{"id":6248,"date":"2025-09-29T12:11:20","date_gmt":"2025-09-29T12:11:20","guid":{"rendered":"https:\/\/www.portal.solar.com\/learn\/how-long-can-a-battery-provide-power-during-an-outage\/"},"modified":"2026-01-23T21:35:26","modified_gmt":"2026-01-23T21:35:26","slug":"how-long-can-a-battery-provide-power-during-an-outage","status":"publish","type":"post","link":"https:\/\/www.solar.com\/learn\/how-long-can-a-battery-provide-power-during-an-outage\/","title":{"rendered":"How Long Can Solar Battery Power a House During an Outage?"},"content":{"rendered":"<p><span style=\"font-weight: 400;\">When you install a home battery, you&#8217;re gaining a backup energy reserve in the case of an outage.<\/span><\/p>\n<p><span style=\"font-weight: 400;\"> Whether you have a solar panel system at your home or not, a home battery can be used to store electricity and deliver it to your home appliances and devices. The benefits of a home battery are clear, especially during short or long-term outages, and in areas with <a href=\"https:\/\/www.solar.com\/learn\/time-of-use-rates\/\" target=\"_blank\" rel=\"noopener\">Time-of-Use (TOU) rates<\/a>\u00a0or weak net metering policies.<\/span><\/p>\n<p>In this article, we&#8217;ll show you how to calculate how a solar and battery system can power your house during a grid outage, and give you some tips for maximizing your battery usage.<\/p>\n<p>&nbsp;<\/p>\n<gs-injectable background = 'true' border='true' primary_color = '#8b72d3' secondary_color='#f98d7e' utm_campaign = 'get_started_injectable' utm_medium='How Long Can Solar Battery Power a House' content_texts = 'true' upper_text='Get solar &amp; battery quotes from' upper_text_span = 'vetted local installers' lower_text='Get clean and quiet backup power' lower_text_span = 'for your home' get_started_text='Get started' only_community_solar='false'><\/gs-injectable>\n<p>&nbsp;<\/p>\n<h2>How long can a solar battery power a house?<\/h2>\n<p><span style=\"font-weight: 400;\">Without running AC or electric heat, a 10 kWh battery alone can power the critical electrical systems in an average house for at least 24 hours, and longer with careful budgeting. When paired with solar panels, <a href=\"https:\/\/www.solar.com\/learn\/solar-battery\/\">battery storage<\/a> can power more electrical systems and provide backup electricity for even longer.<\/span><\/p>\n<p>In fact, a <a href=\"https:\/\/emp.lbl.gov\/news\/study-provides-first-its-kind\" target=\"_blank\" rel=\"noopener\">study by the Lawrence Berkeley National Laboratory<\/a> found that when heating and cooling are excluded:<\/p>\n<p><strong>\u201c(A) small PVESS with just 10 kWh of storage (at the lower end of sizes currently observed in the market) can fully meet backup needs over a 3-day outage in virtually all U.S. counties and any month of the year.\u201d<\/strong><\/p>\n<p>PVESS stands for photovoltaics and energy storage systems.<\/p>\n<p><iframe loading=\"lazy\" title=\"How long can solar and battery power during a grid outage? #renewableenergy  #goingsolar\" width=\"563\" height=\"1000\" src=\"https:\/\/www.youtube.com\/embed\/kOA-Jrl21Mo?feature=oembed\" frameborder=\"0\" allow=\"accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture; web-share\" referrerpolicy=\"strict-origin-when-cross-origin\" allowfullscreen><\/iframe><\/p>\n<p>&nbsp;<\/p>\n<p><span style=\"font-weight: 400;\">But <em>exactly <\/em>how long you can power your home with solar battery storage varies for each home and depends on three main things:<\/span><\/p>\n<ol>\n<li><a href=\"#battery\">Your battery storage capacity<\/a><\/li>\n<li><a href=\"#solar\">The output of your solar system<\/a><\/li>\n<li><a href=\"#usage\">Your electricity needs during an outage<\/a><\/li>\n<\/ol>\n<p>We&#8217;ll show you how to budget your electricity to meet your solar and battery capacity below. First, let&#8217;s start with identifying your battery storage capacity.<\/p>\n<p>&nbsp;<\/p>\n<gs-injectable background = 'true' border='true' primary_color = '#8b72d3' secondary_color='#f98d7e' utm_campaign = 'get_started_injectable' utm_medium='How Long Can Solar Battery Power a House' content_texts = 'true' upper_text='Design a custom' upper_text_span = 'solar &amp; battery system' lower_text='To power your home when' lower_text_span = 'the grid goes down' get_started_text='Get started' only_community_solar='false'><\/gs-injectable>\n<p>&nbsp;<\/p>\n<h2><span style=\"font-weight: 400;\"><a id=\"battery\"><\/a>Home battery capacity<\/span><\/h2>\n<p><span style=\"font-weight: 400;\">Capacity refers to the amount of energy a battery can store, and it&#8217;s one of the main features that influence how long a battery can power a house during a power outage.<\/span><\/p>\n<p><span style=\"font-weight: 400;\">Battery capacity is measured in kilowatt-hours (kWh) and can vary from as little as 1 kWh to 18 kWh. Multiple batteries can be combined to add even more capacity, but a 10 kWh home battery is typical for most homes.<\/span><\/p>\n<p><strong>Related reading:\u00a0<\/strong><a href=\"https:\/\/www.solar.com\/learn\/what-size-solar-battery-do-i-need\/\">What Size Solar Battery Do I Need?<\/a><\/p>\n<p><span style=\"font-weight: 400;\">During a power outage, assuming you have a fully charged home battery, you will be able to use <em>most<\/em> of the 10 kWh of stored energy. However, depending on the <a href=\"https:\/\/www.solar.com\/learn\/types-of-solar-batteries\/\" target=\"_blank\" rel=\"noopener\">battery type<\/a>, you&#8217;ll want to leave a minimum charge of 5-10% on your battery for a couple of reasons:<\/span><\/p>\n<ol>\n<li>To maintain the health of your battery<\/li>\n<li><span style=\"font-weight: 400;\">To start your solar inverters in the morning so you can recharge your battery with solar power<\/span><\/li>\n<\/ol>\n<p>For a 10 kWh battery, you&#8217;ll want to leave at least 1 kWh of capacity in reserve at all times. That leaves you with 9 kWh of battery capacity to power your home during a grid outage.<\/p>\n<p><strong><img loading=\"lazy\" class=\"aligncenter wp-image-12488 size-full\" src=\"https:\/\/assets.solar.com\/wp-content\/uploads\/2025\/09\/how-long-can-solar-and-battery-power-a-house-during-an-outage-1-1.png\" alt=\"\" width=\"675\" height=\"675\" \/><\/strong><\/p>\n<p><strong>Related reading:\u00a0<\/strong><a href=\"https:\/\/www.solar.com\/learn\/best-solar-batteries\/\" target=\"_blank\" rel=\"noopener\">The Best Solar Batteries of 2026: Find Your Perfect Match<\/a><\/p>\n<p>&nbsp;<\/p>\n<h2><a id=\"solar\"><\/a>Solar system output<\/h2>\n<p>The beauty of pairing battery storage with solar is that you essentially create your own miniature utility to power your home. This is especially useful during prolonged power outages because, unless you have battery storage, your solar system will be turned off by the local utility to prevent the backflow of electricity from injuring workers trying to repair the grid.<\/p>\n<p>But if you have battery storage, your system can operate independently when the grid is down. This is called &#8220;islanding.&#8221;<\/p>\n<h3>How much electricity does a solar system produce?<\/h3>\n<p>Solar panel systems are measured in kilowatts (kW), which represent the amount of <a href=\"https:\/\/www.solar.com\/learn\/how-much-energy-does-a-solar-panel-produce\/\" target=\"_blank\" rel=\"noopener\">energy the system can produce<\/a> in an hour of peak sunlight. So a 5 kW solar system can produce 5 kWh of electricity <em>per hour<\/em> in ideal conditions. However, since conditions aren&#8217;t always ideal, we typically assume a performance ratio of 75%.<\/p>\n<p>The average number of peak sunlight hours per day varies from 3.5 to 5.5 in the US. Multiply the system capacity by sunlight hours and 0.75 to find the daily output of a solar system.<\/p>\n<p>For example, here&#8217;s how you would find the daily output of a 5 kW solar system getting 4.5 peak sunlight hours per day equals:<\/p>\n<p style=\"text-align: center;\"><strong>5 kW solar system x 4.5 sunlight hours per day x 0.75 performance rating = 16.875 kWh per day<\/strong><\/p>\n<p>In many cases, that&#8217;s more than enough to power essential electrical systems and recharge a 10 kW battery to use overnight. But electricity needs vary from home to home, so let&#8217;s run through some common appliances and how much energy they use.<\/p>\n<p>&nbsp;<\/p>\n<h2><span style=\"font-weight: 400;\"><a id=\"usage\"><\/a>Your electricity needs during a power outage<\/span><\/h2>\n<p>How long solar battery storage can run your home depends on how much electricity you use. And how much electricity you use depends on which appliances and systems you&#8217;re running.<\/p>\n<p><span style=\"font-weight: 400;\">During a power outage, it&#8217;s recommended to budget electricity for the most necessary things first and then make a plan for the remainder of the capacity. <\/span>For many homeowners, the list of priorities includes:<\/p>\n<ul>\n<li>Refrigerator<\/li>\n<li>Kitchen and cooking<\/li>\n<li>Water heating<\/li>\n<li>Lights<\/li>\n<li>TV and device charging<\/li>\n<\/ul>\n<p>It&#8217;s worth noting that heating and cooling take a\u00a0<em>ton\u00a0<\/em>of energy, and typically aren&#8217;t configured to be powered by critical battery backup systems. Whole home backup is possible, but it takes a large solar system with around 30 kWh of battery storage.<\/p>\n<p>Let&#8217;s run through an example scenario of powering essential systems during a 24-hour power outage to get an idea of how much solar and battery capacity you&#8217;ll need.<\/p>\n<p><strong>Use the tables below as an a la carte menu to create your own battery storage budget.<\/strong><\/p>\n<h3>Refrigerator: 1.5 kWh per day<\/h3>\n<table dir=\"ltr\" style=\"width: 62.969%; height: 76px;\" border=\"1\" cellspacing=\"0\" cellpadding=\"0\">\n<tbody>\n<tr>\n<td>Model<\/td>\n<td>Energy use<\/td>\n<\/tr>\n<tr style=\"height: 28px;\">\n<td style=\"height: 28px;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Older 15-cubic foot unit (1996)&quot;}\">Older 15-cubic foot unit (1996)<\/td>\n<td style=\"height: 28px;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;5 kWh per day&quot;}\">5 kWh per day<\/td>\n<\/tr>\n<tr style=\"height: 48px;\">\n<td style=\"height: 48px;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Newer ENERGY STAR 17-cubic foot&quot;}\">Newer ENERGY STAR 17-cubic foot unit<\/td>\n<td style=\"height: 48px;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;1.16 kWh per day&quot;}\">1.16 kWh per day<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<p>A refrigerator is among the most important things to power during an outage so that you can avoid having your food and drink go to waste.<\/p>\n<p>If you have a modern, <a href=\"https:\/\/www.energystar.gov\/sites\/default\/files\/specs\/V5.0_Spec_Framework_Document.pdf\" target=\"_blank\" rel=\"noopener noreferrer\">ENERGY STAR-approved<\/a>\u00a0model, your refrigerator is using around 1-2 kWh of electricity a day. If your fridge lived through Y2K, you might be looking at closer to 5 kWh per day.<\/p>\n<p>Refrigerator electricity usage can be minimized by opening the door less and raising the temperature slightly. If you are preparing for a planned\u00a0<a href=\"https:\/\/www.solar.com\/learn\/solar-and-battery-during-public-safety-power-shutoff-psps\/\" target=\"_blank\" rel=\"noopener\">Public Safety Power Shutoff (PSPS)<\/a>, set the temperature very low\u00a0<em>before\u00a0<\/em>the shutoff event, and then set it to a higher temperature once the grid power goes out. That way the fridge starts cold and you can devote less battery capacity to power it during the outage.<\/p>\n<p>Let&#8217;s say you have a relatively modern ENERGY STAR-certified fridge that uses 1.5 kWh per day.<\/p>\n<p><strong>Running total: 1.5 kWh<\/strong><\/p>\n<h3>Kitchen and cooking: 1 kWh per day<\/h3>\n<table dir=\"ltr\" border=\"1\" cellspacing=\"0\" cellpadding=\"0\">\n<colgroup>\n<col width=\"233\" \/>\n<col width=\"231\" \/><\/colgroup>\n<tbody>\n<tr>\n<td>Appliance<\/td>\n<td>Energy use<\/td>\n<\/tr>\n<tr>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Electric oven&quot;}\">Electric oven<\/td>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;2.3 kWh per hour&quot;}\">2.3 kWh per hour<\/td>\n<\/tr>\n<tr>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Oven: surface&quot;}\">Oven: surface<\/td>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;1 -1.5 kWh per hour&quot;}\">1 -1.5 kWh per hour<\/td>\n<\/tr>\n<tr>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Microwave oven&quot;}\">Microwave oven<\/td>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;0.12 kWh per 5 minutes&quot;}\">0.12 kWh per 5 minutes<\/td>\n<\/tr>\n<tr>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Coffee maker&quot;}\">Coffee maker<\/td>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;0.12 kWh per brew \/ 0.4 kWh per hour on warmer&quot;}\">\n<div>\n<div>0.12 kWh per brew \/ 0.4 kWh per hour on warmer<\/div>\n<\/div>\n<\/td>\n<\/tr>\n<tr>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Dishwasher (energy saver cycle)&quot;}\">Dishwasher (energy saver cycle)<\/td>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;0.5 kWh per load&quot;}\">0.5 kWh per load<\/td>\n<\/tr>\n<tr>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Toaster&quot;}\">Toaster<\/td>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;0.04 kWh per use&quot;}\">0.04 kWh per use<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<p>Even during a power outage, people gotta eat. And in a large enough outage, it may not be practical to eat out or order delivery.<\/p>\n<p>Let&#8217;s say you make a pot of coffee and toast in the morning (0.2 kWh), microwave some leftovers for lunch (.12 kWh), and bake a frozen pizza for dinner (0.75 kWh) because you&#8217;re trying to clear out the freezer. That amounts to just over 1 kWh throughout the day.<\/p>\n<p><strong>Running total: 2.5 kWh<\/strong><\/p>\n<h3>Electric water heating: 2.5 kWh a day<\/h3>\n<table dir=\"ltr\" border=\"1\" cellspacing=\"0\" cellpadding=\"0\">\n<colgroup>\n<col width=\"233\" \/>\n<col width=\"231\" \/><\/colgroup>\n<tbody>\n<tr>\n<td>Appliance<\/td>\n<td>Energy use<\/td>\n<\/tr>\n<tr>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Electric water heater&quot;}\">Electric water heater<\/td>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot; 4-5 kWh per day (running 2-3 hours)&quot;}\">4-5 kWh per day (running 2-3 hours)<\/td>\n<\/tr>\n<tr>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Heat pump water heater (50-75 gallon)&quot;}\">Heat pump water heater (50-75 gallon)<\/td>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;~2.5 kWh per day&quot;}\">~2.5 kWh per day<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<p><span style=\"font-weight: 400;\">Water heating accounts for an average of <\/span><a href=\"https:\/\/www.energy.gov\/articles\/new-infographic-and-projects-keep-your-energy-bills-out-hot-water\" target=\"_blank\" rel=\"noopener noreferrer\"><span style=\"font-weight: 400;\">18% of the total energy used in the household<\/span><\/a><span style=\"font-weight: 400;\">, or around 162 kWh per month. <em>On a normal day<\/em>, a water heater runs for around 2 to 3 hours a day, which means that it will consume roughly 4-5 kWh of electricity a day. Heat pump water heaters are more efficient and can run on around 2.5 kWh per day.<\/span><\/p>\n<p><span style=\"font-weight: 400;\">But power outages are not normal days. To save electricity, you may want to skip or shorten your shower, wash your hands and rise your dishes with cold water, and hold off on laundry for a day or two.<\/span><\/p>\n<p>And if you have a gas-powered water heater, water heating is a non-issue in terms of battery use.<\/p>\n<p>But for the sake of argument, let&#8217;s say you put on some extra deodorant and limit your water heating use to 2.5 kWh per day.<\/p>\n<p><strong>Running total: 5 kWh<\/strong><\/p>\n<h3>Lights: 1 kWh per day<\/h3>\n<table class=\"tableData responsive-table-data-mb\" style=\"width: 100%; height: 96px;\" width=\"100%\" cellspacing=\"0\" cellpadding=\"0\">\n<tbody>\n<tr>\n<td style=\"width: 52.774%;\">Bulb type<\/td>\n<td style=\"width: 21.2449%;\">Energy use<\/td>\n<\/tr>\n<tr style=\"height: 24px;\">\n<td class=\"two\" style=\"width: 52.774%; height: 24px;\" data-th=\"Estimated Energy Usage*\">CFL\/LED (8 W) equivalent to 25 W incandescent<\/td>\n<td class=\"two\" style=\"width: 21.2449%; height: 24px;\" data-th=\"Estimated Energy Costs**\">0.008 kWh per hour<\/td>\n<\/tr>\n<tr style=\"height: 24px;\">\n<td class=\"two\" style=\"width: 52.774%; height: 24px;\" data-th=\"Detail\">CFL\/LED (15 W) equivalent to 60 W incandescent<\/td>\n<td class=\"two\" style=\"width: 21.2449%; height: 24px;\" data-th=\"Estimated Energy Usage*\">0.015 kWh per hour<\/td>\n<\/tr>\n<tr style=\"height: 24px;\">\n<td class=\"two\" style=\"width: 52.774%; height: 24px;\" data-th=\"Detail\">CFL\/LED (27 W) equivalent to 100 W incandescent<\/td>\n<td class=\"two\" style=\"width: 21.2449%; height: 24px;\" data-th=\"Estimated Energy Usage*\">0.027 kWh per hour<\/td>\n<\/tr>\n<tr style=\"height: 24px;\">\n<td class=\"two\" style=\"width: 52.774%; height: 24px;\" data-th=\"Detail\">CFL\/LED (38 W) equivalent to 150 W incandescent<\/td>\n<td class=\"two\" style=\"width: 21.2449%; height: 24px;\" data-th=\"Estimated Energy Usage*\">0.038 kWh per hour<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<p><span style=\"font-size: 16px;\">Compared to larger appliances, lights require very little electricity, especially if you have compact fluorescent (CFL) or LED bulbs. Even at the high end, a 38W LED bulb or 150 W incandescent bulb uses just 0.038 kWh per hour.<\/span><\/p>\n<p>So if you budget 1 kWh of battery storage per day for lighting, you could run 26 bulbs for 1 hour each &#8212; more than enough to provide light for trips to the bathroom, closet, and getting ready for bed.<\/p>\n<p><strong>Running total: 6 kWh<\/strong><\/p>\n<h3>TV and device charging: 2 kWh<\/h3>\n<table dir=\"ltr\" style=\"width: 34.2086%; height: 168px;\" border=\"1\" cellspacing=\"0\" cellpadding=\"0\">\n<colgroup>\n<col width=\"233\" \/>\n<col width=\"231\" \/><\/colgroup>\n<tbody>\n<tr>\n<td>Device<\/td>\n<td>Energy use<\/td>\n<\/tr>\n<tr style=\"height: 24px;\">\n<td style=\"height: 24px;\">WiFi router<\/td>\n<td style=\"height: 24px;\">0.024 kWh per day<\/td>\n<\/tr>\n<tr style=\"height: 48px;\">\n<td style=\"height: 48px;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;LED\/OLED 4k (20\\&quot; to 70\\&quot;+)&quot;}\">Modern TV: LED\/OLED 4k or 1080P HDTV (20&#8243; to 70&#8243;+)<\/td>\n<td style=\"height: 48px;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;0.023 to 0.18 kWh per hour&quot;}\">0.014 to 0.18 kWh per hour<\/td>\n<\/tr>\n<tr style=\"height: 24px;\">\n<td style=\"height: 24px;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Plasma TV (40\\&quot; to 50\\&quot;+)&quot;}\">TV: Plasma (40&#8243; to 50&#8243;+)<\/td>\n<td style=\"height: 24px;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;0.4 to 0.48 kWh per hour&quot;}\">0.4 to 0.48 kWh per hour<\/td>\n<\/tr>\n<tr style=\"height: 24px;\">\n<td style=\"height: 24px;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Desktop computer&quot;}\">Desktop computer<\/td>\n<td style=\"height: 24px;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;0.06 kWh per hour&quot;}\">0.06 kWh per hour<\/td>\n<\/tr>\n<tr style=\"height: 24px;\">\n<td style=\"height: 24px;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Laptop computer&quot;}\">Laptop computer<\/td>\n<td style=\"height: 24px;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;0.02-0.05 kWh per hour&quot;}\">0.02-0.05 kWh per hour<\/td>\n<\/tr>\n<tr style=\"height: 24px;\">\n<td style=\"height: 24px;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Tablet&quot;}\">Tablet<\/td>\n<td style=\"height: 24px;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;0.032 kWh per day&quot;}\">0.032 kWh per day<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<p>Let&#8217;s be honest, one of the worst parts of power outages is going without internet and TV. Sure, you try to read a book for an hour or two, but that familiar glow is calling your name.<\/p>\n<p>To keep the WiFi on, you&#8217;ll need about 0.024 kWh. If you work from home, you can run your laptop for 8 hours for another 0.4 kWh. And if you want to wind-down with a movie or 3-hour Netflix binge, you&#8217;ll need another 0.54 kWh.<\/p>\n<p>That adds up to 1.18 kWh, but we&#8217;ll round up to 2 kWh to account for phone charging and multiple devices running at once.<\/p>\n<p><strong>Running total: 8 kWh<\/strong><\/p>\n<h3>Air Heating and Cooling: Variable<\/h3>\n<table dir=\"ltr\" style=\"width: 81.1159%; height: 96px;\" border=\"1\" cellspacing=\"0\" cellpadding=\"0\">\n<colgroup>\n<col width=\"233\" \/>\n<col width=\"231\" \/><\/colgroup>\n<tbody>\n<tr>\n<td style=\"width: 50%;\"><strong>Appliance<\/strong><\/td>\n<td style=\"width: 49.6667%;\">Energy use<\/td>\n<\/tr>\n<tr style=\"height: 24px;\">\n<td style=\"height: 24px; width: 50%;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Heating&quot;}\"><strong>Heating<\/strong><\/td>\n<td style=\"height: 24px; width: 49.6667%;\"><\/td>\n<\/tr>\n<tr style=\"height: 24px;\">\n<td style=\"height: 24px; width: 50%;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Electric furnace (with fan)&quot;}\">Electric furnace (with fan)<\/td>\n<td style=\"height: 24px; width: 49.6667%;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;10.5 kWh per hour&quot;}\">10.5 kWh per hour<\/td>\n<\/tr>\n<tr style=\"height: 24px;\">\n<td style=\"height: 24px; width: 50%;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Portable heater&quot;}\">Portable heater<\/td>\n<td style=\"height: 24px; width: 49.6667%;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;1.5 kWh per hour&quot;}\">1.5 kWh per hour<\/td>\n<\/tr>\n<tr style=\"height: 24px;\">\n<td style=\"height: 24px; width: 50%;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Baseboard heater (6-foot unit)&quot;}\">Baseboard heater (6-foot unit)<\/td>\n<td style=\"height: 24px; width: 49.6667%;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;1.5 kWh per hour&quot;}\">1.5 kWh per hour<\/td>\n<\/tr>\n<tr>\n<td style=\"width: 50%;\"><strong>Cooling<\/strong><\/td>\n<td style=\"width: 49.6667%;\"><\/td>\n<\/tr>\n<tr>\n<td style=\"width: 50%;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Window\/Wall AC (18k BTU)&quot;}\">Window\/Wall AC (8k to 18k BTU)<\/td>\n<td style=\"width: 49.6667%;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;1.8 kWh per hour&quot;}\">0.73 to 1.8 kWh per hour<\/td>\n<\/tr>\n<tr>\n<td style=\"width: 50%;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Central AC (12 SEER)&quot;}\">Central AC (3 ton &#8211; 12 SEER)<\/td>\n<td style=\"width: 49.6667%;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;3.0 kWh per hour&quot;}\">3.0 kWh per hour<\/td>\n<\/tr>\n<tr>\n<td style=\"width: 50%;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Pedestal fan&quot;}\">Pedestal fan<\/td>\n<td style=\"width: 49.6667%;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;0.03 kWh per hour&quot;}\">0.03 kWh per hour<\/td>\n<\/tr>\n<tr>\n<td style=\"width: 50%;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Ceiling fan&quot;}\">Ceiling fan<\/td>\n<td style=\"width: 49.6667%;\" data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;0.025-0.075 kWh per hour&quot;}\">0.025-0.075 kWh per hour<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<p>As you can see from the table, heating and cooling take\u00a0<em>a lot\u00a0<\/em>of electricity. So if you only had a 10 kWh battery you&#8217;d have maybe 2 kWh to budget for running fans or space heaters &#8212; which wouldn&#8217;t last very long at all.<\/p>\n<p>To power heating and cooling for a substantial period of time, you typically need two or three batteries that add up to 30-40 kWh of backup capacity.<\/p>\n<h3>Medical equipment<\/h3>\n<table dir=\"ltr\" border=\"1\" cellspacing=\"0\" cellpadding=\"0\">\n<colgroup>\n<col width=\"233\" \/>\n<col width=\"231\" \/><\/colgroup>\n<tbody>\n<tr>\n<td>Device<\/td>\n<td>Energy use<\/td>\n<\/tr>\n<tr>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Nebulizer&quot;}\">Nebulizer<\/td>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;1 kWh per hour&quot;}\">1 kWh per hour<\/td>\n<\/tr>\n<tr>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Oxygen concentrator&quot;}\">Oxygen concentrator<\/td>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;0.46 kWh per hour&quot;}\">0.46 kWh per hour<\/td>\n<\/tr>\n<tr>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;Sleep apnea machine (CPAP)&quot;}\">Sleep apnea machine (CPAP)<\/td>\n<td data-sheets-value=\"{&quot;1&quot;:2,&quot;2&quot;:&quot;0.2 kWh per hour&quot;}\">0.2 kWh per hour<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<p>Another thing to consider is powering medical equipment during a power outage. Certain equipment, like a nebulizer, requires a significant amount of electricity and could eat through 10kWh of battery very quickly.<\/p>\n<p>&nbsp;<\/p>\n<h2><span style=\"font-weight: 400;\">Is getting a solar battery worth it?<\/span><\/h2>\n<p>Weather-related <a href=\"https:\/\/www.climatecentral.org\/climate-matters\/surging-weather-related-power-outages\" target=\"_blank\" rel=\"noopener\">power outages in the US increased roughly 78%<\/a> from 2011 to 2021, and are becoming a reality for more homeowners. If you like clean, quiet, and hands-free backup energy that can power your home for several days during outages, then solar and battery are totally worth it.\u00a0 Not only can a battery keep your home powered, but it can also keep your local grid running, <a href=\"https:\/\/www.solarpowerworldonline.com\/2022\/09\/customer-sited-solar-batteries-340-mw-peak-power-one-day-california\/\" target=\"_blank\" rel=\"noopener\">as we saw in California in September 2022<\/a>.<\/p>\n<p>And, of course, there are the local and global impacts of reducing fossil fuels that pollute the air and contribute to climate change.<\/p>\n<p>&nbsp;<\/p>\n<gs-injectable background = 'true' border='true' primary_color = '#8b72d3' secondary_color='#f98d7e' utm_campaign = 'get_started_injectable' utm_medium='How Long Can Solar Battery Power a House' content_texts = 'true' upper_text='Design a custom' upper_text_span = 'solar &amp; battery system' lower_text='To power your home when' lower_text_span = 'the grid goes down' get_started_text='Get started' only_community_solar='false'><\/gs-injectable>\n<p>&nbsp;<\/p>\n<h2>Frequently Asked Questions About Solar Backup Batteries<\/h2>\n<h3>How much does a home solar battery cost?<\/h3>\n<p>Fully installed, a backup-enabled solar battery costs around $1,000 to $1,500 per kWh of storage capacity\u2014that&#8217;s between $10,000 and $15,000 for a 10 kWh battery before incentives are applied. Battery pricing can vary quite a bit based on the size, brand, and installation factors. In general, it&#8217;s more cost-effective to install battery storage at the same time as solar panels, as many of the &#8220;soft costs&#8221; overlap (permitting, inspection, labor, etc.).<\/p>\n<p>In 2025, several battery manufacturers introduced a <a href=\"https:\/\/www.solar.com\/learn\/why-the-tesla-backup-switch-is-a-game-changer-for-home-backup-power\/\" target=\"_blank\" rel=\"noopener\">&#8220;meter collar&#8221; or &#8220;backup switch&#8221;<\/a> device that streamlines backup battery installations and reduces the overall cost by several thousand dollars, on average. With this configuration, the battery is wired directly to the main panel box (instead of a dedicated essential loads sub-panel), allowing the homeowner to power any device in their home\u2014provided the battery has enough stored electricity to power it<\/p>\n<h3>What are the differences between different types of solar batteries?<\/h3>\n<p>There are several types of solar batteries that serve various household energy needs. For starters, there are <a href=\"https:\/\/www.solar.com\/learn\/types-of-solar-batteries\/\" target=\"_blank\" rel=\"noopener\">different battery chemistries<\/a>, such as lithium-ion, lead-acid and flow batteries. Lithium-ion has emerged as the most practical and economic chemistry for residential battery storage, due to its long lifespan, high energy density, and affordability.<\/p>\n<p>There&#8217;s also a key distinction between backup batteries and non-backup batteries (also known as consumption-only batteries). As the name suggests, consumption-only battery systems do <em>not\u00a0<\/em>provide backup power during an outage and are designed to improve the economics of home solar. These are most effective in areas with time-of-use utility rates and\/or areas where the utility provider buys excess solar electricity for less than it&#8217;s worth.<\/p>\n<p>Finally, there are differences in the type of power a battery receives and stores. DC-coupled batteries are more efficient, but are notoriously difficult to add to an existing solar system. AC-coupled batteries are less efficient, but are easier to add to an existing solar system. The differences in efficiency lie in how many times the electricity needs to be &#8220;inverted&#8221; from AC to DC as it travels from the solar panels to the battery.<\/p>\n<h3><strong>Are there any government incentives for installing solar batteries?<\/strong><\/h3>\n<p>Yes, at the federal level, there are two 30% tax credits that apply to installing home battery storage. However, both are being phased out as part of the &#8220;One Big Beautiful Bill&#8221; becoming law.<\/p>\n<ul>\n<li><strong>Section 25D\u00a0<\/strong>is a 30% tax credit claimed by consumers who purchase and install battery storage with cash or a loan. This credit ends on January 1, 2026 and the system must be fully installed by the end of 2025 to qualify.<\/li>\n<li><strong>Section 48E\u00a0<\/strong>is a 30% tax credit claimed by installation companies that install residential battery storage through a lease or Power Purchase Agreement (PPA) arrangement. This credit is available through 2032.<\/li>\n<\/ul>\n<p>There are also battery storage incentives available at the state and utility level. For instance, California&#8217;s Self-Generation Incentive Program (SGIP) provides rebates for residential battery storage installations, with higher amounts reserved for customers who meet power outage risk, medical, and income criteria.<\/p>\n<h3><strong>What should I know about solar battery warranties?<\/strong><\/h3>\n<p>Solar battery warranties typically cover 10\u201315 years or a set number of cycles, guaranteeing performance and capacity retention (often 60\u201370% at end of term). Key factors include coverage for defects, degradation rates, and whether labor\/installation is included. When comparing, <a href=\"https:\/\/www.solar.com\/learn\/how-long-does-a-solar-battery-last\/\" target=\"_blank\" rel=\"noopener\">check warranty length<\/a>, throughput limits, and manufacturer reputation. A strong solar battery warranty ensures long-term reliability, lower replacement risk, and better return on investment.<\/p>\n<p>&nbsp;<\/p>\n","protected":false},"excerpt":{"rendered":"<p>When you install a home battery, you&#8217;re gaining a backup energy reserve in the case of an outage. Whether you have a solar panel system at your home or not,&#8230;<\/p>\n","protected":false},"author":3,"featured_media":12567,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"content-type":""},"categories":[93],"tags":[],"yoast_head":"<!-- This site is optimized with the Yoast SEO Premium plugin v19.5 (Yoast SEO v19.10) - https:\/\/yoast.com\/wordpress\/plugins\/seo\/ -->\n<title>How Long Can Solar Battery Power a House During an Outage? | Solar.com<\/title>\n<meta name=\"description\" content=\"How long can battery storage power a house? 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