Shocking Truth: How Much Electricity Do Inflatables Use?

As an Amazon Associate we earn from qualifying purchases made on our website. If you make a purchase through links from this website, we may get a small share of the sale from Amazon and ...

Read more

Bounce house blower connected and keeping the bounce house full but it is the primary electricity draw

Published:

Last Updated:

Categories:

Bounce Houses

As an Amazon Associate we earn from qualifying purchases made on our website. If you make a purchase through links from this website, we may get a small share of the sale from Amazon and other similar affiliate programs.

Inflatables are a fun and popular attraction at events and parties, but have you ever wondered how much electricity they consume? With the rising costs of energy usage, it’s important to know the impact inflatables have on our electricity bills.

In this blog post, we’ll explore the amount of electricity that an inflatable uses, and share some tips on how you can reduce your inflatable’s energy consumption.

So, whether you’re a party planner or simply curious about inflatables, read on to learn more about their electricity usage.

Bounce house blower connected and keeping the bounce house full but it is the primary electricity draw

Understanding the Energy Consumption of Inflatables

One of the most important aspects of using inflatables as decorations are understanding their energy consumption.

As seen in previous sections, the amount of energy used by bounce houses, snow globes, or any other inflatable is determined by their size and blower type, with holiday inflatables typically using between 100 to 240 watts of power.

It is essential to consider these factors when calculating the energy usage of an inflatable, particularly for homeowners planning to keep their decorations up for lengthy periods.

Knowing how much electricity an inflatable consumes helps homeowners make informed decisions about how long to keep them inflated and manage their electricity costs accordingly.

Calculating the Energy Usage of a 12 Foot Inflatable

Continuing from the previous section, the energy usage of inflatables largely depends on their size and design.

To further understand this, let’s take an example of a 12-foot inflatable. Such an inflatable would consume about 150 watts of electricity per hour, which would translate to 1.8 kilowatts if operated for 12 hours a day.

This means that if you run it for a month, it will consume 648 kilowatts of electricity. To calculate the energy cost, you can multiply this by the electricity rate charged by your local utility provider.

It’s important to note that while inflatables may not consume a lot of electricity on their own, they can add up to your overall energy consumption, especially during the holiday season.

Cost of Running an Average 8 Foot Inflatable

The cost of running an average 8 foot inflatable can vary, depending on the specific features it has.

As previously mentioned, an average inflatable of this size would cost about $3.80 per day to run, or around $22 for an entire three-month season.

However, the actual cost may be slightly higher or lower, depending on the wattage usage of the blower and the overall energy efficiency of the inflatable.

It’s important to keep in mind that running inflatables for extended periods of time can add up quickly, especially if you have multiple inflatables to operate.

It’s also a good idea to invest in energy-efficient equipment and make sure that you’re not leaving inflatables running when they’re not in use.

By taking these steps, you can save money on electricity costs and enjoy your inflatables without worrying about breaking the bank.

Energy Consumption of Large Inflatable Snow Globes

Large inflatable snow globes are a popular addition to holiday decorations, but their energy consumption can be a concern.

Based on our previous sections, we know that the electricity use of one large inflatable decoration can be about 150 watts per hour, costing about $6 per month if running for 12 hours a day.

However, with the added complexity of a snow globe and its internal decorations, energy consumption can vary.

A life-sized inflatable snow globe with holiday décor elements and a built-in blower is ideal for use at shopping malls, parks, or homes.

It consumes on average between 100 to 240 watts per hour, with an average of 140 watts, equivalent to the wattage of an average-sized holiday inflatable.

Therefore, to save on energy costs, it is recommended to limit the use of large inflatable snow globes and turn them off when not in use.

Average Wattage of Holiday Inflatables

Now that you have a general idea of the energy usage of inflatables, let’s dive deeper into the average wattage of holiday inflatables.

According to National Grid, the typical inflatable consumes 150 to 200 watts per hour. This means that if you were to use it for a conservative 10 hours per day, that equates to 1.5 to 2 kilowatt hours per day.

While some inflatable decorations may use less electricity, larger and more elaborate inflatables could use up to 600 watts.

It’s important to keep this in mind when deciding on which inflatables to use for your holiday decorations.

Consider opting for smaller or more energy-efficient options, or perhaps limiting the number of inflatables you use to reduce your overall energy usage.

Remember, every little bit counts in helping to reduce our carbon footprint and energy consumption.

Factors Affecting the Electricity Usage of Bounce Houses

When it comes to bounce houses, the amount of electricity they use can vary depending on several factors.

The size of the blower, the size of the inflatable, and the type of inflatable all contribute to electricity usage.

As mentioned in previous sections, the energy consumption of a bounce house increases with the size of the blower.

Additionally, the larger the inflatable, the more electricity it will use.

Furthermore, certain types of inflatables, such as large snow globes and holiday decorations, may require more energy to operate due to their design and lighting features.

It is also important to consider the quality and age of the inflatable; older and poorly maintained units may use more electricity due to wear and tear on the blower.

By taking these factors into account when calculating the energy usage of a bounce house, one can better estimate the cost of running and maintaining these fun and exciting party accessories.

How to Calculate the Energy Consumption of a 1 HP Blower

To calculate the energy consumption of a 1 HP blower, you need to know the wattage output of the blower.

A 1 HP blower will use about 800 watts per hour. Using this information, you can determine the kilowatt-hours (kWh) used by multiplying the wattage by the number of hours the blower will be in use.

For example, if the blower will run for 10 hours, it will use 8 kWh.

Understanding the energy consumption of inflatables is crucial when calculating the cost of running them.

The size, type of blower, and hours of use are all crucial factors that affect energy consumption levels.

By carefully calculating the energy usage of a 1 HP blower, you can get a better idea of the cost of running your inflatables and take steps to lower your energy consumption.

Wattage Usage of an 8 Foot Inflatable

When it comes to smaller inflatables like an 8-foot model, wattage usage is understandably lower compared to larger designs.

According to the data, an 8-foot inflatable requires 76 watts per hour if used for 12 hours daily.

This translates to .91 kWh per day or around $1.08 monthly if used continuously for 31 days, which is the entire month of December.

Even though it may not consume as much electricity as bigger models, it’s still important to be aware of its wattage usage, especially when multiple inflatables are used simultaneously or for long periods.

By understanding the energy consumption of different inflatables, individuals can plan ahead and make more informed decisions when it comes to operating them.

Do Bounce Houses Use a Lot of Electricity?

Bounce house basics: One common concern is whether bounce houses use a lot of electricity. In general, bounce houses do not consume excessive electricity. Most inflatables are designed to work with standard household outlets and use relatively low wattage. As always, it’s important to check the manufacturer’s instructions and use the appropriate electrical setup to ensure safe and efficient operation.

National Grid’s Insights on Inflatable Wattage Consumption

National Grid, the electricity company, sheds light on the wattage consumption of inflatables during the holiday season.

They remind customers that the electricity use generally ranges from 50-200 watts an hour but can go up to 600 watts for the fancier, animated inflatables.

However, they also offer rebates and encourage customers to practice conservation and seal their fireplace flues with inflatable chimney balloons to avoid energy waste.

By keeping these factors in mind, customers can enjoy their festive decorations while being mindful of their electricity usage and costs.

Do Inflatables Pose a Higher Risk for Insurance Coverage?

When it comes to insurance coverage for bounce houses, there may be a higher risk associated with inflatable structures. Insurance providers often factor in the potential for accidents or damages, which could lead to higher premiums for inflatable rentals. It’s important to review your policy to ensure full coverage.

Monthly Cost of Running a Large Inflatable Decoration

Now that we have established the average wattage of a large inflatable decoration, let’s talk about the monthly cost of running it.

Running a large inflatable decoration for 12 hours a day can cost approximately $6 per month.

However, this cost can vary depending on the wattage of the decoration and the number of hours it is used daily.

It is important to take note of this cost to avoid potential shock when your utility bill arrives. That being said, it’s important to note that inflatables can still be an affordable and fun addition to your decor, as long as you are mindful of their energy consumption.