

Solar Pv ◽

Pv System ◽

System Productivity ◽

Array Configuration ◽

Pv Systems ◽

Solar Pv System ◽

Partial Shade ◽

The Impact

State-sponsored incentives have played a significant role in driving the demand for residential and small commercial photovoltaic (PV) systems. All state incentive programs are tied to the power rating of the system, though some states also offer energy production incentives. Unfortunately, there is a disconnect between the power rating of a PV system and the energy that system produces over its lifetime. It is extremely important to consider system productivity, which goes well beyond the efficiency of the components. System productivity is tied directly to the structure of the array, not just the efficiency of the components and the quality of the installation. This paper examines the issues associated with improving solar PV system productivity. The focus is on comparing a series-parallel array configuration to a series-string array configuration and the impact on energy production. Partial shade is used to highlight substantial differences between the operation of the two array configurations.

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Impact of On-Grids Solar PV Rooftop on Low Voltage Grid Systems: A Case Study of PEA Udonthani, Thailand

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.781.296 ◽

2015 ◽

Vol 781 ◽

pp. 296-299 ◽

Cited By ~ 2

Author(s):

Weerachat Khuleedee ◽

Arkom Kaewrawang ◽

Kittipong Tonmitr

Keyword(s):

Power Systems ◽

Low Voltage ◽

Harmonic Distortion ◽

Frequency Variation ◽

Local Power ◽

Solar Pv ◽

Pv System ◽

Solar Pv System ◽

Thai Government ◽

The Impact

This paper presents the impact of on-grid solar PV rooftop on local power systems of 10 kW - typical low voltage power rating for households campaigned by Thai Government. The overvoltage, frequency variation and harmonic contamination was investigated and analyzed. The condition of peak power generated from PV was also considered. The experimental data used for the analysis were collected by turning on and off the solar PV system of PEA power system on Udonthani province, Thailand for every hour with duration time between 6.00 AM and 6.00 PM. The results showed that the voltage at the connecting point of solar PV rooftop to the grid increases from 5-8 V (2.3-3.6%.).The frequency slightly increases from 49.97-50.06 Hz. In addition, the total harmonic distortion is not significantly different - varying in narrow range of 0.1-0.2 VTHD.

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Evaluation of Faults in a DC Grid-Connected Solar Systems of Ships

Marine Technology Society Journal ◽

10.4031/mtsj.54.4.8 ◽

2020 ◽

Vol 54 (4) ◽

pp. 93-99

Author(s):

Ganesan Karthikeyan ◽

David Prince Winston ◽

Ananthan Bhuvanesh ◽

Kannan Gangatharan

Keyword(s):

Power Generation ◽

Fossil Fuels ◽

Simulation Software ◽

Shipping Industry ◽

Solar Pv ◽

Pv System ◽

Solar Systems ◽

Solar Pv System ◽

Increasing Demand ◽

The Impact

AbstractFulfilling the increasing demand for electricity is a huge challenge worldwide. At the same time, dependence on fossil fuels for power generation and its enervation is becoming a severe concern as fossil fuels will be unavailable after 25 years. Hence, research needs to be focused on minimizing the dependence on fossil fuels for power generation especially in the shipping industry. This study aims to implement the solar photovoltaic (PV) system in a ship so as to investigate the possible difficulties related to fault detection and islanding protection methods of a direct current (DC)grid-tied solar PV system in a ship. The simulations have been modeled using an Arduino Uno R3 with IC ATMEGA 328P controller in Proteus PCB Design and Simulation software. In faulty conditions, the impact of the faults on the grid is very critical. Hence, it is essential to identify faults immediately and island the grid.

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Effect of Ambient Temperature and Relative Humidity on Solar PV System Performance: A Case Study of Quaid-e-Azam Solar Park, Pakistan

SINDH UNIVERSITY RESEARCH JOURNAL -SCIENCE SERIES ◽

10.26692/surj/2017.12.47 ◽

2017 ◽

Vol 49 (004) ◽

pp. 721--726 ◽

Cited By ~ 3

Author(s):

Z. ABBAS ◽

K. HARIJAN ◽

P. H. SHAIKH ◽

G. D. WALASAI ◽

F. ALI

Keyword(s):

Relative Humidity ◽

Ambient Temperature ◽

System Performance ◽

Solar Pv ◽

Pv System ◽

Solar Pv System

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Comparison Position of Solar PV System : College Learning Building South Lampung

10.31224/osf.io/3fykp ◽

2019 ◽

Author(s):

Rishal Asri

Keyword(s):

Electrical Energy ◽

Performance Ratio ◽

Solar Pv ◽

Pv System ◽

Solar Pv System ◽

College Learning ◽

A Performance

Sunlight is energy that can be converted into electrical energy. One of the uses is by applying it to the roof ofthe building. The application in this building has restrictions such as the placement of the PV moduleshorizontally and vertically. In the study comparing the results of energy obtained from the PV system withhorizontal and vertical positions with a standard degree angle in the direction of azimuth sunlight. Positionusing the horizontal produces more energy and reaches a performance ratio of more than 80%.

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