Grid-connected photovoltaic system with battery storage system into market perspective

Energy sources as a solar, wind and water energy are used in production of electrical energy. Their biggest advantage is that they are renewable and they are sustainable. On the other hand, production from renewable energy sources is limited by environmental conditions. Production of photovoltaic systems are dependent on solar radiation, temperature, incidence angle, shadowing and other variable quantities. That is why designing of photovoltaic system is complex. In this paper a photovoltaic system production analysis and consumption analysis in residential house are presented. With real measured data the consumption and production are compared and energy balance equations, battery charge and discharge model are defined and behaviour of battery storage system through the one day are analysed. In addition, the reactive energy production and consumption are also analysed.

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Voltage regulation of stand-alone photovoltaic system using boost SEPIC converter with battery storage system

2013 Students Conference on Engineering and Systems (SCES) ◽

10.1109/sces.2013.6547540 ◽

2013 ◽

Cited By ~ 5

Author(s):

M. Bhunia ◽

R. Gupta

Keyword(s):

Storage System ◽

Voltage Regulation ◽

Photovoltaic System ◽

Battery Storage

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Optimal Operation of Battery Storage for a Subscribed Capacity-Based Power Tariff Prosumer—A Norwegian Case Study

Energies ◽

10.3390/en12234450 ◽

2019 ◽

Vol 12 (23) ◽

pp. 4450 ◽

Cited By ~ 4

Author(s):

Frida Berglund ◽

Salman Zaferanlouei ◽

Magnus Korpås ◽

Kjetil Uhlen

Keyword(s):

Peak Power ◽

Storage System ◽

Economic Benefits ◽

Optimal Operation ◽

Photovoltaic System ◽

Total System ◽

Battery Storage ◽

Peak Shaving ◽

Cost Of Energy ◽

The Cost

The cost of peak power for end-users subject to a demand charge may be substantial, expecting to increase further with the vast growth of power-demanding devices. In cases where load-shifting is not a viable option for cost reduction, battery storage systems used for peak shaving purposes are emerging as a promising solution. In this paper, the economic benefits of implementing battery storage into an existing grid-connected photovoltaic system for a medium-scale swimming facility is studied. The objective is to minimize the total cost of electricity for the facility, including the cost of energy and peak power demand, while ensuring the longevity of the battery. An optimization model based on multi-integer linear programming is built, and simulated using a one-year time horizon in GAMS and Matlab. The main results reveal that installing a battery storage system is economically attractive today, with net savings on the total system cost of 0.64% yearly. The cost of peak power is reduced by 13.9%, and the savings from peak shaving operation alone is enough to compensate for the yearly cost of the battery. Moreover, the battery ensures additional revenue by performing price arbitrage operations. When simulating the system for an assumed 2030 scenario, the battery is found to be more profitable with a yearly net savings of 4.15%.

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Analysis of an energy storage sizing for grid-connected photovoltaic system

Indonesian Journal of Electrical Engineering and Computer Science ◽

10.11591/ijeecs.v16.i1.pp17-24 ◽

2019 ◽

Vol 16 (1) ◽

pp. 17

Author(s):

Aimie Nazmin Azmi ◽

Norhafiz Salim ◽

Aziah Khamis

Keyword(s):

Energy Storage ◽

Storage System ◽

Operating Cost ◽

Lithium Ion ◽

Photovoltaic System ◽

Battery Storage ◽

Pv System ◽

Similar System ◽

Efficient System ◽

Annual Operating Cost

This paper present on the analysis of an energy storage sizing for a small grid-connected PV system. This project is to study the proper sizing of energy storage (battery) in a grid-connected PV system for consumers whom purchase and sell electricity from and to the utility grid. The goal is to minimize the total cost of the operation for a consumer with a PV system with a battery storage system. This is to make sure that minimizing the total annual operating cost while maintaining an efficient system. This study uses typical consumer load consumption, and solar irradiance data throughout a year, while varying the type of battery storage (study lead acid and Lithium ion battery) as an energy storage for a similar system. Since lithium ion is not the main options to be integrated with PV system, this study will then reveal the data in terms of cost on why it is not a popular choice.

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Optimisation of photovoltaic and battery systems from the prosumer-oriented total cost of ownership perspective

Energy Sustainability and Society ◽

10.1186/s13705-019-0231-2 ◽

2019 ◽

Vol 9 (1) ◽

Cited By ~ 3

Author(s):

Kai Kappner ◽

Peter Letmathe ◽

Philipp Weidinger

Keyword(s):

Storage System ◽

Electricity Consumption ◽

Photovoltaic System ◽

Battery Storage ◽

Total Cost Of Ownership ◽

German Market ◽

Total Cost ◽

Cost Of Ownership ◽

Self Sufficiency ◽

Behavioural Aspects

Abstract Background In the context of the German energy transition, the number of domestic households covering part of their electricity consumption from their own photovoltaic system is constantly increasing. Some even use battery storage systems to store excess power for later use, which increases the degree of self-sufficiency and, according to the providers of such systems, should yield financial advantages for the so-called prosumer. Methods We used the Prosumer-Oriented Total Cost of Ownership method to analyse the financial possibilities for prosumers under German market conditions, and thus determined the economically optimal solution for different domestic household sizes. In order to obtain realistic results, we applied real data covering the weather (relevant for the generation of electricity), consumption patterns, investment and operating costs, prices and revenues. If behavioural aspects are set aside and pre-requirements (e.g. sufficient roof space) are met, our model provides guidance for investors and policy-makers alike. Results and conclusions Our research shows that it is financially advantageous for all household sizes to operate the largest photovoltaic system possible for them (up to 10 kWp). By contrast, our results show that the investment in a battery storage system does not pay off even when government subsidies are taken into account. Regardless of the size of the selected battery storage system and all other influencing variables, the financial advantages of such a system do not materialise, although a battery storage system does substantially increase the self-sufficiency rate.

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