This master's s thesis is concerned with the effect of power flow on the voltage in electrical grids. The thesis focuses mainly on the effect of the flow of reactive power and in what way and to which extent we can regulate voltage by adjusting the flow of reacting power. These effects will be presented based on an example from Slovenian electrical grids, more specifically on a 110 kV high-voltage electrical grid of the Pomurje electric loop. The main problem we are faced with in this region is the problem of high voltage when electricity consumption is low. The biggest consumer of electricity in the region, company Talum d.d., offers a solution. They are able to reduce the voltage of the entire Pomurska loop and maintain the voltage within normal levels by changing the operating condition of their compensation devices. The purpose of this master's thesis is to present how Talum is able to affect the voltage in the Pomurje loop and determine the exact numeric values of the changes in voltage that are the result of switching off the compensation devices. The beginning of the thesis explains the basic correlations between electrical quantities which are important for the understanding of the effect of power flow on voltage, more specifically on voltage stability. The greatest emphasis is put on the construction of a simple model of the electric grid based on which the equations are derived. The derived equations are the basis for the graphs and curves presented in the master's thesis. The graphs and curves help with the better understanding of the topic. The compensation of reactive power, where possible methods of affecting the flow of reactive power and the effects of such actions, are also presented. This is followed by a detailed description of Talum's electric grids. Where the power supplied from and how the electric grid is set up is presented. Based on the electric grid scheme a detailed technical description of the transformers and compensation devices is made. The flow of active and reactive power and total consumption of the company is calculated based on the electric grid scheme and the consumption of electricity in 2014. As previously the Pomurje loop is described in detail. The description includes the types of electrical substations in the electric grid, how they are connected and which power lines have higher voltage levels than the observed one, since this is the basis for the simulation model. Here it is also explained how the power values are derived based on the energy flow for the year 2014. This data was later used in the simulation and the calculations. The description of the used elements of the electric grid scheme is the basis for comparison of the results given by the simulation models and the measurements of power and voltage. The comparison enabled me to confirm that the simulation model was set up and configured correctly. The next part shows the voltage in all electrical substations. The data presented shows the highest voltage levels in the electrical grid and the percentage of those where the levels are close to critical. At this point I determined the voltage points in the company Talum where I gradually turned off compensation by levels and monitored the changes in electrical substations throughout the Pomurje loop. The results of the data collected for each electrical substation are presented in column diagrams and in a form of a table which includes the initial voltage and the drops in voltage values that are in accordance with switching off the compensation. The values are presented numerically and in percentage terms. The maximum difference between the initial voltage, when the complete compensation was on, and final voltage, where all levels of compensation were taken out of the picture, is given to make the understanding of the data clearer. To conclude the thesis the economic outlook of voltage regulation is presented. This includes the calculation of the company's profit based on the agreed prices in 2014 in comparison with the contracts concluded in 2016.