Assessing the use of BESS against PV-induced voltage increases on low voltage networks through local and centralized controllers

AYDIN, Muhammed sait; �ift�i, Sabri

Volume : 30 Issue : 4 Year : 2024

30/4Current Issue Ahead of Print Archive Most Accessed Articles Manuscript Submission

Pamukkale University Journal of Engineering Sciences Assessing the use of BESS against PV-induced voltage increases on low voltage networks through local and centralized controllers [Pamukkale Univ Muh Bilim Derg]

Pamukkale Univ Muh Bilim Derg. Ahead of Print: PAJES-06432 | DOI: 10.5505/pajes.2024.06432

Assessing the use of BESS against PV-induced voltage increases on low voltage networks through local and centralized controllers

Muhammed sait AYDIN¹, Sabri �ift�i²
¹Siirt University, Engineering Faculty, Electrical-electronic Engineering
²Prof Dr Necmettin Erbakan Mesleki ve Teknik Anadolu�lisesi

The value of renewable energy systems has been increasing due to the current global climate change. Given the economic benefits to the end users and the incentives created for the uptake, householders have accelerated the use of this form of energy. Photovoltaic (PV) systems, an important part of renewable energy, assist the energy provision needed in households. In any residences, once the harvesting energy produced by the PV system is greater than the amount consumed in the household, the remaining energy is injected to the grid. While this situation provides economic benefit to the residential customer, it might cause voltage increases at the node which the residence is connected to. This factor might affect profitably utility companies and customers as a negative increase in voltage level. One of the possible solutions to this problem is to deploy battery energy storage systems (BESS) connected to the PV system in a household. In order to simulate this, a real BESS: Tesla Powerwall 2 was modeled in this study. Two different control methods (local and central) were investigated for the effective use of BESS against voltage increases. In addition, for each method, the energy capacity (kWh) and charge/discharge power (kW) of BESS were changed and the adverse effect of BESS on voltage increases was quantified. As a result, it is seen that central control is more effective in managing the voltage rise and compared to local control, it is more realistic in terms of utilization. Additionally, in both control methods, it is observed that when the BESS energy capacity (kWh) is increased or the BESS charge/discharge power (kW) is altered, the rise in voltage level is reduced. It is expected that these results will contribute to preventing and/or managing problems that may occur with PV systems in households.

Keywords: Battery energy storage systems, Low voltage networks, PV systems, Tesla Powerwall

Al�ak gerilim �ebekelerinde PV kaynakl� gerilim art��lar�na kar�� BESS kullan�m�n�n yerel ve merkezi kontrol�rler arac�l��yla de�erlendirilmesi

Muhammed sait AYDIN¹, Sabri �ift�i²
¹Siirt Universitesi, Muhendislik Fakultesi, Elektrik-elektronik Muhendisligi
²Prof Dr Necmettin Erbakan Mesleki ve Teknik Anadolu�lisesi

G�n�m�zde ya�anan iklim krizi nedeniyle, yenilenebilir enerjinin �nemi her ge�en g�n artmaktad�r. Son kullan�c�ya ekonomik faydalar� ve al�m i�in olu�turulan te�vikler nedeniyle, konutlar bu enerji t�r�n�n kullan�m�na ivme katm��t�r. Yenilenebilir enerjinin �nemli bir par�as� olan fotovoltaik (PV) sistemler, konutlarda ihtiya� duyulan enerji tedarikini desteklemektedir. Herhangi bir konutta, PV sistemin �retti�i enerji ��k��n�n konutta t�ketilenden fazla oldu�u zamanlarda, artan enerji �ebeke taraf�na do�ru enjekte edilmi� olur. Bu durum konut m��terisine ekonomik yarar sa�larken, konutun ba�l� bulundu�u d��m noktas�nda gerilim art��lar�na neden olur. Bu etken enerji da��t�m firmalar�n� ekonomik olarak avantajl�, m��terileri ise gerilim seviyesinde olumsuz art�� olarak etkileyebilmektedir. Bu sorunun muhtemel ��z�mlerinden biri, PV sisteme ba�l� batarya enerji depolama sistemleri (BEDS) kullanmakt�r. Bu durumun sim�le edilebilmesi i�in, bu �al��mada ger�ek bir BEDS: Tesla Powerwall 2, modellenmi�tir. BEDS�in gerilim art��na kar�� etkin kullan�m� i�in iki farkl� kontrol y�ntemi (lokal ve merkezi) analiz edilmi�tir. Ek olarak her y�ntem i�in, BEDS�in enerji kapasitesi (kWh) ve �arj/de�arj g�c� (kW) de�i�tirilerek, BEDS�in gerilim art��lar� �zerine olan ters etkisi �l��mlenmi�tir. Sonu� olarak merkezi kontrol��n lokal kontrol�e g�re gerilim seviyesini y�netmekte daha efektif ve uygulama a��s�ndan daha ger�ek�i oldu�u g�r�lm��t�r. Ayr�ca her iki kontrol y�nteminde de BEDS enerji kapasitesi (kWh) artt�r�ld��nda veya BEDS �arj/de�arj g�c� (kW) de�i�tirildi�inde, gerilim art��n�n daha az oldu�u g�r�lm��t�r. Bu sonu�lar�n konutlardaki PV sistemler ile olu�acak sorunlar�n olu�mas�n� engellemesine ve/veya y�netilmesine katk� sunmas� beklenmektedir.

Anahtar Kelimeler: AG �ebekeleri, BESS, PV sistemler, Tesla Powerwall

Corresponding Author: Muhammed sait AYDIN, T�rkiye
Manuscript Language: Turkish

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Assessing the use of BESS against PV-induced voltage increases on low voltage networks through local and centralized controllers

Al�ak gerilim �ebekelerinde PV kaynakl� gerilim art��lar�na kar�� BESS kullan�m�n�n yerel ve merkezi kontrol�rler arac�l���yla de�erlendirilmesi

Al�ak gerilim �ebekelerinde PV kaynakl� gerilim art��lar�na kar�� BESS kullan�m�n�n yerel ve merkezi kontrol�rler arac�l��yla de�erlendirilmesi