{"id":57854,"date":"2023-09-05T09:09:10","date_gmt":"2023-09-05T08:09:10","guid":{"rendered":"https:\/\/knowhow.distrelec.com\/?p=57854"},"modified":"2023-09-05T09:09:13","modified_gmt":"2023-09-05T08:09:13","slug":"kommer-solpaneler-att-bli-battre-pa-att-fanga-solljus","status":"publish","type":"post","link":"https:\/\/knowhow.distrelec.com\/sv\/energi-stromforsorjning\/kommer-solpaneler-att-bli-battre-pa-att-fanga-solljus\/","title":{"rendered":"Kommer solpaneler att bli b\u00e4ttre p\u00e5 att f\u00e5nga solljus?\u00a0"},"content":{"rendered":"\n

Under de senaste \u00e5ren har v\u00e4rlden bevittnat en anm\u00e4rkningsv\u00e4rd f\u00f6r\u00e4ndring mot f\u00f6rnybara energik\u00e4llor, med solenergi som framtr\u00e4der som en f\u00f6reg\u00e5ngare inom ren energirevolutionen. <\/em><\/p>\n\n\n\n

Solpaneler, som utnyttjar solens rikliga energi, har genomg\u00e5tt betydande framsteg sedan starten, och de \u00e5rliga PV-kapacitetstillskotten \u00f6kar varje \u00e5r<\/a>, med planer p\u00e5 att \u00f6vertr\u00e4ffa naturgas 2026 och kol 2027. Fr\u00e5gan \u00e4r dock om solpaneler kommer att bli b\u00e4ttre p\u00e5 att f\u00e5nga solljus, eftersom de kiselbaserade solpanelernas effektivitet f\u00f6r n\u00e4rvarande str\u00e4cker sig fr\u00e5n cirka 15 % till 20 %<\/a> av solenergin som omvandlas till anv\u00e4ndbar energi.<\/p>\n\n\n\n

Den h\u00e4r artikeln f\u00f6rdjupar sig i v\u00e4rlden av f\u00f6rnybar energi, i synnerhet solpanelsteknik, och utforskar de sp\u00e4nnande utsikterna f\u00f6r att f\u00f6rb\u00e4ttra effektiviteten f\u00f6r inf\u00e5ngning av solljus.<\/p>\n\n\n\n

Solenergi och andra f\u00f6rnybara energik\u00e4llor<\/h2>\n\n\n\n

Solenergi \u00e4r den vanligaste och mest tillg\u00e4ngliga k\u00e4llan till f\u00f6rnybar energi. Enligt uppgifter fr\u00e5n International Energy Agency (IEA)<\/a> genererades n\u00e4stan 1 300 TWh solcellsenergi 2022, en rekordstor \u00f6kning med 270 TWh (upp 26 %). 2022 gick ocks\u00e5 solenergin \u00f6ver vindproduktionen f\u00f6r f\u00f6rsta g\u00e5ngen i historien och visade den h\u00f6gsta absoluta generationstillv\u00e4xten av alla f\u00f6rnybara teknologier. Denna generationstillv\u00e4xt \u00e4r i linje med vad scenariot f\u00f6r nettonollutsl\u00e4pp till 2050<\/a> f\u00f6rv\u00e4ntar sig f\u00f6r \u00e5ren 2023 till 2030. <\/p>\n\n\n

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\"\"
K\u00e4lla: IEA 2022; Share of cumulative power capacity by technology, 2010-2027, https:\/\/www.iea.org\/data-and-statistics\/charts\/share-of-cumulative-power-capacity-by-technology-2010-2027, Licens: CC BY 4.0<\/figcaption><\/figure><\/div>\n\n\n

Det nuvarande tillst\u00e5ndet f\u00f6r solpanelseffektivitet<\/h2>\n\n\n\n

Solpaneler, \u00e4ven k\u00e4nda som fotovoltaiska (PV) paneler, har gjort betydande framsteg i effektivitet under de senaste decennierna. Traditionella kiselbaserade solpaneler har n\u00e5tt en punkt av kommersiell l\u00f6nsamhet, med m\u00e5nga installationer som redan prickar tak och landskap runt om i v\u00e4rlden. Effektiviteten hos dessa paneler, som n\u00e4mndes i inledningen, m\u00e4tt med deras f\u00f6rm\u00e5ga att omvandla solljus till elektricitet, varierar vanligtvis fr\u00e5n 15 % till 20 %.<\/p>\n\n\n\n

\u00c4ven om dessa siffror \u00e4r imponerande, forts\u00e4tter str\u00e4van efter f\u00f6rb\u00e4ttrad effektivitet att vara p\u00e5g\u00e5ende. Forskare och ingenj\u00f6rer utforskar kontinuerligt innovativa tekniker f\u00f6r att g\u00f6ra solpaneler \u00e4nnu mer effektiva, prisv\u00e4rda och milj\u00f6v\u00e4nliga.<\/p>\n\n\n\n

Banbrytande solpanelsteknik<\/h2>\n\n\n\n

Ny design och lager m\u00f6jligg\u00f6r h\u00f6gre effektivitet och sk\u00f6rd av mer energi. Medan solceller<\/a> gjorda av kisel bara omvandlar ett smalt frekvensband av solljus, m\u00f6jligg\u00f6r anv\u00e4ndningen av nyare material b\u00e4ttre absorption av ljuset.\u00a0<\/p>\n\n\n\n

Perovskitsolceller<\/h3>\n\n\n\n

Perovskit, en kristall av titan och kalcium, \u00e4r effektivare p\u00e5 att absorbera ljus som ligger n\u00e4rmare infrar\u00f6d spektrum. Dessa l\u00e4tta och flexibla celler kan tillverkas med kostnadseffektiva processer, vilket g\u00f6r dem till ett attraktivt alternativ f\u00f6r framtida solpaneldesigner. <\/p>\n\n\n\n

Perovskitsolceller har potentialen att producera h\u00f6gre effektivitet \u00e4n solceller baserade p\u00e5 kisel. Forskare f\u00f6rb\u00e4ttrar kontinuerligt perovskit-formuleringar f\u00f6r att \u00f6ka stabilitet och prestanda, vilket potentiellt kan driva effektivitetsniv\u00e5erna bortom nuvarande standarder. Bevis f\u00f6r detta \u00e5terfinns i Schweiz, d\u00e4r forskare vid det schweiziska federala tekniska universitetet (EPFL) och det schweiziska centret f\u00f6r elektronik och mikroteknik (CSEM) framg\u00e5ngsrikt \u00f6verskred effektivitetsgr\u00e4nsen p\u00e5 30 % f\u00f6r perovskit-p\u00e5-kisel tandem-solceller<\/a> f\u00f6r f\u00f6rsta g\u00e5ngen. <\/p>\n\n\n\n

\"\"<\/figure>\n\n\n\n
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Dessa h\u00f6geffektiva resultat kommer nu att kr\u00e4va ytterligare forskning och utveckling f\u00f6r att m\u00f6jligg\u00f6ra uppskalning till st\u00f6rre ytor och s\u00e4kerst\u00e4lla att dessa nya celler kan uppr\u00e4tth\u00e5lla en stabil effektutg\u00e5ng p\u00e5 v\u00e5ra tak och andra platser under en normal livsl\u00e4ngd.<\/em><\/p>\n\u2013 Quentin Jeangros fr\u00e5n CSEM<\/cite><\/blockquote>\n\n\n\n

L\u00e4s mer om perovskitsolceller i v\u00e5r artikel om de 5 b\u00e4sta innovativa solteknologierna<\/a>.<\/p>\n\n\n\n

Tandemsolceller<\/h3>\n\n\n\n

En lovande v\u00e4g f\u00f6r att \u00f6ka solcellers effektivitet involverar utvecklingen av tandemsolceller. Dessa celler staplar tv\u00e5 eller flera skikt av olika halvledarmaterial f\u00f6r att f\u00e5nga in en bredare spektrum av solljus. Det kan inkludera en blandning av f\u00f6r n\u00e4rvarande tillg\u00e4ngliga solceller tillverkade av perovskiter, Si, GaAs, CIGS, osv. <\/p>\n\n\n\n

Till exempel, i Tyskland presenterade team fr\u00e5n Helmholtz Center Berlin (HZB) och Institutet f\u00f6r solforskning i Hameln (ISFH) PERC (Passiverad Emitter och Bakre Kontakt) fotovoltaiska celler som anses vara de mest effektiva p\u00e5 marknaden, med en maximal verkningsgrad p\u00e5 23 %<\/a>. Dock \u00e4r tyska forskare \u00f6vertygade om att de nya tandem PERC\/POLO-cellerna skulle kunna uppn\u00e5 29,5 %.<\/p>\n\n\n\n

Utanf\u00f6r Europa har forskare i Saudiarabien utvecklat en ny typ av solcell som slagit rekordet f\u00f6r h\u00f6gsta verkningsgrad med en o\u00f6vertr\u00e4ffad niv\u00e5 p\u00e5 33,7 %<\/a>. Det \u00e4r en tandemsolcell baserad p\u00e5 kombinationen av kisel och perovskit. Medan kisel-skiktet absorberar och omvandlar mestadels infrar\u00f6tt ljus till elektricitet, absorberar perovskit-skiktet synligt ljus, vilket g\u00f6r det mer effektivt \u00e4n konventionella celler.<\/p>\n\n\n\n

\n

\u201dVi hoppas att v\u00e5rt nya resultat kommer att bidra till att accelerera \u00f6verg\u00e5ngen till gr\u00f6n energi.<\/em>\u201d<\/p>\n\u2013 Erkan Aydin, forskningsvetare vid King Abdullah University of Science and Technology (KAUST)<\/cite><\/blockquote>\n\n\n\n

Bifaciala solpaneler<\/h3>\n\n\n\n

Fotovoltaiska solceller med f\u00f6rm\u00e5gan att generera elektricitet n\u00e4r de bestr\u00e5las p\u00e5 b\u00e5da sina ytor kallas bifaciala solpaneler. Med andra ord har bifaciala solpaneler f\u00f6rm\u00e5gan att f\u00e5nga solljus fr\u00e5n b\u00e5da sidor och utnyttja effektivt solljus som reflekteras fr\u00e5n ytor som tak eller mark (observera: de fungerar b\u00e4st n\u00e4r de installeras p\u00e5 markniv\u00e5). Vissa bifaciala paneler har kapacitet att \u00f6ka energiproduktionen med upp till 30 %<\/a>. Den exakta m\u00e4ngden beror p\u00e5 de omgivande milj\u00f6f\u00f6rh\u00e5llandena.<\/p>\n\n\n\n

Kvantprick solceller<\/h3>\n\n\n\n

Forskare utforskar nanoteknikens v\u00e4rld genom att anv\u00e4nda halvledarnanostrukturer f\u00f6r solenergi, skapar h\u00f6geffektiva solpaneler med komplexa nanostrukturer och kvantprickar. En kvantprick solcell \u00e4r en solcell som anv\u00e4nder kvantprickar f\u00f6r att absorbera fotovoltaiskt material.<\/p>\n\n\n\n

Enligt National Renewable Energy Laboratory<\/a> har kvantprickar potentialen att dramatiskt \u00f6ka (eventuellt till och med f\u00f6rdubbla det i vissa enheter) effektiviteten i att omvandla solljus till elektrisk kraft. Dessa strukturer kan manipulera ljus p\u00e5 nanoskalan, vilket m\u00f6jligg\u00f6r b\u00e4ttre absorption och \u00f6kad energiomvandlingseffektivitet. N\u00e4r forskningen inom detta omr\u00e5de framskrider, kan vi bevittna solpaneler som \u00e4r kapabla att utnyttja solljus p\u00e5 ett effektivare s\u00e4tt \u00e4n n\u00e5gonsin tidigare. <\/p>\n\n\n\n

Sammanfattning<\/h2>\n\n\n\n

Med nya avancerade teknologier och olika typer av solceller kommer solenergi och solpaneler att bli allt mer popul\u00e4ra. Utvecklingen av nya solpaneler har f\u00f6rm\u00e5gan att inte bara f\u00f6rb\u00e4ttra effektiviteten i att f\u00e5nga solljus, utan ocks\u00e5 omforma kraftindustrin. Medan v\u00e4rlden forts\u00e4tter sin \u00f6verg\u00e5ng mot rena energik\u00e4llor kommer utvecklingen av solpaneler att vara en del av \u00f6verg\u00e5ngen mot en h\u00e5llbar och energirik framtid.<\/p>\n\n\n\n

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Utforska solenergiprodukter<\/strong><\/a><\/div>\n<\/div>\n","protected":false},"excerpt":{"rendered":"Under de senaste \u00e5ren har v\u00e4rlden bevittnat en anm\u00e4rkningsv\u00e4rd f\u00f6r\u00e4ndring mot f\u00f6rnybara energik\u00e4llor, med solenergi som framtr\u00e4der som…\n","protected":false},"author":16,"featured_media":58070,"comment_status":"closed","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"csco_singular_sidebar":"","csco_page_header_type":"","csco_appearance_grid":"","csco_page_load_nextpost":"","csco_post_video_location":[],"csco_post_video_location_hash":"","csco_post_video_url":"","csco_post_video_bg_start_time":0,"csco_post_video_bg_end_time":0,"_jetpack_memberships_contains_paid_content":false,"footnotes":""},"categories":[241,243],"tags":[],"coauthors":[],"class_list":{"0":"post-57854","1":"post","2":"type-post","3":"status-publish","4":"format-standard","5":"has-post-thumbnail","7":"category-energi-stromforsorjning","8":"category-underhall-reparation-och-drift","9":"cs-entry","10":"cs-video-wrap"},"yoast_head":"\nKommer solpaneler att bli b\u00e4ttre p\u00e5 att f\u00e5nga solljus?\u00a0 - 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