[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"doc-detail-31457":3,"doc-seo-31457":27},{"code":4,"msg":5,"data":6},0,"success",{"doc_id":7,"user_id":8,"nickname":9,"user_avatar":10,"doc_module":4,"category_id":11,"category_name":12,"doc_title":13,"doc_description":14,"file_id":15,"file_url":16,"file_type":17,"file_size":18,"view_count":4,"is_deleted":4,"is_public":19,"is_downloadable":19,"audit_status":19,"page_count":20,"language":21,"language_code":22,"table_of_contents":23,"faqs":24,"seo_title":13,"seo_description":14,"update_tm":25,"read_time":26},31457,962075114765,"Quinn","https://ap-avatar.wpscdn.com/davatar_a8503ba1806abce46bf441b54a3ca4cd",8,"Research & Report","Study on the Optimum Orientation of Bifacial Photovoltaic Module","Bifacial photovoltaic devices generate additional energy due to their ability to absorb irradiation on both front and rear sides, making orientation a primary driver of performance. A full factorial experimental study using the Taguchi method evaluates the optimum module installation settings in Jaipur, India by varying tilt angle (β), elevation (E), and azimuth angle (γ), under location albedo conditions. Taguchi analysis identifies β=40°, E=0.8 m, and γ=22.5°, supported by ANOVA with R²=88.7%. Experiments validate the computed response with 2.64% error, and the optimum orientation yields the highest PR (84.76%) due to increased rear irradiance collection, with higher albedo further increasing output.","cbCaia350TD82RvD","https://ap.wps.com/l/cbCaia350TD82RvD","pdf",4250980,1,20,"English","en","# Background\n## Bifacial photovoltaic technology: An overview\n## Factors governing bifacial modules' performance","[{\"question\":\"What factors most influence the performance of bifacial photovoltaic modules?\",\"answer\":\"Module performance mainly depends on tilt angle (β), elevation above ground (E), albedo of the location (ρg), and azimuth angle (γ), as well as the spatial distribution of rear irradiance.\"},{\"question\":\"How was the optimum orientation determined in the study?\",\"answer\":\"The study uses a full factorial design experiment with the Taguchi method to maximize power generation from a test bifacial PV module in Jaipur, India.\"},{\"question\":\"What optimum parameter values were obtained and how were results validated?\",\"answer\":\"The optimal setting identified is β=40°, E=0.8 m, and γ=22.5°. ANOVA confirms model adequacy with R²=88.7%, and experiments validate the response with a 2.64% error.\"}]",1779483752,50,{"code":4,"msg":28,"data":29},"ok",{"site_id":30,"language":22,"slug":31,"title":13,"keywords":32,"description":14,"schema_data":33,"social_meta":84,"head_meta":86,"extra_data":88,"updated_unix":25},105,"study-on-the-optimum-orientation-of-bifacial-photovoltaic-module","",{"@graph":34,"@context":83},[35,52,66],{"@type":36,"itemListElement":37},"BreadcrumbList",[38,42,46,49],{"item":39,"name":40,"@type":41,"position":19},"https://docshare.wps.com","Home","ListItem",{"item":43,"name":44,"@type":41,"position":45},"https://docshare.wps.com/document/","Document",2,{"item":47,"name":12,"@type":41,"position":48},"https://docshare.wps.com/document/research-report/",3,{"item":50,"name":13,"@type":41,"position":51},"https://docshare.wps.com/document/study-on-the-optimum-orientation-of-bifacial-photovoltaic-module/31457/",4,{"url":50,"name":13,"@type":53,"author":54,"headline":13,"publisher":56,"fileFormat":59,"description":14,"dateModified":60,"datePublished":60,"encodingFormat":59,"isAccessibleForFree":61,"interactionStatistic":62},"DigitalDocument",{"name":9,"@type":55},"Person",{"url":39,"name":57,"@type":58},"DocShare","Organization","application/pdf","2026-05-22",true,{"@type":63,"interactionType":64,"userInteractionCount":4},"InteractionCounter",{"@type":65},"ViewAction",{"@type":67,"mainEntity":68},"FAQPage",[69,75,79],{"name":70,"@type":71,"acceptedAnswer":72},"What factors most influence the performance of bifacial photovoltaic modules?","Question",{"text":73,"@type":74},"Module performance mainly depends on tilt angle (β), elevation above ground (E), albedo of the location (ρg), and azimuth angle (γ), as well as the spatial distribution of rear irradiance.","Answer",{"name":76,"@type":71,"acceptedAnswer":77},"How was the optimum orientation determined in the study?",{"text":78,"@type":74},"The study uses a full factorial design experiment with the Taguchi method to maximize power generation from a test bifacial PV module in Jaipur, India.",{"name":80,"@type":71,"acceptedAnswer":81},"What optimum parameter values were obtained and how were results validated?",{"text":82,"@type":74},"The optimal setting identified is β=40°, E=0.8 m, and γ=22.5°. ANOVA confirms model adequacy with R²=88.7%, and experiments validate the response with a 2.64% error.","https://schema.org",{"og:url":50,"og:type":85,"og:title":13,"og:site_name":57,"og:description":14},"article",{"robots":87,"canonical":50},"index,follow",{"doc_id":7,"site_id":30}]