HUH in between 1 January 2019 and 31 December 2019, hourly energy consumption was determined for
HUH in between 1 January 2019 and 31 December 2019, hourly power consumption was determined for an typical day of the month. In Figure 5, based on the month-to-month and annual data of HUH, the distribution of electricity consumption for an average day is provided. As can be noticed from Figure five.Figure 5. Month-to-month and yearly typical distribution of your Sunset Yellow FCF Technical Information electrical energy consumption of Harran University hospital.The maximum power consumption of HUH is in July. Electrical energy consumption would be the highest in four months (summer period) from June to September, Electrical energy consumption would be the lowest inside the period of six months (winter period) from November to April, The electrical energy consumption profiles of an typical day obtained for Might and October are related towards the consumption profile obtained for an average day determined according to annual information.2.3.two. Determining the Load Profile from the Power Consumption of your Harran University Hospital The electrical power consumption load profile (LR) of HUH was calculated in accordance with the following equation. Within this equation, it shows hourly electrical energy consumption worth with Qhour and annual/monthly typical hourly power have to have with Qaverage . In line with the 2019 information of HUH, the every day typical electrical power consumption profile for 2019 is presented in Figure six. LRhour = Qhour /Qaverage (1)Mathematics 2021, 9,8 ofFigure 6. Typical each day electrical energy consumption profile of Harran university hospital for 2019.two.3.three. The Hourly Power Consumption Distribution of the KAU Hospital The electricity consumption profiles of two hospitals are deemed equivalent. Thinking of the day-to-day electricity consumption profile of HUH, along with the hourly electrical energy consumption distribution profile, and also the month-to-month total power consumption values of KAU hospital, the average hourly energy requirement (Qhour ) of KAU hospital was calculated based on following equation: Qhour = LRhour .Qaverage (2)Based on the consumption data in 2019, the KAU hospital’s (Figure 3) hourly electrical energy requirement is 21.694 kWh on average. The everyday electrical energy consumption profile with the hospital is presented in Figure 7. This figure shows the maximum electricity requirement of KAU hospital which shows that it’s 25.135 kWh at 11:30. If the PV system is created as outlined by the maximum electrical energy requirement in the KAU hospital, a PV system with 25 MW of capacity should be adequate. However, in real operating circumstances (neighborhood climatic conditions) PV panels perform with lower efficiency than their efficiency stated inside the catalogue because of higher temperature. PV panels are tested beneath 1000 W/m2 solar radiation and 25 C outdoor temperature situations.Figure 7. Every day typical electrical energy consumption profile of KAU hospital.PV program designing in accordance with the self-consumption model (based on the hourly electricity consumption want) aims to meet the electricity requires of KAU hospital. To meet up the electricity desires of KAU hospital, an on-grid PV program of diverse capacities, ranging from 25 MW to one hundred MW, was designed. Therefore, functionality evaluation of PV systems created for unique capacities was made easy. In all PV systems, crystallineMathematics 2021, 9,9 ofsilicon technologies was applied. PV panels are mounted and fixed in the open location to face them for the optimum tilt angle of your south path. The optimum tilt angle for Jeddah is 22 degrees. Total losses in the PV program (inverter, cable, dust, and so on.) had been N-Acetyltryptamine Protocol regarded as.