[{"data":1,"prerenderedAt":2086},["ShallowReactive",2],{"blog-post-nl-thuisbatterij-arei":3,"blog-alternates-home-battery-arei":479},{"id":4,"title":5,"articleId":6,"body":7,"category":457,"date":458,"description":459,"extension":460,"lastUpdated":461,"locale":462,"meta":463,"navigation":464,"path":465,"publishDate":458,"readTime":466,"refreshInterval":467,"seo":468,"slug":469,"stem":470,"tags":471,"__hash__":478},"blog\u002Fblog\u002Fhome-battery-arei.nl.md","Thuisbatterij en AREI: Batterijopslag correct integreren in de elektroinstallatie","home-battery-arei",{"type":8,"value":9,"toc":433},"minimark",[10,14,18,23,26,29,33,38,46,62,66,73,77,84,88,95,99,102,106,109,129,133,136,154,158,161,175,179,186,190,196,210,217,221,224,250,254,334,338,364,367,371,378,392,395,400,421],[11,12,5],"h1",{"id":13},"thuisbatterij-en-arei-batterijopslag-correct-integreren-in-de-elektroinstallatie",[15,16,17],"p",{},"Thuisbatterijen worden in België steeds populairder. Wie een PV-installatie heeft, kan met een thuisbatterij het eigenverbruik maximaliseren en minder stroom van het net afnemen. Maar hoe ziet de correcte installatie er uit volgens het AREI? Deze gids leidt u door alle vereisten.",[19,20,22],"h2",{"id":21},"waarom-een-thuisbatterij","Waarom een thuisbatterij?",[15,24,25],{},"Met de digitale meter in België loont eigenverbruik meer dan ooit. Een thuisbatterij slaat overdag overtollige zonnestroom op en geeft die 's avonds weer af. De typische besparing ligt tussen 30-60 % van het netverbruik, afhankelijk van de batterijcapaciteit en het verbruiksprofiel.",[15,27,28],{},"Het AREI kent geen eigen hoofdstuk voor thuisbatterijopslag — de algemene voorschriften gelden (bescherming tegen elektrische schokken, overstroombeveiliging, scheiding\u002Fveiligheidsuitschakeling). Het specifieke batterijhoofdstuk 7.103 (industriële accumulatorenbatterijen) sluit huishoudelijke installaties uitdrukkelijk uit. Wanneer de batterij gekoppeld is aan een PV-installatie, geldt Art. 7.112 (huishoudelijke laagspannings-fotovoltaïsche installaties ≤ 10 kVA) voor het PV-gedeelte; de batterij zelf valt er niet onder.",[19,30,32],{"id":31},"arei-vereisten-voor-thuisbatterijen","AREI-vereisten voor thuisbatterijen",[34,35,37],"h3",{"id":36},"eigen-stroomkring","Eigen stroomkring",[15,39,40,41,45],{},"De thuisbatterij (meer bepaald de omvormer\u002Fhybride inverter) heeft een ",[42,43,44],"strong",{},"eigen, dedicated stroomkring"," nodig in de verdeelkast. Deze stroomkring mag niet met andere verbruikers gedeeld worden.",[47,48,49,56],"ul",{},[50,51,52,55],"li",{},[42,53,54],{},"Beveiliging:"," Eigen MCB (automatische zekering), typisch 20A of 32A afhankelijk van het omvormervermogen. Kabeldoorsneden: beveiliging 20 A → min. 2,5 mm², beveiliging 32 A → min. 6 mm²",[50,57,58,61],{},[42,59,60],{},"Differentieel:"," 30 mA RCD voorgeschakeld. Bij eenfasige omvormer volstaat Type A. Bij driefasige omvormer zonder geïntegreerde DC-foutstroomdetectie (RCMU) is Type B vereist. Veel moderne omvormers (Huawei, Fronius) hebben een geïntegreerde RCMU, waardoor Type A volstaat",[34,63,65],{"id":64},"scheidingsschakelaar-vrijschakelpunt","Scheidingsschakelaar (vrijschakelpunt)",[15,67,68,69,72],{},"Tussen batterij\u002Fomvormer en het net moet een ",[42,70,71],{},"allpolige scheidingsschakelaar"," geïnstalleerd zijn. Deze maakt het mogelijk om de batterij-installatie volledig van het net te scheiden — belangrijk voor onderhoudswerkzaamheden en voor de veiligheid van netwerktechnici.",[34,74,76],{"id":75},"overspanningsbeveiliging-spd","Overspanningsbeveiliging (SPD)",[15,78,79,80,83],{},"Een ",[42,81,82],{},"overspanningsbeveiliging (SPD)"," wordt aanbevolen op de AC-aansluiting. Art. 4.5.1 formuleert het beginsel dat personen en goederen tegen overspanningen beschermd moeten worden, maar schrijft geen specifiek SPD-type voor. Aan de DC-zijde is een SPD eveneens raadzaam, vooral bij buitenbekabeling.",[34,85,87],{"id":86},"ventilatie-bij-lithium-accus","Ventilatie bij lithium-accu's",[15,89,90,91,94],{},"Lithium-ionbatterijen (zoals in alle gangbare thuisbatterijen) vereisen een ",[42,92,93],{},"voldoende ventilatie"," van de installatieruimte. De ruimte mag geen overmatige hitte ontwikkelen (aanbevolen: max. 35°C). Bij grotere systemen kan actieve ventilatie nodig zijn.",[19,96,98],{"id":97},"integratie-in-het-eendraadschema","Integratie in het eendraadschema",[15,100,101],{},"Het eendraadschema moet de thuisbatterij correct weergeven. De integratie omvat twee zijden:",[34,103,105],{"id":104},"dc-zijde","DC-zijde",[15,107,108],{},"De gelijkstroomzijde toont het traject van het batterijpakket via het batteriemanagementsysteem (BMS) naar de omvormer:",[47,110,111,126],{},[50,112,113,116,117,116,120,116,123],{},[42,114,115],{},"Batterij"," → ",[42,118,119],{},"BMS",[42,121,122],{},"DC-scheidingsschakelaar",[42,124,125],{},"Hybride inverter",[50,127,128],{},"Bij AC-gekoppelde systemen: Batterij → eigen batterij-omvormer → AC-aansluiting",[34,130,132],{"id":131},"ac-zijde","AC-zijde",[15,134,135],{},"De wisselstroomzijde toont de integratie in het huisnet:",[47,137,138,151],{},[50,139,140,116,142,116,145,116,148],{},[42,141,125],{},[42,143,144],{},"AC-scheidingsschakelaar",[42,146,147],{},"MCB",[42,149,150],{},"Verdeelkast",[50,152,153],{},"De aansluiting gebeurt typisch na de hoofdschakelaar, maar vóór de individuele stroomkring-RCD's",[34,155,157],{"id":156},"weergave-in-het-schema","Weergave in het schema",[15,159,160],{},"In het eendraadschema verschijnt de thuisbatterij als eigen aftakking, vergelijkbaar met de PV-installatie. De symbolen omvatten:",[47,162,163,166,169,172],{},[50,164,165],{},"Batterijsymbool (volgens IEC 60617)",[50,167,168],{},"Omvormersymbool",[50,170,171],{},"Scheidingsschakelaar",[50,173,174],{},"Bijbehorende MCB en RCD",[19,176,178],{"id":177},"noodstroombackup-functie","Noodstroom\u002FBackup-functie",[15,180,181,182,185],{},"Veel moderne thuisbatterijen bieden een ",[42,183,184],{},"noodstroomfunctie"," (backup). Als het net uitvalt, voedt de batterij geselecteerde stroomkringen verder.",[34,187,189],{"id":188},"omschakelvoorziening","Omschakelvoorziening",[15,191,192,193,195],{},"Als een backup-functie gewenst is, moet een ",[42,194,188],{}," geïnstalleerd worden:",[47,197,198,204],{},[50,199,200,203],{},[42,201,202],{},"Automatische omschakeling (ATS):"," De omvormer schakelt automatisch over naar eilandbedrijf. De meeste hybride inverters hebben dit ingebouwd.",[50,205,206,209],{},[42,207,208],{},"Handmatige omschakeling:"," Een omschakelaar laat de handmatige scheiding van het net en het bedrijf in eilandmodus toe.",[15,211,212,213,216],{},"De omschakelvoorziening moet in het eendraadschema worden weergegeven en ",[42,214,215],{},"allpolig scheidend"," zijn, zodat geen stroom teruggevoed wordt in het uitgevallen net (gevaar voor netwerktechnici).",[19,218,220],{"id":219},"melding-bij-de-netbeheerder","Melding bij de netbeheerder",[15,222,223],{},"De installatie van een thuisbatterij moet bij de netbeheerder (Fluvius in Vlaanderen, ORES\u002FRESA in Wallonië) gemeld worden:",[47,225,226,232,238,244],{},[50,227,228,231],{},[42,229,230],{},"Bij bestaande PV-installatie:"," Wijzigingsmelding — de installatie wordt als PV + batterij geregistreerd",[50,233,234,237],{},[42,235,236],{},"Technische gegevens:"," Capaciteit (kWh), omvormervermogen (kW), AC- of DC-koppeling",[50,239,240,243],{},[42,241,242],{},"Nieuw eendraadschema:"," Een bijgewerkt schema moet ingediend worden",[50,245,246,249],{},[42,247,248],{},"Aanpassing elektrokeuring:"," Bij wezenlijke wijzigingen kan een nieuwe keuring nodig zijn",[19,251,253],{"id":252},"populaire-systemen-in-belgië","Populaire systemen in België",[255,256,257,279],"table",{},[258,259,260],"thead",{},[261,262,263,267,270,273,276],"tr",{},[264,265,266],"th",{},"Systeem",[264,268,269],{},"Capaciteit",[264,271,272],{},"Vermogen",[264,274,275],{},"Koppeling",[264,277,278],{},"Bijzonderheid",[280,281,282,300,317],"tbody",{},[261,283,284,288,291,294,297],{},[285,286,287],"td",{},"Huawei LUNA 2000",[285,289,290],{},"5-30 kWh",[285,292,293],{},"2.5-5 kW",[285,295,296],{},"DC (met Huawei SUN2000)",[285,298,299],{},"Modulair uitbreidbaar",[261,301,302,305,308,311,314],{},[285,303,304],{},"Tesla Powerwall 3",[285,306,307],{},"13.5 kWh",[285,309,310],{},"11.5 kW",[285,312,313],{},"AC of DC",[285,315,316],{},"Geïntegreerde omvormer",[261,318,319,322,325,328,331],{},[285,320,321],{},"BYD HVS\u002FHVM",[285,323,324],{},"5.1-22.1 kWh",[285,326,327],{},"afhankelijk van WR",[285,329,330],{},"DC (met SMA\u002FFronius)",[285,332,333],{},"Flexibel, bewezen",[19,335,337],{"id":336},"kosten-en-rentabiliteit","Kosten en rentabiliteit",[47,339,340,346,352,358],{},[50,341,342,345],{},[42,343,344],{},"Investering:"," €4.000-8.000 voor een systeem met 5-10 kWh capaciteit (incl. installatie)",[50,347,348,351],{},[42,349,350],{},"Besparing:"," €300-600 per jaar, afhankelijk van het eigenverbruiksaandeel",[50,353,354,357],{},[42,355,356],{},"ROI:"," 8-15 jaar — loont vooral bij hoog dagverbruik en grote PV-installatie",[50,359,360,363],{},[42,361,362],{},"Premies:"," Controleer regionale premies (variëren per regio en jaar)",[15,365,366],{},"De ROI verbetert met stijgende stroomprijzen en dalende batterijkosten. Belangrijk is een realistische dimensionering: een te grote batterij verlengt de terugverdientijd.",[19,368,370],{"id":369},"thuisbatterij-in-het-eendraadschema-met-planelec","Thuisbatterij in het eendraadschema met PlanElec",[15,372,373,374,377],{},"Met PlanElec kunt u de thuisbatterij correct in het ",[42,375,376],{},"eendraadschema"," documenteren. De software houdt rekening met:",[47,379,380,383,386,389],{},[50,381,382],{},"Eigen stroomkring met MCB en RCD",[50,384,385],{},"Scheidingsschakelaar en SPD",[50,387,388],{},"Correcte symbolen volgens IEC 60617",[50,390,391],{},"Validatie van de AREI-conformiteit",[393,394],"hr",{},[15,396,397],{},[42,398,399],{},"Gerelateerde artikelen:",[47,401,402,409,415],{},[50,403,404],{},[405,406,408],"a",{"href":407},"\u002Fblog\u002Farei-voorschriften-2026","AREI-voorschriften 2026: Wat is er veranderd?",[50,410,411],{},[405,412,414],{"href":413},"\u002Fblog\u002Fdedicated-stroomkringen","Dedicated stroomkringen: Welke apparaten hebben een eigen kring nodig?",[50,416,417],{},[405,418,420],{"href":419},"\u002Fblog\u002Fkabeldoorsnede-zekering","Kabeldoorsnede en zekering: De juiste combinatie",[15,422,423,426,427],{},[42,424,425],{},"Documenteer uw thuisbatterij AREI-conform met PlanElec — volledig in het eendraadschema."," ",[405,428,432],{"href":429,"rel":430},"https:\u002F\u002Fplanelec.be",[431],"nofollow","Nu starten →",{"title":434,"searchDepth":435,"depth":435,"links":436},"",2,[437,438,445,450,453,454,455,456],{"id":21,"depth":435,"text":22},{"id":31,"depth":435,"text":32,"children":439},[440,442,443,444],{"id":36,"depth":441,"text":37},3,{"id":64,"depth":441,"text":65},{"id":75,"depth":441,"text":76},{"id":86,"depth":441,"text":87},{"id":97,"depth":435,"text":98,"children":446},[447,448,449],{"id":104,"depth":441,"text":105},{"id":131,"depth":441,"text":132},{"id":156,"depth":441,"text":157},{"id":177,"depth":435,"text":178,"children":451},[452],{"id":188,"depth":441,"text":189},{"id":219,"depth":435,"text":220},{"id":252,"depth":435,"text":253},{"id":336,"depth":435,"text":337},{"id":369,"depth":435,"text":370},"guide","2026-06-02","Hoe wordt een thuisbatterij volgens de AREI-voorschriften geïnstalleerd? Deze gids legt de eisen uit voor stroomkring, scheidingsschakelaar, eendraadschema en melding bij de netbeheerder.","md","2026-06-05","nl",{},true,"\u002Fblog\u002Fhome-battery-arei.nl","6 min",12,{"title":5,"description":459},"thuisbatterij-arei","blog\u002Fhome-battery-arei.nl",[472,473,474,475,476,376,477],"thuisbatterij","batterijopslag","arei","zonnepanelen","pv","noodstroom","mExuNIqAEP_ef9l96siypyQSHna4P14TpwNosdwLWWs",[480,923,1355,1790],{"id":481,"title":482,"articleId":6,"body":483,"category":457,"date":458,"description":909,"extension":460,"lastUpdated":461,"locale":910,"meta":911,"navigation":464,"path":912,"publishDate":458,"readTime":466,"refreshInterval":467,"seo":913,"slug":914,"stem":915,"tags":916,"__hash__":922},"blog\u002Fblog\u002Fhome-battery-arei.de.md","Heimspeicher und AREI: Batteriespeicher korrekt in die Elektroinstallation integrieren",{"type":8,"value":484,"toc":887},[485,488,491,495,498,501,505,509,516,530,534,541,545,551,555,562,566,569,573,576,594,598,601,618,622,625,639,643,650,654,660,674,681,685,691,695,698,724,728,794,798,823,826,830,837,851,853,858,878],[11,486,482],{"id":487},"heimspeicher-und-arei-batteriespeicher-korrekt-in-die-elektroinstallation-integrieren",[15,489,490],{},"Batteriespeicher werden in Belgien immer beliebter. Wer eine PV-Anlage hat, kann mit einem Heimspeicher den Eigenverbrauch maximieren und weniger Strom aus dem Netz beziehen. Doch wie sieht die korrekte Installation nach AREI aus? Dieser Guide führt Sie durch alle Anforderungen.",[19,492,494],{"id":493},"warum-ein-heimspeicher","Warum ein Heimspeicher?",[15,496,497],{},"Mit dem digitalen Zähler in Belgien lohnt sich Eigenverbrauch mehr denn je. Ein Batteriespeicher speichert überschüssigen Solarstrom tagsüber und gibt ihn abends wieder ab. Die typische Einsparung liegt bei 30-60 % des Netzbezugs, abhängig von der Batteriekapazität und dem Verbrauchsprofil.",[15,499,500],{},"Das AREI kennt für hauswirtschaftliche Batteriespeicher kein eigenes Sonderkapitel — es gelten die allgemeinen Vorschriften (Schutz gegen elektrischen Schlag, Überstromschutz, Trennung\u002FSicherheitsabschaltung). Das dedizierte Batteriekapitel 7.103 (industrielle Akkumulatorenbatterien) nimmt hauswirtschaftliche Speicher ausdrücklich aus. Ist der Speicher mit einer PV-Anlage gekoppelt, gilt für den PV-Teil Art. 7.112 (hauswirtschaftliche Niederspannung-Photovoltaikanlagen ≤ 10 kVA); der Batterieteil selbst fällt nicht darunter.",[19,502,504],{"id":503},"arei-anforderungen-für-batteriespeicher","AREI-Anforderungen für Batteriespeicher",[34,506,508],{"id":507},"eigener-stromkreis","Eigener Stromkreis",[15,510,511,512,515],{},"Der Batteriespeicher (genauer: der Wechselrichter\u002FHybrid-Inverter) benötigt einen ",[42,513,514],{},"eigenen, dedizierten Stromkreis"," im Verteilerkasten. Dieser Stromkreis darf nicht mit anderen Verbrauchern geteilt werden.",[47,517,518,524],{},[50,519,520,523],{},[42,521,522],{},"Absicherung:"," Eigener MCB (Leitungsschutzschalter), typisch 20A oder 32A je nach Wechselrichter-Leistung. Kabelquerschnitte: Absicherung 20 A → min. 2,5 mm², Absicherung 32 A → min. 6 mm²",[50,525,526,529],{},[42,527,528],{},"FI-Schutz:"," 30 mA RCD vorgeschaltet. Bei einphasigem Wechselrichter genügt Typ A. Bei dreiphasigem Wechselrichter ohne integrierte DC-Fehlerstromüberwachung (RCMU) ist Typ B erforderlich. Viele moderne Wechselrichter (Huawei, Fronius) haben eine integrierte RCMU, die Typ A ermöglicht",[34,531,533],{"id":532},"trennschalter-freischaltstelle","Trennschalter (Freischaltstelle)",[15,535,536,537,540],{},"Zwischen Batterie\u002FWechselrichter und dem Netz muss ein ",[42,538,539],{},"allpoliger Trennschalter"," installiert sein. Dieser ermöglicht es, die Batterie-Anlage vollständig vom Netz zu trennen — wichtig für Wartungsarbeiten und für die Sicherheit der Netztechniker.",[34,542,544],{"id":543},"überspannungsschutz-spd","Überspannungsschutz (SPD)",[15,546,547,548,550],{},"Ein ",[42,549,544],{}," wird am AC-Anschluss empfohlen. Art. 4.5.1 formuliert den Grundsatz, dass Personen und Güter vor Überspannungen geschützt werden müssen, schreibt aber keinen bestimmten SPD-Typ vor. Auf der DC-Seite ist ein SPD ebenfalls ratsam, besonders bei Außenverkabelung.",[34,552,554],{"id":553},"belüftung-bei-lithium-akkus","Belüftung bei Lithium-Akkus",[15,556,557,558,561],{},"Lithium-Ionen-Batterien (wie sie in allen gängigen Heimspeichern verbaut sind) erfordern eine ",[42,559,560],{},"ausreichende Belüftung"," des Installationsraums. Der Raum darf keine übermäßige Hitze entwickeln (empfohlen: max. 35°C). Bei größeren Systemen kann eine aktive Belüftung notwendig sein.",[19,563,565],{"id":564},"integration-im-eindrahtschema","Integration im Eindrahtschema",[15,567,568],{},"Das Eindrahtschema muss den Batteriespeicher korrekt darstellen. Die Integration umfasst zwei Seiten:",[34,570,572],{"id":571},"dc-seite","DC-Seite",[15,574,575],{},"Die Gleichstromseite zeigt den Weg vom Batteriepaket über das Batteriemanagementsystem (BMS) zum Wechselrichter:",[47,577,578,591],{},[50,579,580,116,583,116,585,116,588],{},[42,581,582],{},"Batterie",[42,584,119],{},[42,586,587],{},"DC-Trennschalter",[42,589,590],{},"Hybrid-Inverter",[50,592,593],{},"Bei AC-gekoppelten Systemen: Batterie → eigener Batterie-Wechselrichter → AC-Anschluss",[34,595,597],{"id":596},"ac-seite","AC-Seite",[15,599,600],{},"Die Wechselstromseite zeigt die Einbindung ins Hausnetz:",[47,602,603,615],{},[50,604,605,116,607,116,610,116,612],{},[42,606,590],{},[42,608,609],{},"AC-Trennschalter",[42,611,147],{},[42,613,614],{},"Verteilerkasten",[50,616,617],{},"Der Anschluss erfolgt typischerweise nach dem Hauptschalter, aber vor den einzelnen Stromkreis-RCDs",[34,619,621],{"id":620},"darstellung-im-schema","Darstellung im Schema",[15,623,624],{},"Im Eindrahtschema erscheint der Batteriespeicher als eigener Abzweig, ähnlich wie die PV-Anlage. Die Symbole umfassen:",[47,626,627,630,633,636],{},[50,628,629],{},"Batterie-Symbol (nach IEC 60617)",[50,631,632],{},"Wechselrichter-Symbol",[50,634,635],{},"Trennschalter",[50,637,638],{},"Zugehöriger MCB und RCD",[19,640,642],{"id":641},"notstrombackup-funktion","Notstrom\u002FBackup-Funktion",[15,644,645,646,649],{},"Viele moderne Heimspeicher bieten eine ",[42,647,648],{},"Notstrom-Funktion"," (Backup). Wenn das Netz ausfällt, versorgt die Batterie ausgewählte Stromkreise weiter.",[34,651,653],{"id":652},"umschalteinrichtung","Umschalteinrichtung",[15,655,656,657,659],{},"Wenn eine Backup-Funktion gewünscht ist, muss eine ",[42,658,653],{}," installiert werden:",[47,661,662,668],{},[50,663,664,667],{},[42,665,666],{},"Automatische Umschaltung (ATS):"," Der Wechselrichter schaltet automatisch auf Inselbetrieb um. Die meisten Hybrid-Inverter haben dies integriert.",[50,669,670,673],{},[42,671,672],{},"Manuelle Umschaltung:"," Ein Umschalter erlaubt die manuelle Trennung vom Netz und den Betrieb im Inselmodus.",[15,675,676,677,680],{},"Die Umschalteinrichtung muss im Eindrahtschema dargestellt und ",[42,678,679],{},"allpolig trennend"," sein, damit kein Strom ins ausgefallene Netz zurückgespeist wird (Gefahr für Netztechniker).",[34,682,684],{"id":683},"warnschilder","Warnschilder",[15,686,687,688,690],{},"Am Verteilerkasten und am Hauptschalter müssen deutliche ",[42,689,684],{}," angebracht werden, die darauf hinweisen, dass die Anlage auch bei abgeschaltetem Netz unter Spannung stehen kann (Inselbetrieb). So werden Netztechniker geschützt und eine versehentliche Rückspeisung vermieden. (Für den PV-Teil einer gekoppelten Anlage schreibt Art. 7.112 vergleichbare Warnhinweise wie \"Nicht unter Last ausschalten\" und \"Elektrische Anlage steht immer unter Spannung\" vor.)",[19,692,694],{"id":693},"anmeldung-beim-netzbetreiber","Anmeldung beim Netzbetreiber",[15,696,697],{},"Die Installation eines Batteriespeichers muss beim Netzbetreiber (Fluvius in Flandern, ORES\u002FRESA in Wallonien, Sibelga in Brüssel) gemeldet werden:",[47,699,700,706,712,718],{},[50,701,702,705],{},[42,703,704],{},"Bei bestehender PV-Anlage:"," Änderungsmeldung — die Anlage wird als PV + Batterie registriert",[50,707,708,711],{},[42,709,710],{},"Technische Daten:"," Kapazität (kWh), Wechselrichter-Leistung (kW), AC- oder DC-Kopplung",[50,713,714,717],{},[42,715,716],{},"Neues Eindrahtschema:"," Ein aktualisiertes Schema muss eingereicht werden",[50,719,720,723],{},[42,721,722],{},"Anpassung der Elektrokontrolle:"," Bei wesentlichen Änderungen kann eine neue Keuring erforderlich sein",[19,725,727],{"id":726},"beliebte-systeme-in-belgien","Beliebte Systeme in Belgien",[255,729,730,749],{},[258,731,732],{},[261,733,734,737,740,743,746],{},[264,735,736],{},"System",[264,738,739],{},"Kapazität",[264,741,742],{},"Leistung",[264,744,745],{},"Kopplung",[264,747,748],{},"Besonderheit",[280,750,751,765,779],{},[261,752,753,755,757,759,762],{},[285,754,287],{},[285,756,290],{},[285,758,293],{},[285,760,761],{},"DC (mit Huawei SUN2000)",[285,763,764],{},"Modular erweiterbar",[261,766,767,769,771,773,776],{},[285,768,304],{},[285,770,307],{},[285,772,310],{},[285,774,775],{},"AC oder DC",[285,777,778],{},"Integrierter Wechselrichter",[261,780,781,783,785,788,791],{},[285,782,321],{},[285,784,324],{},[285,786,787],{},"abhängig vom WR",[285,789,790],{},"DC (mit SMA\u002FFronius)",[285,792,793],{},"Flexibel, bewährt",[19,795,797],{"id":796},"kosten-und-wirtschaftlichkeit","Kosten und Wirtschaftlichkeit",[47,799,800,806,812,817],{},[50,801,802,805],{},[42,803,804],{},"Investition:"," €4.000-8.000 für ein System mit 5-10 kWh Kapazität (inkl. Installation)",[50,807,808,811],{},[42,809,810],{},"Einsparung:"," €300-600 pro Jahr, abhängig vom Eigenverbrauchsanteil",[50,813,814,816],{},[42,815,356],{}," 8-15 Jahre — lohnt sich vor allem bei hohem Tagesverbrauch und großer PV-Anlage",[50,818,819,822],{},[42,820,821],{},"Fördermittel:"," Prüfen Sie regionale Prämien (variieren je nach Region und Jahr)",[15,824,825],{},"Der ROI verbessert sich mit steigenden Strompreisen und sinkenden Batteriekosten. Wichtig ist eine realistische Dimensionierung: Ein zu großer Speicher verlängert die Amortisation.",[19,827,829],{"id":828},"batteriespeicher-im-eindrahtschema-mit-planelec","Batteriespeicher im Eindrahtschema mit PlanElec",[15,831,832,833,836],{},"Mit PlanElec können Sie den Batteriespeicher korrekt im ",[42,834,835],{},"Eindrahtschema"," dokumentieren. Die Software berücksichtigt:",[47,838,839,842,845,848],{},[50,840,841],{},"Eigenen Stromkreis mit MCB und RCD",[50,843,844],{},"Trennschalter und SPD",[50,846,847],{},"Korrekte Symbole nach IEC 60617",[50,849,850],{},"Validierung der AREI-Konformität",[393,852],{},[15,854,855],{},[42,856,857],{},"Verwandte Artikel:",[47,859,860,866,872],{},[50,861,862],{},[405,863,865],{"href":864},"\u002Fde\u002Fblog\u002Farei-vorschriften-2026","AREI-Vorschriften 2026: Was hat sich geändert?",[50,867,868],{},[405,869,871],{"href":870},"\u002Fde\u002Fblog\u002Fdedizierte-stromkreise","Dedizierte Stromkreise: Welche Geräte brauchen einen eigenen Kreis?",[50,873,874],{},[405,875,877],{"href":876},"\u002Fde\u002Fblog\u002Fkabelquerschnitt-sicherung","Kabelquerschnitt und Sicherung: Die richtige Kombination",[15,879,880,426,883],{},[42,881,882],{},"Dokumentieren Sie Ihren Batteriespeicher AREI-konform mit PlanElec — vollständig im Eindrahtschema.",[405,884,886],{"href":429,"rel":885},[431],"Jetzt starten →",{"title":434,"searchDepth":435,"depth":435,"links":888},[889,890,896,901,905,906,907,908],{"id":493,"depth":435,"text":494},{"id":503,"depth":435,"text":504,"children":891},[892,893,894,895],{"id":507,"depth":441,"text":508},{"id":532,"depth":441,"text":533},{"id":543,"depth":441,"text":544},{"id":553,"depth":441,"text":554},{"id":564,"depth":435,"text":565,"children":897},[898,899,900],{"id":571,"depth":441,"text":572},{"id":596,"depth":441,"text":597},{"id":620,"depth":441,"text":621},{"id":641,"depth":435,"text":642,"children":902},[903,904],{"id":652,"depth":441,"text":653},{"id":683,"depth":441,"text":684},{"id":693,"depth":435,"text":694},{"id":726,"depth":435,"text":727},{"id":796,"depth":435,"text":797},{"id":828,"depth":435,"text":829},"Wie wird ein Batteriespeicher nach AREI-Vorschriften installiert? Dieser Guide erklärt die Anforderungen an Stromkreis, Trennschalter, Eindrahtschema und Anmeldung beim Netzbetreiber.","de",{},"\u002Fblog\u002Fhome-battery-arei.de",{"title":482,"description":909},"heimspeicher-arei","blog\u002Fhome-battery-arei.de",[917,918,474,919,476,920,921],"batteriespeicher","heimspeicher","photovoltaik","eindrahtschema","notstrom","TwdHq5sbV-DTlsS1dYW5P2VdxYtfWPb5mHOHvu5iuhM",{"id":924,"title":925,"articleId":6,"body":926,"category":457,"date":458,"description":1342,"extension":460,"lastUpdated":461,"locale":1343,"meta":1344,"navigation":464,"path":1345,"publishDate":458,"readTime":466,"refreshInterval":467,"seo":1346,"slug":6,"stem":1347,"tags":1348,"__hash__":1354},"blog\u002Fblog\u002Fhome-battery-arei.en.md","Home Battery and AREI: Correctly Integrating Battery Storage into Your Electrical Installation",{"type":8,"value":927,"toc":1321},[928,931,934,938,941,944,948,952,959,973,977,984,988,995,999,1006,1010,1013,1017,1020,1038,1042,1045,1062,1066,1069,1083,1087,1094,1098,1105,1119,1126,1130,1133,1159,1163,1228,1232,1257,1260,1264,1271,1285,1287,1292,1312],[11,929,925],{"id":930},"home-battery-and-arei-correctly-integrating-battery-storage-into-your-electrical-installation",[15,932,933],{},"Home battery systems are becoming increasingly popular in Belgium. If you have a PV installation, a home battery lets you maximise self-consumption and reduce your reliance on grid electricity. But what does a correct installation look like according to AREI regulations? This guide walks you through all the requirements.",[19,935,937],{"id":936},"why-a-home-battery","Why a Home Battery?",[15,939,940],{},"With the digital meter in Belgium, self-consumption is more worthwhile than ever. A home battery stores excess solar power during the day and releases it in the evening. Typical savings range from 30-60% of grid consumption, depending on battery capacity and consumption profile.",[15,942,943],{},"The AREI has no dedicated chapter for domestic home battery storage — the general rules apply (protection against electric shock, overcurrent protection, isolation\u002Fsafety disconnection). The dedicated battery chapter 7.103 (industrial accumulator batteries) explicitly excludes domestic installations. Where the battery is coupled with a PV installation, Art. 7.112 (domestic low-voltage photovoltaic installations ≤ 10 kVA) applies to the PV part; the battery itself does not fall under it.",[19,945,947],{"id":946},"arei-requirements-for-home-batteries","AREI Requirements for Home Batteries",[34,949,951],{"id":950},"dedicated-circuit","Dedicated Circuit",[15,953,954,955,958],{},"The home battery (specifically the inverter\u002Fhybrid inverter) requires its own ",[42,956,957],{},"dedicated circuit"," in the distribution board. This circuit must not be shared with other consumers.",[47,960,961,967],{},[50,962,963,966],{},[42,964,965],{},"Protection:"," Dedicated MCB (circuit breaker), typically 20A or 32A depending on inverter power. Cable cross-sections: 20 A breaker → min. 2.5 mm², 32 A breaker → min. 6 mm²",[50,968,969,972],{},[42,970,971],{},"RCD Protection:"," 30 mA RCD upstream. For single-phase inverters, Type A is sufficient. For three-phase inverters without integrated DC residual current monitoring (RCMU), Type B is required. Many modern inverters (Huawei, Fronius) have an integrated RCMU that allows Type A",[34,974,976],{"id":975},"disconnect-switch-isolation-point","Disconnect Switch (Isolation Point)",[15,978,979,980,983],{},"Between the battery\u002Finverter and the grid, an ",[42,981,982],{},"all-pole disconnect switch"," must be installed. This allows the battery system to be completely isolated from the grid — essential for maintenance work and for the safety of grid technicians.",[34,985,987],{"id":986},"surge-protection-spd","Surge Protection (SPD)",[15,989,990,991,994],{},"A ",[42,992,993],{},"surge protection device (SPD)"," is recommended at the AC connection. Art. 4.5.1 establishes the general principle that persons and property must be protected against overvoltages, but does not mandate a specific SPD type. On the DC side, an SPD is also advisable, especially for outdoor cabling.",[34,996,998],{"id":997},"ventilation-for-lithium-batteries","Ventilation for Lithium Batteries",[15,1000,1001,1002,1005],{},"Lithium-ion batteries (as used in all common home battery systems) require ",[42,1003,1004],{},"adequate ventilation"," of the installation room. The room must not develop excessive heat (recommended: max. 35°C). For larger systems, active ventilation may be necessary.",[19,1007,1009],{"id":1008},"integration-in-the-single-line-diagram","Integration in the Single-Line Diagram",[15,1011,1012],{},"The single-line diagram must correctly represent the home battery. The integration covers two sides:",[34,1014,1016],{"id":1015},"dc-side","DC Side",[15,1018,1019],{},"The direct current side shows the path from the battery pack through the battery management system (BMS) to the inverter:",[47,1021,1022,1035],{},[50,1023,1024,116,1027,116,1029,116,1032],{},[42,1025,1026],{},"Battery",[42,1028,119],{},[42,1030,1031],{},"DC disconnect switch",[42,1033,1034],{},"Hybrid inverter",[50,1036,1037],{},"For AC-coupled systems: Battery → dedicated battery inverter → AC connection",[34,1039,1041],{"id":1040},"ac-side","AC Side",[15,1043,1044],{},"The alternating current side shows the integration into the household network:",[47,1046,1047,1059],{},[50,1048,1049,116,1051,116,1054,116,1056],{},[42,1050,1034],{},[42,1052,1053],{},"AC disconnect switch",[42,1055,147],{},[42,1057,1058],{},"Distribution board",[50,1060,1061],{},"The connection is typically made after the main switch but before the individual circuit RCDs",[34,1063,1065],{"id":1064},"representation-in-the-diagram","Representation in the Diagram",[15,1067,1068],{},"In the single-line diagram, the home battery appears as its own branch, similar to the PV installation. The symbols include:",[47,1070,1071,1074,1077,1080],{},[50,1072,1073],{},"Battery symbol (per IEC 60617)",[50,1075,1076],{},"Inverter symbol",[50,1078,1079],{},"Disconnect switch",[50,1081,1082],{},"Associated MCB and RCD",[19,1084,1086],{"id":1085},"backup-emergency-power-function","Backup \u002F Emergency Power Function",[15,1088,1089,1090,1093],{},"Many modern home batteries offer a ",[42,1091,1092],{},"backup function",". When the grid fails, the battery continues to supply selected circuits.",[34,1095,1097],{"id":1096},"transfer-switch","Transfer Switch",[15,1099,1100,1101,1104],{},"If a backup function is desired, a ",[42,1102,1103],{},"transfer switch"," must be installed:",[47,1106,1107,1113],{},[50,1108,1109,1112],{},[42,1110,1111],{},"Automatic Transfer Switch (ATS):"," The inverter automatically switches to island mode. Most hybrid inverters have this built in.",[50,1114,1115,1118],{},[42,1116,1117],{},"Manual Transfer Switch:"," A changeover switch allows manual disconnection from the grid and operation in island mode.",[15,1120,1121,1122,1125],{},"The transfer switch must be shown in the single-line diagram and must be ",[42,1123,1124],{},"all-pole isolating",", so that no power is fed back into the failed grid (danger for grid technicians).",[19,1127,1129],{"id":1128},"registration-with-the-grid-operator","Registration with the Grid Operator",[15,1131,1132],{},"The installation of a home battery must be reported to the grid operator (Fluvius in Flanders, ORES\u002FRESA in Wallonia):",[47,1134,1135,1141,1147,1153],{},[50,1136,1137,1140],{},[42,1138,1139],{},"With existing PV installation:"," Modification notification — the installation is registered as PV + battery",[50,1142,1143,1146],{},[42,1144,1145],{},"Technical data:"," Capacity (kWh), inverter power (kW), AC or DC coupling",[50,1148,1149,1152],{},[42,1150,1151],{},"New single-line diagram:"," An updated diagram must be submitted",[50,1154,1155,1158],{},[42,1156,1157],{},"Electrical inspection update:"," For substantial changes, a new inspection (keuring) may be required",[19,1160,1162],{"id":1161},"popular-systems-in-belgium","Popular Systems in Belgium",[255,1164,1165,1183],{},[258,1166,1167],{},[261,1168,1169,1171,1174,1177,1180],{},[264,1170,736],{},[264,1172,1173],{},"Capacity",[264,1175,1176],{},"Power",[264,1178,1179],{},"Coupling",[264,1181,1182],{},"Feature",[280,1184,1185,1199,1213],{},[261,1186,1187,1189,1191,1193,1196],{},[285,1188,287],{},[285,1190,290],{},[285,1192,293],{},[285,1194,1195],{},"DC (with Huawei SUN2000)",[285,1197,1198],{},"Modularly expandable",[261,1200,1201,1203,1205,1207,1210],{},[285,1202,304],{},[285,1204,307],{},[285,1206,310],{},[285,1208,1209],{},"AC or DC",[285,1211,1212],{},"Integrated inverter",[261,1214,1215,1217,1219,1222,1225],{},[285,1216,321],{},[285,1218,324],{},[285,1220,1221],{},"depends on inverter",[285,1223,1224],{},"DC (with SMA\u002FFronius)",[285,1226,1227],{},"Flexible, proven",[19,1229,1231],{"id":1230},"costs-and-return-on-investment","Costs and Return on Investment",[47,1233,1234,1240,1246,1251],{},[50,1235,1236,1239],{},[42,1237,1238],{},"Investment:"," EUR 4,000-8,000 for a 5-10 kWh system (including installation)",[50,1241,1242,1245],{},[42,1243,1244],{},"Savings:"," EUR 300-600 per year, depending on self-consumption ratio",[50,1247,1248,1250],{},[42,1249,356],{}," 8-15 years — most worthwhile with high daytime consumption and a large PV installation",[50,1252,1253,1256],{},[42,1254,1255],{},"Subsidies:"," Check regional premiums (vary by region and year)",[15,1258,1259],{},"ROI improves with rising electricity prices and falling battery costs. Realistic sizing is important: an oversized battery extends the payback period.",[19,1261,1263],{"id":1262},"home-battery-in-the-single-line-diagram-with-planelec","Home Battery in the Single-Line Diagram with PlanElec",[15,1265,1266,1267,1270],{},"With PlanElec, you can correctly document the home battery in the ",[42,1268,1269],{},"single-line diagram",". The software accounts for:",[47,1272,1273,1276,1279,1282],{},[50,1274,1275],{},"Dedicated circuit with MCB and RCD",[50,1277,1278],{},"Disconnect switch and SPD",[50,1280,1281],{},"Correct symbols per IEC 60617",[50,1283,1284],{},"AREI compliance validation",[393,1286],{},[15,1288,1289],{},[42,1290,1291],{},"Related articles:",[47,1293,1294,1300,1306],{},[50,1295,1296],{},[405,1297,1299],{"href":1298},"\u002Fen\u002Fblog\u002Farei-regulations-2026","AREI Regulations 2026: What Has Changed?",[50,1301,1302],{},[405,1303,1305],{"href":1304},"\u002Fen\u002Fblog\u002Fdedicated-circuits-appliances","Dedicated Circuits: Which Appliances Need Their Own Circuit?",[50,1307,1308],{},[405,1309,1311],{"href":1310},"\u002Fen\u002Fblog\u002Fcable-cross-section-breaker","Cable Cross-Section and Breaker: The Right Combination",[15,1313,1314,426,1317],{},[42,1315,1316],{},"Document your home battery in full AREI compliance with PlanElec — complete in the single-line diagram.",[405,1318,1320],{"href":429,"rel":1319},[431],"Get started →",{"title":434,"searchDepth":435,"depth":435,"links":1322},[1323,1324,1330,1335,1338,1339,1340,1341],{"id":936,"depth":435,"text":937},{"id":946,"depth":435,"text":947,"children":1325},[1326,1327,1328,1329],{"id":950,"depth":441,"text":951},{"id":975,"depth":441,"text":976},{"id":986,"depth":441,"text":987},{"id":997,"depth":441,"text":998},{"id":1008,"depth":435,"text":1009,"children":1331},[1332,1333,1334],{"id":1015,"depth":441,"text":1016},{"id":1040,"depth":441,"text":1041},{"id":1064,"depth":441,"text":1065},{"id":1085,"depth":435,"text":1086,"children":1336},[1337],{"id":1096,"depth":441,"text":1097},{"id":1128,"depth":435,"text":1129},{"id":1161,"depth":435,"text":1162},{"id":1230,"depth":435,"text":1231},{"id":1262,"depth":435,"text":1263},"How is a home battery installed according to AREI regulations? This guide explains the requirements for dedicated circuits, disconnect switches, single-line diagrams and grid operator registration.","en",{},"\u002Fblog\u002Fhome-battery-arei.en",{"title":925,"description":1342},"blog\u002Fhome-battery-arei.en",[1349,1350,474,1351,476,1352,1353],"home-battery","energy-storage","photovoltaic","single-line-diagram","backup-power","VcFHsgerfCESbtGiiFcKTKnqVWBQ_G3pRzb2AJgTApQ",{"id":1356,"title":1357,"articleId":6,"body":1358,"category":457,"date":458,"description":1775,"extension":460,"lastUpdated":461,"locale":1776,"meta":1777,"navigation":464,"path":1778,"publishDate":458,"readTime":466,"refreshInterval":467,"seo":1779,"slug":1780,"stem":1781,"tags":1782,"__hash__":1789},"blog\u002Fblog\u002Fhome-battery-arei.fr.md","Batterie domestique et RGIE : Intégrer correctement un stockage batterie dans l'installation électrique",{"type":8,"value":1359,"toc":1754},[1360,1363,1366,1370,1373,1376,1380,1384,1391,1405,1409,1416,1420,1427,1431,1438,1442,1445,1449,1452,1469,1473,1476,1493,1497,1500,1514,1518,1525,1529,1536,1550,1557,1561,1564,1590,1594,1660,1664,1690,1693,1697,1704,1718,1720,1725,1745],[11,1361,1357],{"id":1362},"batterie-domestique-et-rgie-intégrer-correctement-un-stockage-batterie-dans-linstallation-électrique",[15,1364,1365],{},"Les batteries domestiques sont de plus en plus populaires en Belgique. Avec une installation PV, un stockage batterie permet de maximiser l'autoconsommation et de réduire la consommation depuis le réseau. Mais comment réaliser une installation conforme au RGIE ? Ce guide vous accompagne à travers toutes les exigences.",[19,1367,1369],{"id":1368},"pourquoi-une-batterie-domestique","Pourquoi une batterie domestique ?",[15,1371,1372],{},"Avec le compteur numérique en Belgique, l'autoconsommation est plus rentable que jamais. Une batterie domestique stocke l'excédent de production solaire pendant la journée et le restitue le soir. L'économie typique se situe entre 30 et 60 % de la consommation réseau, selon la capacité de la batterie et le profil de consommation.",[15,1374,1375],{},"Le RGIE ne comporte pas de chapitre propre pour le stockage par batterie domestique — ce sont les règles générales qui s'appliquent (protection contre les chocs électriques, protection contre les surintensités, séparation\u002Fcoupure de sécurité). Le chapitre dédié aux batteries 7.103 (batteries d'accumulateurs industrielles) exclut explicitement les installations domestiques. Lorsque la batterie est couplée à une installation PV, l'Art. 7.112 (installations photovoltaïques domestiques à basse tension ≤ 10 kVA) s'applique à la partie PV ; la batterie elle-même n'en relève pas.",[19,1377,1379],{"id":1378},"exigences-rgie-pour-les-batteries-domestiques","Exigences RGIE pour les batteries domestiques",[34,1381,1383],{"id":1382},"circuit-dédié","Circuit dédié",[15,1385,1386,1387,1390],{},"La batterie domestique (plus précisément l'onduleur\u002Fonduleur hybride) nécessite un ",[42,1388,1389],{},"circuit propre et dédié"," dans le tableau de distribution. Ce circuit ne peut pas être partagé avec d'autres consommateurs.",[47,1392,1393,1399],{},[50,1394,1395,1398],{},[42,1396,1397],{},"Protection :"," MCB propre (disjoncteur), typiquement 20A ou 32A selon la puissance de l'onduleur. Sections de câble : protection 20 A → min. 2,5 mm², protection 32 A → min. 6 mm²",[50,1400,1401,1404],{},[42,1402,1403],{},"Différentiel :"," RCD 30 mA en amont. Pour un onduleur monophasé, le Type A suffit. Pour un onduleur triphasé sans surveillance intégrée des courants de défaut DC (RCMU), le Type B est requis. De nombreux onduleurs modernes (Huawei, Fronius) disposent d'un RCMU intégré qui permet l'utilisation du Type A",[34,1406,1408],{"id":1407},"interrupteur-de-séparation-point-de-coupure","Interrupteur de séparation (point de coupure)",[15,1410,1411,1412,1415],{},"Entre la batterie\u002Fl'onduleur et le réseau, un ",[42,1413,1414],{},"interrupteur de séparation omnipolaire"," doit être installé. Il permet de séparer complètement l'installation batterie du réseau — important pour les travaux de maintenance et la sécurité des techniciens réseau.",[34,1417,1419],{"id":1418},"protection-contre-les-surtensions-spd","Protection contre les surtensions (SPD)",[15,1421,1422,1423,1426],{},"Un ",[42,1424,1425],{},"parafoudre (SPD)"," est recommandé côté AC. L'Art. 4.5.1 formule le principe général que les personnes et les biens doivent être protégés contre les surtensions, mais ne prescrit pas de type SPD spécifique. Côté DC, un SPD est également conseillé, surtout en cas de câblage extérieur.",[34,1428,1430],{"id":1429},"ventilation-pour-batteries-lithium","Ventilation pour batteries lithium",[15,1432,1433,1434,1437],{},"Les batteries lithium-ion (utilisées dans toutes les batteries domestiques courantes) exigent une ",[42,1435,1436],{},"ventilation suffisante"," de la pièce d'installation. La pièce ne doit pas développer de chaleur excessive (recommandé : max. 35°C). Pour les systèmes plus grands, une ventilation active peut être nécessaire.",[19,1439,1441],{"id":1440},"intégration-dans-le-schéma-unifilaire","Intégration dans le schéma unifilaire",[15,1443,1444],{},"Le schéma unifilaire doit représenter correctement la batterie domestique. L'intégration comprend deux côtés :",[34,1446,1448],{"id":1447},"côté-dc","Côté DC",[15,1450,1451],{},"Le côté courant continu montre le trajet du pack batterie via le système de gestion de batterie (BMS) jusqu'à l'onduleur :",[47,1453,1454,1466],{},[50,1455,1456,116,1458,116,1460,116,1463],{},[42,1457,582],{},[42,1459,119],{},[42,1461,1462],{},"Interrupteur-sectionneur DC",[42,1464,1465],{},"Onduleur hybride",[50,1467,1468],{},"Pour les systèmes couplés AC : Batterie → onduleur batterie dédié → raccordement AC",[34,1470,1472],{"id":1471},"côté-ac","Côté AC",[15,1474,1475],{},"Le côté courant alternatif montre l'intégration dans le réseau domestique :",[47,1477,1478,1490],{},[50,1479,1480,116,1482,116,1485,116,1487],{},[42,1481,1465],{},[42,1483,1484],{},"Interrupteur de séparation AC",[42,1486,147],{},[42,1488,1489],{},"Tableau de distribution",[50,1491,1492],{},"Le raccordement se fait typiquement après l'interrupteur principal, mais avant les RCD individuels des circuits",[34,1494,1496],{"id":1495},"représentation-dans-le-schéma","Représentation dans le schéma",[15,1498,1499],{},"Dans le schéma unifilaire, la batterie domestique apparaît comme un départ propre, similaire à l'installation PV. Les symboles comprennent :",[47,1501,1502,1505,1508,1511],{},[50,1503,1504],{},"Symbole de batterie (selon IEC 60617)",[50,1506,1507],{},"Symbole d'onduleur",[50,1509,1510],{},"Interrupteur de séparation",[50,1512,1513],{},"MCB et RCD associés",[19,1515,1517],{"id":1516},"fonction-de-secours-backup","Fonction de secours \u002F Backup",[15,1519,1520,1521,1524],{},"De nombreuses batteries domestiques modernes offrent une ",[42,1522,1523],{},"fonction de secours"," (backup). En cas de coupure du réseau, la batterie continue d'alimenter des circuits sélectionnés.",[34,1526,1528],{"id":1527},"dispositif-de-commutation","Dispositif de commutation",[15,1530,1531,1532,1535],{},"Si une fonction backup est souhaitée, un ",[42,1533,1534],{},"dispositif de commutation"," doit être installé :",[47,1537,1538,1544],{},[50,1539,1540,1543],{},[42,1541,1542],{},"Commutation automatique (ATS) :"," L'onduleur bascule automatiquement en mode îlot. La plupart des onduleurs hybrides ont cette fonction intégrée.",[50,1545,1546,1549],{},[42,1547,1548],{},"Commutation manuelle :"," Un commutateur permet la séparation manuelle du réseau et le fonctionnement en mode îlot.",[15,1551,1552,1553,1556],{},"Le dispositif de commutation doit être représenté dans le schéma unifilaire et être ",[42,1554,1555],{},"omnipolaire",", afin qu'aucun courant ne soit réinjecté dans le réseau en panne (danger pour les techniciens réseau).",[19,1558,1560],{"id":1559},"déclaration-au-gestionnaire-de-réseau","Déclaration au gestionnaire de réseau",[15,1562,1563],{},"L'installation d'une batterie domestique doit être déclarée au gestionnaire de réseau (Fluvius en Flandre, ORES\u002FRESA en Wallonie, Sibelga à Bruxelles) :",[47,1565,1566,1572,1578,1584],{},[50,1567,1568,1571],{},[42,1569,1570],{},"Avec installation PV existante :"," Déclaration de modification — l'installation est enregistrée comme PV + batterie",[50,1573,1574,1577],{},[42,1575,1576],{},"Données techniques :"," Capacité (kWh), puissance onduleur (kW), couplage AC ou DC",[50,1579,1580,1583],{},[42,1581,1582],{},"Nouveau schéma unifilaire :"," Un schéma mis à jour doit être soumis",[50,1585,1586,1589],{},[42,1587,1588],{},"Adaptation du contrôle électrique :"," En cas de modifications substantielles, un nouveau contrôle peut être nécessaire",[19,1591,1593],{"id":1592},"systèmes-populaires-en-belgique","Systèmes populaires en Belgique",[255,1595,1596,1615],{},[258,1597,1598],{},[261,1599,1600,1603,1606,1609,1612],{},[264,1601,1602],{},"Système",[264,1604,1605],{},"Capacité",[264,1607,1608],{},"Puissance",[264,1610,1611],{},"Couplage",[264,1613,1614],{},"Particularité",[280,1616,1617,1631,1645],{},[261,1618,1619,1621,1623,1625,1628],{},[285,1620,287],{},[285,1622,290],{},[285,1624,293],{},[285,1626,1627],{},"DC (avec Huawei SUN2000)",[285,1629,1630],{},"Extensible par modules",[261,1632,1633,1635,1637,1639,1642],{},[285,1634,304],{},[285,1636,307],{},[285,1638,310],{},[285,1640,1641],{},"AC ou DC",[285,1643,1644],{},"Onduleur intégré",[261,1646,1647,1649,1651,1654,1657],{},[285,1648,321],{},[285,1650,324],{},[285,1652,1653],{},"selon onduleur",[285,1655,1656],{},"DC (avec SMA\u002FFronius)",[285,1658,1659],{},"Flexible, éprouvé",[19,1661,1663],{"id":1662},"coûts-et-rentabilité","Coûts et rentabilité",[47,1665,1666,1672,1678,1684],{},[50,1667,1668,1671],{},[42,1669,1670],{},"Investissement :"," 4 000-8 000 € pour un système de 5-10 kWh de capacité (installation comprise)",[50,1673,1674,1677],{},[42,1675,1676],{},"Économie :"," 300-600 € par an, selon la part d'autoconsommation",[50,1679,1680,1683],{},[42,1681,1682],{},"ROI :"," 8-15 ans — rentable surtout avec une consommation diurne élevée et une grande installation PV",[50,1685,1686,1689],{},[42,1687,1688],{},"Primes :"," Vérifiez les primes régionales (varient selon la région et l'année)",[15,1691,1692],{},"Le ROI s'améliore avec la hausse des prix de l'électricité et la baisse des coûts des batteries. Un dimensionnement réaliste est essentiel : une batterie trop grande allonge le temps de retour sur investissement.",[19,1694,1696],{"id":1695},"batterie-domestique-dans-le-schéma-unifilaire-avec-planelec","Batterie domestique dans le schéma unifilaire avec PlanElec",[15,1698,1699,1700,1703],{},"Avec PlanElec, vous pouvez documenter correctement la batterie domestique dans le ",[42,1701,1702],{},"schéma unifilaire",". Le logiciel prend en compte :",[47,1705,1706,1709,1712,1715],{},[50,1707,1708],{},"Circuit dédié avec MCB et RCD",[50,1710,1711],{},"Interrupteur de séparation et SPD",[50,1713,1714],{},"Symboles corrects selon IEC 60617",[50,1716,1717],{},"Validation de la conformité RGIE",[393,1719],{},[15,1721,1722],{},[42,1723,1724],{},"Articles connexes :",[47,1726,1727,1733,1739],{},[50,1728,1729],{},[405,1730,1732],{"href":1731},"\u002Ffr\u002Fblog\u002Freglementation-rgie-2026","Réglementation RGIE 2026 : qu'est-ce qui a changé ?",[50,1734,1735],{},[405,1736,1738],{"href":1737},"\u002Ffr\u002Fblog\u002Fcircuits-dedies","Circuits dédiés : quels appareils nécessitent leur propre circuit ?",[50,1740,1741],{},[405,1742,1744],{"href":1743},"\u002Ffr\u002Fblog\u002Fsection-cable-disjoncteur","Section de câble et disjoncteur : la bonne combinaison",[15,1746,1747,426,1750],{},[42,1748,1749],{},"Documentez votre batterie domestique conformément au RGIE avec PlanElec — intégralement dans le schéma unifilaire.",[405,1751,1753],{"href":429,"rel":1752},[431],"Commencer maintenant →",{"title":434,"searchDepth":435,"depth":435,"links":1755},[1756,1757,1763,1768,1771,1772,1773,1774],{"id":1368,"depth":435,"text":1369},{"id":1378,"depth":435,"text":1379,"children":1758},[1759,1760,1761,1762],{"id":1382,"depth":441,"text":1383},{"id":1407,"depth":441,"text":1408},{"id":1418,"depth":441,"text":1419},{"id":1429,"depth":441,"text":1430},{"id":1440,"depth":435,"text":1441,"children":1764},[1765,1766,1767],{"id":1447,"depth":441,"text":1448},{"id":1471,"depth":441,"text":1472},{"id":1495,"depth":441,"text":1496},{"id":1516,"depth":435,"text":1517,"children":1769},[1770],{"id":1527,"depth":441,"text":1528},{"id":1559,"depth":435,"text":1560},{"id":1592,"depth":435,"text":1593},{"id":1662,"depth":435,"text":1663},{"id":1695,"depth":435,"text":1696},"Comment installer une batterie domestique selon le RGIE ? Ce guide explique les exigences en matière de circuit dédié, interrupteur de séparation, schéma unifilaire et déclaration au gestionnaire de réseau.","fr",{},"\u002Fblog\u002Fhome-battery-arei.fr",{"title":1357,"description":1775},"batterie-domestique-rgie","blog\u002Fhome-battery-arei.fr",[1783,1784,1785,1786,476,1787,1788],"batterie-domestique","stockage-energie","rgie","photovoltaique","schema-unifilaire","secours","-bsm5CKFhLtjP_5OdUvcQ2kEsY0z7BBA7p1qFywF8pw",{"id":4,"title":5,"articleId":6,"body":1791,"category":457,"date":458,"description":459,"extension":460,"lastUpdated":461,"locale":462,"meta":2083,"navigation":464,"path":465,"publishDate":458,"readTime":466,"refreshInterval":467,"seo":2084,"slug":469,"stem":470,"tags":2085,"__hash__":478},{"type":8,"value":1792,"toc":2062},[1793,1795,1797,1799,1801,1803,1805,1807,1811,1821,1823,1827,1829,1833,1835,1839,1841,1843,1845,1847,1861,1863,1865,1879,1881,1883,1893,1895,1899,1901,1905,1915,1919,1921,1923,1941,1943,1997,1999,2017,2019,2021,2025,2035,2037,2041,2055],[11,1794,5],{"id":13},[15,1796,17],{},[19,1798,22],{"id":21},[15,1800,25],{},[15,1802,28],{},[19,1804,32],{"id":31},[34,1806,37],{"id":36},[15,1808,40,1809,45],{},[42,1810,44],{},[47,1812,1813,1817],{},[50,1814,1815,55],{},[42,1816,54],{},[50,1818,1819,61],{},[42,1820,60],{},[34,1822,65],{"id":64},[15,1824,68,1825,72],{},[42,1826,71],{},[34,1828,76],{"id":75},[15,1830,79,1831,83],{},[42,1832,82],{},[34,1834,87],{"id":86},[15,1836,90,1837,94],{},[42,1838,93],{},[19,1840,98],{"id":97},[15,1842,101],{},[34,1844,105],{"id":104},[15,1846,108],{},[47,1848,1849,1859],{},[50,1850,1851,116,1853,116,1855,116,1857],{},[42,1852,115],{},[42,1854,119],{},[42,1856,122],{},[42,1858,125],{},[50,1860,128],{},[34,1862,132],{"id":131},[15,1864,135],{},[47,1866,1867,1877],{},[50,1868,1869,116,1871,116,1873,116,1875],{},[42,1870,125],{},[42,1872,144],{},[42,1874,147],{},[42,1876,150],{},[50,1878,153],{},[34,1880,157],{"id":156},[15,1882,160],{},[47,1884,1885,1887,1889,1891],{},[50,1886,165],{},[50,1888,168],{},[50,1890,171],{},[50,1892,174],{},[19,1894,178],{"id":177},[15,1896,181,1897,185],{},[42,1898,184],{},[34,1900,189],{"id":188},[15,1902,192,1903,195],{},[42,1904,188],{},[47,1906,1907,1911],{},[50,1908,1909,203],{},[42,1910,202],{},[50,1912,1913,209],{},[42,1914,208],{},[15,1916,212,1917,216],{},[42,1918,215],{},[19,1920,220],{"id":219},[15,1922,223],{},[47,1924,1925,1929,1933,1937],{},[50,1926,1927,231],{},[42,1928,230],{},[50,1930,1931,237],{},[42,1932,236],{},[50,1934,1935,243],{},[42,1936,242],{},[50,1938,1939,249],{},[42,1940,248],{},[19,1942,253],{"id":252},[255,1944,1945,1959],{},[258,1946,1947],{},[261,1948,1949,1951,1953,1955,1957],{},[264,1950,266],{},[264,1952,269],{},[264,1954,272],{},[264,1956,275],{},[264,1958,278],{},[280,1960,1961,1973,1985],{},[261,1962,1963,1965,1967,1969,1971],{},[285,1964,287],{},[285,1966,290],{},[285,1968,293],{},[285,1970,296],{},[285,1972,299],{},[261,1974,1975,1977,1979,1981,1983],{},[285,1976,304],{},[285,1978,307],{},[285,1980,310],{},[285,1982,313],{},[285,1984,316],{},[261,1986,1987,1989,1991,1993,1995],{},[285,1988,321],{},[285,1990,324],{},[285,1992,327],{},[285,1994,330],{},[285,1996,333],{},[19,1998,337],{"id":336},[47,2000,2001,2005,2009,2013],{},[50,2002,2003,345],{},[42,2004,344],{},[50,2006,2007,351],{},[42,2008,350],{},[50,2010,2011,357],{},[42,2012,356],{},[50,2014,2015,363],{},[42,2016,362],{},[15,2018,366],{},[19,2020,370],{"id":369},[15,2022,373,2023,377],{},[42,2024,376],{},[47,2026,2027,2029,2031,2033],{},[50,2028,382],{},[50,2030,385],{},[50,2032,388],{},[50,2034,391],{},[393,2036],{},[15,2038,2039],{},[42,2040,399],{},[47,2042,2043,2047,2051],{},[50,2044,2045],{},[405,2046,408],{"href":407},[50,2048,2049],{},[405,2050,414],{"href":413},[50,2052,2053],{},[405,2054,420],{"href":419},[15,2056,2057,426,2059],{},[42,2058,425],{},[405,2060,432],{"href":429,"rel":2061},[431],{"title":434,"searchDepth":435,"depth":435,"links":2063},[2064,2065,2071,2076,2079,2080,2081,2082],{"id":21,"depth":435,"text":22},{"id":31,"depth":435,"text":32,"children":2066},[2067,2068,2069,2070],{"id":36,"depth":441,"text":37},{"id":64,"depth":441,"text":65},{"id":75,"depth":441,"text":76},{"id":86,"depth":441,"text":87},{"id":97,"depth":435,"text":98,"children":2072},[2073,2074,2075],{"id":104,"depth":441,"text":105},{"id":131,"depth":441,"text":132},{"id":156,"depth":441,"text":157},{"id":177,"depth":435,"text":178,"children":2077},[2078],{"id":188,"depth":441,"text":189},{"id":219,"depth":435,"text":220},{"id":252,"depth":435,"text":253},{"id":336,"depth":435,"text":337},{"id":369,"depth":435,"text":370},{},{"title":5,"description":459},[472,473,474,475,476,376,477],1780670246212]