Do dehumidifiers use a lot of electricity?
Introduction: Humidity can be a common problem in many homes and can lead to discomfort, mold growth, and damage to your belongings. A dehumidifier is a useful appliance that helps maintain optimal humidity levels in indoor spaces. While it’s crucial for addressing moisture issues, it’s also important to understand the associated costs of running a dehumidifier. In this blog post, we will break down the factors that contribute to the cost of running a dehumidifier and provide insights to help you manage your energy expenses effectively.
Dehumidifier Electricity Consumption
Dehumidifier Electricity Consumption: Dehumidifiers are electrical appliances that consume varying amounts of power. The dehumidifier energy consumption depends on factors such as the size, capacity, energy efficiency, and the humidity level in your home. Typically, smaller and more energy-efficient models consume less power, while larger units with higher moisture extraction rates may require more electricity. It is important to check the energy efficiency rating of a dehumidifier before purchasing to assess its long-term energy costs.
Dehumidifier electricity usage:
Operating Hours: The number of hours you run your dehumidifier directly affects its energy consumption and, consequently, the cost. Some models offer adjustable settings, allowing you to control the humidity levels and set specific operating hours which in turn reduces the dehumidifier power consumption. It is advisable to determine the required operating time based on your space’s humidity levels. Additionally, utilizing timers and smart features can help optimize usage, ensuring the dehumidifier runs only when necessary.
Local dehumidifier electricity cost:
Local Electricity Rates: The cost of electricity varies based on your location and the utility provider. Check your electricity bill to determine the rate you are charged per kilowatt-hour (kWh). Multiply this rate by the dehumidifier’s power consumption (in kilowatts) to calculate the hourly cost of running the appliance. By understanding your local electricity rates, you can estimate the monthly and annual costs of running a dehumidifier more accurately.
Maintenance and Filter Replacement:
Maintenance and Filter Replacement: Regular maintenance and filter replacement are essential to keep your dehumidifier functioning optimally. Clean filters ensure efficient moisture removal and prevent strain on the unit’s motor, leading to increased energy consumption. While maintenance costs are typically minimal, it’s important to factor in the expenses of replacing filters periodically, as this can vary depending on the model and frequency of use.
Additional Considerations:
Several additional factors can impact the cost of running a dehumidifier:
a) Room Size: The larger the area you need to dehumidify, the more powerful the dehumidifier you’ll require, resulting in higher energy consumption.
b) Climate: Regions with high humidity levels will require the dehumidifier to run for more extended periods, leading to increased energy costs.
c) Insulation: Well-insulated homes retain moisture less, potentially reducing the dehumidifier’s operating time and associated costs.
Conclusion: Running a dehumidifier comes with certain costs, but these expenses can be managed effectively by considering various factors. Understanding the energy consumption of different dehumidifier models, adjusting operating hours based on humidity levels, being aware of local electricity rates, and maintaining the appliance properly are crucial for optimizing costs. By taking these factors into account, you can enjoy the benefits of a dehumidifier while keeping energy expenses under control and creating a comfortable, moisture-free environment in your home.
Remember to research specific dehumidifier models, consult energy efficiency labels, and calculate the operating costs based on your local electricity rates to make informed decisions when choosing and running a dehumidifier. Research the specifications for dehumidifier energy-saving features and dehumidifier energy-efficient models
Commercial Dehumidifiers
We have researched the commercial dehumidifier running costs for all of the commercial dehumidifiers from the relevant suppliers in the UK, using information freely available from their websites and sales and marketing information and brought it all together, to hopefully have one point of reference.
The effects of the pandemic and the war in Ukraine have heavily impacted the UK energy sector, with firms passing the spiked costs of energy to consumers. After the record 54 percent hike of the energy price cap on April 1, customers across the country are faced with massive increases in their energy bills, but how do you calculate the energy of the installed dehumidifier electricity costs installed by the restoration industry following an insurance peril?
Although the below table is not a true reflection on the energy a dehumidifier will use, it is a useful guide.
Variables for a dehumidifiers electricity usage costs will be dependent on how hard it has to work in the different moisture levels and temperature it is installed in, eg if a pump out refrigerant dehumidifier is installed in a high moisture area, the pump will be called into action more often.
Dehumidifier energy-saving features incorporated into most modern dehumidifiers will have kwh counter, so it is imperative this reading is taken at install and removal
In this blog, we are not promoting how one suppliers product should be installed in a certain peril over another’s. It is just a centralised list of a dehumidifier electricity usage guide.
Simply multiply the kw per hour by your electricity providers rate to ascertain the dehumidifiers running costs.
so how much electricity does a dehumidifier use? If you already know your supplier of your machine and want to know how much does it cost to run a dehumidifier, please click below to see dehumidifier electricity usage comparison
To calculate the running cost of a dehumidifier, you will need to consider the following factors:
- Power Consumption: The amount of electricity the dehumidifier uses, which is usually measured in watts.
- Operating Hours: The number of hours the dehumidifier is running per day or week.
- Electricity Rate: The cost of electricity in your area, which is usually measured in kilowatt-hours (kWh).
Here are the steps to calculate the running cost of a dehumidifier:
- Determine the power consumption of your dehumidifier. You can find this information on the manufacturer’s website or the product manual. It is usually measured in watts and can range from 300 to 1500 watts, depending on the size and capacity of the unit.
- Determine the number of hours the dehumidifier will be running each day or week. This can vary depending on the humidity level in your home and the size of the unit. For example, a small dehumidifier may need to run for 8-10 hours per day, while a larger unit may only need to run for 4-6 hours.
- Multiply the power consumption by the number of hours per day or week to get the total electricity consumption. For example, if your dehumidifier uses 500 watts and runs for 8 hours per day, the total electricity consumption would be 4,000 watt-hours or 4 kWh per day.
- Determine the cost of electricity in your area. This information can be found on your electricity bill or by contacting your utility provider.
- Multiply the total electricity consumption by the cost of electricity per kWh to get the daily or weekly running cost of your dehumidifier. For example, if your dehumidifier uses 4 kWh per day and the cost of electricity is £0.13 per kWh, the daily running cost would be £0.52 or £3.64 per week.
Note that this is just an estimate, as the actual running cost may vary depending on factors such as the humidity level in your home, the size and capacity of the dehumidifier, and how often you use it.
Dehumidifier running costs of Dri-Eaz
| Type | Voltage | Model | KW per hour | KW per 24 hours |
| Refrigerant | 230v | Revolution LGR Dehumidifier | 0.78 | 18.72 |
| Refrigerant | 230v | LGR7000XLi Dehumidifier | 0.92 | 22.08 |
| Refrigerant | 110v | The Cube Dehumidifier | 0.45 | 10.8 |
| Refrigerant | 230v | The Cube Dehumidifier | 0.55 | 13.2 |
| Refrigerant | 110v | DrizAir 1200 | 0.73 | 17.52 |
| Refrigerant | 230v | DrizAir 1200 | 0.69 | 16.56 |
| Refrigerant | 110v | BD1000 Dual-Voltage Building Dryer | 0.71 | 17.04 |
| Refrigerant | 230v | BD1000 Dual-Voltage Building Dryer | 0.75 | 18 |
| Desiccant | 230v | TD3000 | 1.03 | 24.72 |
Dehumidifier running costs of Corroventa
| Type | Voltage | Model | KW per hour | KW per 24 hours |
| Desiccant | 230v | A2 ES | 1.2 | 28.8 |
| Desiccant | 230v | A4 ES | 1.5 | 36 |
| Desiccant | 230v | A4 ESX (using built in heater) | 2.5 | 60 |
| Refrigerant | 230v | K3 HP | 0.42 | 10.08 |
| Refrigerant | 230v | K5 HP | 0.55 | 13.2 |
| Refrigerant | 230v | K5 HP (using built in heater) | 1.7 | 40.8 |
| Refrigerant | 230v | L4 HP | 1.3 | 31.2 |
| Water Separator | 230v | WS4 ES | 0.7 | 16.8 |
| Turbine | 230v | T2 ES | 1.1 | 26.4 |
| Turbine | 230v | T4 ES | 1.8 | 43.2 |
| Desiccant + Turbine | 230v | CTR K150 XT | 1.6 | 38.4 |
Dehumidifier running costs of Aerial
| Type | Voltage | Model | KW per hour | KW per 24 hours |
| Refrigerant | 230v | AD 20 | 0.52 | 12.48 |
| Refrigerant | 230v | AD 750 | 0.9 | 21.6 |
| Refrigerant | 230v | AD 40 | 0.8 | 19.2 |
| Desiccant | 230v | ASE 200 | 0.69 | 16.56 |
| Desiccant | 230v | ASE 300 | 1.04 | 24.96 |
| Desiccant | 230v | ASE 400 | 2.2 | 52.8 |
| Water Separator | 230v | VT 2 | 0.26 | 6.24 |
| Turbine | 230v | VP 6 | 1.28 | 30.72 |
Dehumidifier running costs of Dantherm
| Type | Voltage | Model | KW per hour | KW per 24 hours |
| Refrigerant | 230v | CDT 30 | 0.8 | 19.2 |
| Refrigerant | 230v | CDT 30S (using built in heater) | 1.8 | 43.2 |
| Refrigerant | 230v | CDT 40 | 0.9 | 21.6 |
| Refrigerant | 230v | CDT 40S (using built in heater) | 1.9 | 45.9 |
| Refrigerant | 230v | CDT 60 | 1.3 | 31.2 |
Dehumidifier running costs of Master
| Type | Voltage | Model | KW per Hour | KW per 24 Hours |
| Refrigerant | 230v | DHP 20 | 0.39 | 9.36 |
| Refrigerant | 230v | DHP 55 | 0.79 | 18.96 |
| Refrigerant | 110v | DHP 55 | No DATA | No DATA |
| Refrigerant | 230v | DHP 65 | 0.86 | 20.64 |
| Refrigerant | 110v | DHP 65 | No DATA | No DATA |
| Refrigerant | 230v | DH 26 | 0.52 | 12.48 |
| Refrigerant | DH 44 | 0.61 | 14.64 | |
| Refrigerant | 110v | DH 44 | No DATA | No DATA |
| Refrigerant | 230v | DH 62 | 0.89 | 21.36 |
| Refrigerant | 110v | DH 62 | No DATA | No DATA |
| Refrigerant | 230v | DH 732 | 0.68 | 16.32 |
| Refrigerant | 230v | DH 752 | 0.9 | 21.6 |
Dehumidifier running costs of Heylo
| Type | Voltage | Model | KW per Hour | KW per 24 Hours |
| Refrigerant | 230v | BT 60 | 1.3 | 31.2 |
| Refrigerant | 230v | BT 960 | 0.92 | 22.08 |
| Refrigerant | 230v | BT 760 | 0.48 | 11.52 |
| Refrigerant | 230v | BT 860 | 0.69 | 16.56 |
| Refrigerant | 230v | KT 20 | 0.38 | 9.12 |
| Refrigerant | 230v | KT 45 | 0.93 | 22.32 |
Dehumidifier running costs of Trotec
| Type | Voltage | Model | KW per Hour | KW per 24 Hours |
| Refrigerant | 230v | TTK Qube | 0.39 | 9.36 |
| Refrigerant | 230v | TTK 125 | 0.52 | 12.48 |
| Refrigerant | 230v | TTK 175 | 0.64 | 15.36 |
| Refrigerant | 230v | TTK 355 | 1.4 | 33.6 |
| Desiccant | 230v | TTR 200 | 0.41 | 9.84 |
| Desiccant | 230v | TTR 300 | 0.89 | 21.36 |
| Desiccant | 230v | TTR 400 | 1.38 | 33.12 |
| Desiccant | 230v | TTR 500 D | 2.11 | 50.64 |
| Refrigerant | 230v | TTK 500 | 1.67 | 40.08 |
| Refrigerant | 230v | TTK 900 | 2.25 | 54 |
| Water Separator + Turbine + Hepa Filter + Sound Insulation | 230v | Qube+ | 1.54 | 36.96 |
| Turbine | 230v | VX 5 | 1.2 | 28.8 |
Dehumidifier running costs of Alorair
| Type | Voltage | Model | KW per Hour | KW per 24 Hours |
| Refrigerant | 110v | Storm | 0.47 | 11.28 |
| Refrigerant | 230v | Storm | 0.57 | 13.68 |
| Refrigerant | 230v | Storm SLGR 850X | 1.01 | 24.24 |
| Refrigerant | 230v | Storm LGR Extreme | 0.90 | 21.6 |
| Refrigerant | 230v | Storm SLGR 1250X | 1.42 | 34.08 |
| Refrigerant | 230v | Storm Pro | 0.94 | 22.56 |
| Refrigerant | 230v | Storm Ultra | 1.11 | 26.64 |
| Refrigerant | 230v | Storm Elite | 1.41 | 33.84 |
| Refrigerant | 230v | Storm SLGR 1600X | No DATA | No DATA |
Dehumidifier running costs of Ebac
| Type | Voltage | Model | KW per Hour | Dehumidifier running costs o |
| Refrigerant | 230v | BD 70 | 0.46 | 11.04 |
| Refrigerant | 110v | BD 70 | 0.46 | 11.04 |
| Refrigerant | 240v | BD 150 | 1.84 | 44.16 |
| Refrigerant | 110v | BD 150 | 0.89 | 21.336 |
Dehumidifier running costs of Pheonix
| Type | Voltage | Model | KW per Hour | KW per 24 Hours |
| Refrigerant | 230v | R250 LGR | 1.90 | 45.6 |
| Refrigerant | 230v | XL LGR | 1.77 | 40.8 |
| Refrigerant | 230v | BLE | 1.31 | 31.44 |
| Refrigerant | 230v | R150 LGR | 1.26 | 30.24 |
Dehumidifier running costs of Ecor
| Type | Voltage | Model | KW per Hour | KW per 24 Hours |
| Refrigerant | 230v | EPD330LGR | 0.98 | 23.52 |
| Refrigerant | 230v | EPD100LGR | 0..48 | 11.52 |
| Refrigerant | 110v | EPD170LGR | 0.71 | 17.04 |
| Refrigerant | 240v | EPD170LGR | 0.59 | 14.16 |
| Turbine | 230v | EPTB2 | Coming soon | Coming soon |
| Desiccant | 110v | DH3511 | 0.71 | 17.04 |
| Desiccant | 110v | DH2511 | 0.9 | 21.6 |
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