Modelling of Solar-Diesel Hybrid Power Plant

Abstract The article highlights the problems of distributed energy generation and focuses on solar-diesel hybrid power plant modelling and optimization. Designing power systems based on renewable energy sources includes a very relevant task of building mathematical models of such systems and their elements. The article presents an approach and definition of mathematical models describing photovoltaic-diesel (PV-D) hybrid power system elements used in decision making processes as a part of PV-D operation control. An overview of PV module output power, performance and temperature models is given. Along with the analysis of the specific fuel consumption dependencies on the operating power of the diesel generator, an example of diesel power plant unit commitment is shown.

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Reliability Index of Wind-Solar Hybrid Power Plants using the Expected Energy Not Supplied Method

International Journal of Recent Technology and Engineering - 2 ◽

10.35940/ijrte.d9733.118419 ◽

2019 ◽

Vol 8 (4) ◽

pp. 9449-9456

Keyword(s):

Power Plant ◽

Power Systems ◽

Electricity Market ◽

Reliability Index ◽

Power Plants ◽

Initial Conditions ◽

Hybrid Plant ◽

Total Power ◽

Hybrid Power ◽

Hybrid Power Plant

This paper proposes the reliability index of wind-solar hybrid power plants using the expected energy not supplied method. The location of this research is wind-solar hybrid power plants Pantai Baru, Bantul, Special Region of Yogyakarta, Indonesia. The method to determine the reliability of the power plant is the expected energy not supplied (EENS) method. This analysis used hybrid plant operational data in 2018. The results of the analysis have been done on the Pantai Baru hybrid power plant about reliability for electric power systems with EENS. The results of this study can be concluded that based on the load duration curve, loads have a load more than the operating kW of the system that is 99 kW. In contrast, the total power contained in the Pantai Baru hybrid power plant is 90 kW. This fact makes the system forced to release the load. The reliability index of the power system in the initial conditions, it produces an EENS value in 2018, resulting in a total value of 2,512% or 449 kW. The EENS value still does not meet the standards set by the National Electricity Market (NEM), which is <0.002% per year. Based on this data, it can be said that the reliability of the New Coast hybrid power generation system in 2018 is in the unreliable category.

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Performance Analysis of Isolated Hybrid Power Plant Model with Dynamic Load Conditions – Morning, Noon and Afternoon Transitions

E3S Web of Conferences ◽

10.1051/e3sconf/20183102001 ◽

2018 ◽

Vol 31 ◽

pp. 02001

Author(s):

Rina Irawati

Keyword(s):

Power Plant ◽

Power Quality ◽

Hybrid System ◽

Diesel Generator ◽

Hybrid Power ◽

Photovoltaic Power ◽

Electrical Engineers ◽

Hybrid Power Plant ◽

Daily Load

Diesel Generator with Photovoltaic Hybrid Power Plant is one of the solutions for supply electric demand to isolated area. The energy sources that can be used for hybrid system are such as photovoltaic, wind turbine, and biomass or biogas, because these sources are almost available in every isolated area. This research used a model of hybrid system from diesel generator and 1.28 kWp photovoltaic power plant. The reliability and some of power quality of this system tested by 1300VA house hold daily load characteristic effectively 24 hour. Power quality and some electricity parameters during transition mode for each resource will be analyzed. Furthermore the power quality analyze will be conducted and evaluated base on Electrical Engineers’ Association (EEA).

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Reducing Hybrid Power Plant Power Losses by Balancing the Load in the Network on the Generation and Consumption Side

Bulletin of the South Ural State University series Power Engineering ◽

10.14529/power200307 ◽

2020 ◽

Vol 20 (3) ◽

pp. 65-77

Keyword(s):

Renewable Energy ◽

Power Plant ◽

Renewable Energy Sources ◽

Electric Energy ◽

Energy Sources ◽

Energy Losses ◽

Hybrid Power ◽

Storage Technology ◽

Hybrid Power Plant ◽

Low Efficiency

An increase in the share of renewable energy sources characterized by intermittent generation leads to a decrease in the quality of electricity and the need to balance the load on the network. The methods used today for balancing the load on the generation side, as well as the use of energy storage technology, do not always provide an effective solution to the balancing problem. This is especially evident when traditional generators are transferred from the base load electricity sources to the reserve ones. The main issue is the increased electric energy losses due to the low efficiency of the power storage technology. Using the most advanced hybrid power plant Gorona del Viento (El Hierro island, Canary archipelago, Spain), which includes traditional and renewable energy sources, as reference, we are describing the methods of balancing the load on the network, which includes balancing, both the electricity generation and consumption. Using the calculation models of the hybrid power plant operating modes, the possibility of implementing various load balancing strategies on the consumption side has been demonstrated, their features have been analyzed, their effectiveness in reducing energy losses has been demonstrated.

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Hybrid Power Plant with Storage System: University Research Station

Periodica Polytechnica Electrical Engineering and Computer Science ◽

10.3311/ppee.14587 ◽

2019 ◽

Vol 64 (1) ◽

pp. 47-52 ◽

Cited By ~ 1

Author(s):

Adam Gubański ◽

Artur Sobkowiak ◽

Michał Jasiński ◽

Dominika Kaczorowska ◽

Przemysław Janik ◽

...

Keyword(s):

Energy Storage ◽

Power Plant ◽

Wind Turbine ◽

Renewable Energy Sources ◽

Storage System ◽

University Research ◽

Research Station ◽

Storage Unit ◽

Hybrid Power ◽

Hybrid Power Plant

The article presents a brief overview of renewable energy sources, microgrids and energy storage problems. The construction and utilisation of university research station to study the operation of a hybrid power plant with an energy storage unit has been described. The tested hybrid power plant consists of a photovoltaic panel and a wind turbine. There are two possible areas of research, one is when the microgrid is connected to the main grid and second when it functions independently as a stand-alone setup. In addition, the model allows to study the characteristics of photovoltaic cells, examine the dependence of generated power on the time, season and angle of the solar panel. In this article, the current-voltage characteristics and influence of solar azimuth angle on cell power, dependence of wind on power generated by the wind turbine, and study of off-grid work of power plant are presented.

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Effect of Load Growth on PLTH Baron Techno Park Performance

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

10.22146/ijitee.35028 ◽

2018 ◽

Vol 1 (4) ◽

Author(s):

Mychael Gatriser Pae ◽

Tegar Prasetyo ◽

Suharyanto Suharyanto ◽

T. Haryono ◽

Ridwan Budi Prasetyo

Keyword(s):

Power Plant ◽

Renewable Energy Sources ◽

Electricity Consumption ◽

Electrical Energy ◽

Electricity Production ◽

Electrical Load ◽

Plant System ◽

Hybrid Power ◽

Load Growth ◽

Hybrid Power Plant

The reliability of stand-alone and hybrid power plant systems was dependent on electrical loads that the system must supply. For example, on renewable energy sources (RES), Reviews of those systems needs to be calculated well before the development process. One of the most important processes in the initial calculation is the electrical load that must be supplied by the system. The electrical load has a major influence on the amount of power generating capacity. A power plant that has higher electricity production than the load to be fulfilled was considered capable of meeting the system electrical load requirements. However, in terms of the reliability, it is considered as a loss because it will affect the life of the components and the high cost of operating from the system. Therefore, this research discusses the effect of load growth on hybrid power plant system performance of Baron Techno Park. The result of the research shows that the total electricity production of Baron Techno Park hybrid power plant system is 319.695 kWh/year with Net Present Cost (NPC) is $560.077 and the cost of energy (COE) is $0.64/kWh. Total electricity consumption of the PLTH Baron Techno Park is 67.413 kWh/year with total excess electrical energy is 245,547 kWh/year. Load growth of 5%, 10%, 15%, and 20% of the total current load affect the consumption of electric energy, excess electrical energy, and COE. The higher the load growth will affect the total electricity consumption that is increasingly higher so that the total excess electrical energy is lower. This research found that the performance of the system is not influenced by load growth. The highest performance of the system is resulted by the wind turbine of 72.62%, followed by solar panels of 18.82%, and biodiesel of 8.56%.

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Analisis Pembangkit Listrik Sistem Hybrid Grid Connected Di Villa Peruna Saba, Gianyar – Bali

Jurnal SPEKTRUM ◽

10.24843/spektrum.2019.v06.i02.p01 ◽

2019 ◽

Vol 6 (2) ◽

pp. 1

Author(s):

Gordon Arifin Sinaga ◽

I Made Mataram ◽

Tjok Gede Indra Partha

Keyword(s):

Power Plant ◽

Power Systems ◽

Power Plants ◽

Electrical Energy ◽

Power Source ◽

Natural Processes ◽

Hybrid Power ◽

Hybrid Power Plant ◽

Solar Power Plants ◽

Hybrid Grid

Renewable energy is energy that comes from natural processes that will not be exhausted and sustainable if managed properly. In its use, to maintain the continuity of the availability of electrical energy maximally, it is necessary to combine several types of power plants that are connected to the grid or better known as hybrid grid connected power systems. This research took place at Villa Peruna Saba, Gianyar - Bali which uses a hybrid grid connected power system that combines photovoltaics and generators connected to the grid utilty in supplying electricity loads. The analysis is carried out on the characteristics of the average load, the contribution of each electric power source and the workings of the hybrid grid connected hybrid power plant system. From the analysis, it is known that the contribution of power derived from solar power plants is 561.27 kW or 22.41% in April 2018 and 510.72 kW or 20.71% in May 2018.

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Multi-Stage Solid Oxide Fuel Cell–Gas Turbine Combined Cycle Hybrid Power Plant System

Volume 3: Turbo Expo 2003 ◽

10.1115/gt2003-38391 ◽

2003 ◽

Cited By ~ 3

Author(s):

Tadashi Tsuji ◽

Noboru Yanai ◽

Kentaro Fujii ◽

Hitoshi Miyamoto ◽

Masaharu Watabe ◽

...

Keyword(s):

Power Plant ◽

Power Systems ◽

Gas Turbine ◽

High Efficiency ◽

Pressure Ratio ◽

Thermal Power ◽

Combined Cycle ◽

Plant System ◽

Hybrid Power ◽

Hybrid Power Plant

Today, the need to develop more efficient thermal power systems that emit less greenhouse effect gas has become a paramount importance. In line with this awareness, our research has leapt into such development that the combination of SOFC and Gas Turbine could generate power at extremely high efficiency. In this paper, we would like to present our concept of Inter Cooled Multistage SOFC-GT Hybrid Power System, developed to maximize fuel heat input to the system. We propose the combination of F-class GT (TIT 1350°C class) and 5 stage SOFC as the best for the hybrid power plant system and 77% (LHV base) is achieved at high pressure ratio.

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Operation and Control of a Hybrid Power Plant with the Capability of Grid Services Provision

Energies ◽

10.3390/en14133928 ◽

2021 ◽

Vol 14 (13) ◽

pp. 3928

Author(s):

Ayman B. Attya ◽

Adam Vickers

Keyword(s):

Power Plant ◽

Control Method ◽

Renewable Energy Sources ◽

Test System ◽

Solar Irradiation ◽

System Response ◽

Power Sources ◽

Hybrid Power ◽

Variable Nature ◽

Hybrid Power Plant

The integration of distributed power plants that rely on renewable energy sources (RESs) is a major challenge for system operators (SOs) due to the variable nature of the input energy (e.g., wind and solar irradiation) to these power sources. A key solution to such a challenge is to coordinate and combine the power generation of these sources such that their behavior is closer to a conventional and dispatchable power station, taking into account the limitations imposed by the battery storage system (BESS), so it is seen as a hybrid power plant (HPP) from the SOs’ viewpoint. This paper develops a model of HPP that encompasses two generation technologies, wind and photovoltaic farms, which are assisted by a BESS. The paper proposes a comprehensive control method that can smooth the HPP output with minimized energy rejection whilst enabling the HPP to provide synthetic inertia and primary frequency response, which are grid-code compliant. The proposed control method is validated through various scenarios, which are implemented on a detailed electromechanical test system modeled in MATLAB/Simulink. The results show and quantify the achieved improvement on stabilizing the HPP capacity factor under variable wind speed. The HPP also enhances the system response to frequency events.

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Stand-Alone Hybrid Power Plant Based on SiC Solar PV and Wind Inverters with Smart Spinning Reserve Management

Electronics ◽

10.3390/electronics10070796 ◽

2021 ◽

Vol 10 (7) ◽

pp. 796

Author(s):

Susana Martín-Arroyo ◽

José Antonio Cebollero ◽

Miguel García-Gracia ◽

Álvaro Llamazares

Keyword(s):

Renewable Energy ◽

Power Plant ◽

Power Plants ◽

Renewable Energy Sources ◽

Storage System ◽

Plant Management ◽

Solar Pv ◽

Spinning Reserve ◽

Hybrid Power ◽

Hybrid Power Plant

Stand-alone hybrid power plants based on renewable energy sources are becoming a more and more interesting alternative. However, their management is a complex task because there are many variables, requirements and restrictions as well as a wide variety of possible scenarios. Though a proper sizing of the power plant is necessary to obtain a competitive cost of the energy, smart management is key to guarantee the power supply at a minimum cost. In this work, a novel hybrid power plant control strategy is designed, implemented and simulated under a wide variety of scenarios. Thereby, the proposed control algorithm aims to achieve maximum integration of renewable energy, reducing the usage of non-renewable generators as much as possible and guaranteeing the stability of the microgrid. Different scenarios and case studies have been analyzed by dynamic simulation to verify the proper operation of the power plant controller. The main novelties of this work are: (i) the stand-alone hybrid power plant management regarding a battery energy storage system as a part of the spinning reserve, (ii) the characterization of the largest loads as non-priority loads, (iii) the minimization of the needed spinning reserve and fuel consumption from diesel generators.

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