Simulation and analysis of hybrid systems using probabilistic techniques

Ghali, F.M.A.; Aziz, M.M. Abdel; Syam, F.A.

doi:10.1109/pccon.1997.638338

Cited by 18 publications

(7 citation statements)

References 6 publications

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“…The probability of energy loss (loss of power supply probability) is widely used in the design and optimization of autonomous systems (stand-alone) wind-photovoltaic [18,19,20]. It is based on the concept of the LPSP, which is the probability that the system is experiencing a shortage at some time during a period of analysis, that is to say a state in which the system would not be able to provide energy to the load.…”

Section: Description Of the Lpsp Methodsmentioning

confidence: 99%

Optimal Sizing and Control Strategy of renewable hybrid systems PV-Diesel Generator-Battery: application to the case of Djanet city of Algeria

Yahiaoui¹,

Benmansour²,

Tadjine³

2017

Adv. sci. technol. eng. syst. j.

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Section: Description Of the Lpsp Methodsmentioning

confidence: 99%

Optimal Sizing and Control Strategy of renewable hybrid systems PV-Diesel Generator-Battery: application to the case of Djanet city of Algeria

Yahiaoui¹,

Benmansour²,

Tadjine³

2017

Adv. sci. technol. eng. syst. j.

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“…The LPSP is then determined by calculating the value [1 − {cumulative proportion of the time where battery SOC is higher than the SOC min.}]. Similar work is done including wind generators in Borowy and Salameh (1996), Ghali, El Aziz, & Syam. (1997) and Ali, Yang, Shen, and Liao (2003), then adopted this concept to find the optimum size of the battery bank storage coupled with a hybrid PV-wind autonomous system.…”

Section: Probability Methods Using Lpsp Techniquementioning

confidence: 99%

“…Climate data for particular site renewable hybrid energy systems are important factors to study the possibility of the former the confidential information, wind and solar energy resources data for the village are taken from NASA (Lilienthal & Flowers, 1995). Ghali et al (1997), Bhuiyan and Ali Asgar (2003), Ming et al (1995), Protogeropulos et al (1997) AH method SA PV, battery Residential To operate the estimated load reliably in the month of minimum insolation taking into account different types of power losses Gavanidou and Bakirtzis (1993) Trade-off method SA PV, wind battery Residential Design that is a reasonable compromise between the conflicting design objectives under most foreseeable conditions Ghali et al (1997), Borowy and Salameh (1996), Ali et al (2003), Ofry and Braunstein (1983) Probability method using LPSP technique SA PV, battery Residential Determine the minimum (and thus the economical) sizes of the solar cell array and storage system capacity Abouzahr and Ramakumar (1990), Klein and Beckman (1987), Yang et al (2007), Diaf et al (2007), Diaf, Notton, et al 2008), Borowy and Salameh (1996) (2002) Simulation approach SA PV, Wind Battery Residential An optimum combination of the hybrid PV-wind energy system provides higher system performance than either of the single systems for the same system cost for every battery storage capacity Chedid and Rahman (1997), Markvast (1997), Ramakumar et al (1986), Swift and Holder (1988) Linear …”

Section: Software Developed By Advantages Disadvantagesmentioning

confidence: 99%

PV-wind hybrid system: A review with case study

2016

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Renewable energy systems are likely to become widespread in the future due to adverse environmental impacts and escalation in energy costs linked with the exercise of established energy sources. Solar and wind energy resources are alternative to each other which will have the actual potential to satisfy the load dilemma to some degree. However, such solutions any time researched independently are not entirely trustworthy because of their effect of unstable nature. In this context, autonomous photovoltaic and wind hybrid energy systems have been found to be more economically viable alternative to fulfill the energy demands of numerous isolated consumers worldwide. The aim of this paper is to give the idea of the hybrid system configuration, modeling, renewable energy sources, criteria for hybrid system optimization and control strategies, and software used for optimal sizing. A case study of comparative various standalone hybrid combinations for remote area Barwani, India also discussed and found PV-Wind-Battery-DG hybrid system is the most optimal solution regarding cost and emission among all various hybrid system combinations. This paper also features some of the near future improvements, which actually has the possibility to improve the actual monetary attraction connected with this sort of techniques and their endorsement by the consumer.The key research area of authors is optimal sizing of renewable energy system. This paper information is very helpful for pre-analysis of hybrid renewable energy system design. This work analyzed the different combinations of hybrid renewable energy source model and compared each other on the basis of emission, fuel consumption, cost, and component used in the system. This study gives the hybrid system consisting of PV/Wind/Battery/Generator which is a feasible solution. The total net present cost, cost of energy, operating cost, and emission are very less for the presented hybrid renewable energy combination compared to the other. This paper addresses the issues related to the feasibility of the system, combination of renewable source and cost function for preanalysis of any hybrid practical system and wider projects.

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“…In a number of investigations, wind and hybrid systems augmented with battery energy storage are modelled and analysed through probabilistic techniques [28,29]. However, the reported studies do not consider the generators FOR and are limited to the islanded mode of operation.…”

Section: Reliability Of Study Systemmentioning

confidence: 99%

Reliability assessment of a wind-power system with integrated energy storage

Bhuiyan

Yazdani

2010

IET Renew. Power Gener.

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This study looks into reliability assessment and components rating of a wind-power system with integrated battery energy storage. The system can potentially be used in remote electrification projects to mitigate the reliance on diesel generators. A reliability assessment method has been proposed in this study, based on a combination of the traditional analytical and simulation-based approaches, to enable calculation of reliability indices, required battery capacity and power rating, and power rating of the power-electronic converter of the wind-power units. The proposed method is easy to implement in the MATLAB software environment, takes into account the units forced outage rate (FOR), and also permits modelling of the gridconnected mode.

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Simulation and analysis of hybrid systems using probabilistic techniques

Cited by 18 publications

References 6 publications

Optimal Sizing and Control Strategy of renewable hybrid systems PV-Diesel Generator-Battery: application to the case of Djanet city of Algeria

Optimal Sizing and Control Strategy of renewable hybrid systems PV-Diesel Generator-Battery: application to the case of Djanet city of Algeria

PV-wind hybrid system: A review with case study

Reliability assessment of a wind-power system with integrated energy storage

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