Model
Jack&Rose DH02
Rank #55 means 54 of the 519 dehumidifier models we track cost less to run each year; the 42nd efficiency percentile means it uses less energy for its size than 42% of those models.
What does the Jack&Rose DH02 cost to run per year?
The Jack&Rose DH02 costs about $34 a year to run and sits near the top of the cheapest-to-run leaderboard, rank #55 of 519. Once capacity is factored in, its efficiency percentile of 42 is fairly typical for the class, neither a standout nor a laggard. At a IEF of 1.9, its integrated energy factor is the single figure that best explains how it earns its running-cost number.
Immediately around it on the leaderboard, the Zunmos AS-CSJ72XK-4D5WT-OL at $34/yr runs a little cheaper and the Dguam V2 at $34/yr runs a little more, a sense of how tightly models are packed at this point in the ranking. A dehumidifier typically stays in service for somewhere around 8 years; over that span, the Jack&Rose DH02's $34/yr adds up to roughly $272 in electricity alone, before purchase price or repairs.
By the numbers
The Jack&Rose DH02 normalized against its whole class, so each figure means something.
What it costs you over time
Running cost is an every-year number, so it compounds. At $34/yr, here is what the Jack&Rose DH02 adds up to before purchase price, water, or repairs enter the math.
Left running for a decade at today's US average rate, the Jack&Rose DH02 costs about $340. That is roughly $300 less than the class median, which would run closer to $640 over the same ten years.
How the Jack&Rose DH02 compares
The dehumidifier class we track runs from $19 to $521 a year. At $34/yr, it runs about $30 a year cheaper than the class median of $64, and it is about $15 a year more than the cheapest dehumidifier to run at $19.
What drives its running cost
At 16.1 pints/day, the Jack&Rose DH02 is a small dehumidifier for its class, which spans 1.91 to 172.13 pints/day with a median of 32.46 pints/day, at the small end of the class, capacity itself is doing a lot of the work to keep that figure down, separate from how efficient the unit actually is. Its IEF of 1.9, below the class median of 2.01, reflects integrated energy factor: a higher figure means it wrings more useful work out of every kilowatt-hour, so it is the efficiency lever to weigh against raw size.
- Integrated Energy Factor (IEF). Two dehumidifiers rated for the same pints per day can carry very different IEF figures, and IEF is what actually separates their running costs.
- Water removal capacity (pints/day). Pints-per-day rating scales with the space it is built for, and that rating is the first driver of how much power the compressor needs.
- Humidistat accuracy. How tightly a humidistat holds its target humidity determines how much of the day the compressor actually runs, on top of the unit's rated capacity and IEF.
Common questions
Is the Jack&Rose DH02 cheap to run?
Yes, relatively. At $34 a year it ranks #55 of 519 dehumidifier models we track, in the cheaper part of its class to run.
How much does the Jack&Rose DH02 cost per month?
Roughly $2.81/mo, spreading the $34/yr estimate evenly across twelve months at $0.1856/kWh. Actual monthly bills swing with your rate and usage pattern.
How is this running-cost figure calculated?
We take the model's published annual energy use of 182 kWh from ENERGY STAR and multiply it by the US average residential electricity rate of $0.1856/kWh, giving about $34 a year. It is an electricity-only estimate and does not include purchase price, water, or installation.
How efficient is the Jack&Rose DH02 for its size?
42nd percentile once size is factored in. That means its size-adjusted efficiency is not the main reason for the running-cost figure above; its capacity plays a large role too.
Cheaper to run in the same class
Source
ES_1152375_DH02_07152025133742_9731487View certified dehumidifier listingsENERGY STAR data as of July 2026Jack&Rose and DH02 are used here for identification only and are not endorsements. Figures are computed by WattWise Labs from public ENERGY STAR data, not measured in our own lab.