| General note |
ABSTRACT<br/><br/>Variation of climatic conditions, defective design of components and imperfect<br/>system mounting alter the power out of photovoltaic modules. This study was<br/>conducted to examine the influence of system mounting at different slopes and<br/>orientations on power output of photovoltaic (P V) modules at Nawabshah. For that,<br/>two types of PV technologies namely monocrystalline and polycrystalline were<br/>mounted over the roof top of the Energy and Environment Engineering department<br/>building of QUEST Nawabshah. The meteorological data such as solar radiation,<br/>ambient temperature, relative humidity and wind speed was recorded with an<br/>installed weather station at QUEST Nawabshah during study period. The power<br/>output of selected PV modules were examined consecutively for three months from<br/>October to December 2015, starting from 08:00am to 04:00pm at an interval of hour.<br/>The power output of PV modules were recorded by varying the orientations at five<br/>directions such as east (E), south-east (SE), south (S), south-west (SW) and west (W)<br/>and also the slopes at (Y, 26.25β’, 30', 45' and 600, and at connected power load at<br/>OW (no load), SW, LOW, 15W and 20W. The power output of both PV modules were<br/>compared with each other in all three conditions, i.e. on every orientation and slopes<br/>at connected load.<br/>It is revealed that monocrystalline module (PV)I performed slightly better with 3%<br/>to 6% more power output as compared to polycrystalline (PV)2 at all three conditions<br/>(slope, orientation and load). The recorded average maximum power output of (P V),<br/>and (PV)2 was 27 W (89.9%) and 26W (86.8%) respectively of the rated power<br/>output of both modules when the system slope was placed at 30' and orientation at<br/>South. When the system slope was fixed at 300, the (P V)1 gave average percentile<br/><br/><br/><br/>Xxi<br/><br/><br/><br/>Power 32.2%, 52.7%, 57.0% and 35.3% and (PV)2 provided average<br/>Percentile 29.2%, 48.95% , 56%, 54.3% and 33.5% at the orientation of east,<br/>South east. South, southwest and west respectively, similarly, when the orientation<br/>was fixed at south, the ( I'V)1 gave average percentile power 43%, 55.57%. 59%, 56.5% and 54.3% and (PV)2 provided average percentile power 39.3%. 50.7%.56%, 54% and 51.13 at the slopes 1, 26.25, 30, 45 and 60 respectively at all load conditions. At all slopes and load conditions, and at the orientation of true south, the (PV)1 produced 25.8%, 6.3%, 2%, 23.7% and {PV)2 gave 26.8%, 7.1%, 1.7% and<br/>22.5% more power output than that of east, south-east, south-west and west<br/>direct tons respectively. Similarly, at all orientations and load conditions, and at the<br/>slope of 30, the (PV)1 produced 16%, 3.4%, 2.5% and 4.7% and PV2 16.7%, 53%,<br/>and S. 7% from (P Vh nuΒ»re power than that of (Y, 26.26145 β’and 60' slope<br/>Respectively. It is concluded that both PV modules produced 3% to 6% more power at the slope<br/>of .30β’ and orientation of true south with the connected load of IOW at Nawabshah.<br/>In addition, monocrystalline (PV)I module produced 3% to 6% more power than that<br/>of polycrystalline (PV)2 module at all slopes, orientations and load conditions during<br/>study period.<br/>xxii<br/> |