I bypassed the internal thermostat and put one on the wall. Lot easier than climbing a stool to turn it on.
I bypassed the internal thermostat and put one on the wall. Lot easier than climbing a stool to turn it on.
Don
That darn thing had my shop up to 72º F today...it tops out at about 65º F on the colder days so far. I'm VERY pleased that I put this unit it!
--
The most expensive tool is the one you buy "cheaply" and often...
I generally keep mine set on Low, which is about position 3 out of 9 (High). It will keep my 21X21 shop above 50 degrees even on the coldest days (<20). If I put it on the lowest setting (1), it will maintain >45, and I rarely go above setting 4, which will get it to around 70. I'm very pleased with the performance, although I have never calculated the cost.
If the ceiling were insulated, I'm sure it would be very toasty in there just on low. The attic above helps a little just because it's an airspace, rather than outdoors, and the walls are insulated, but there is enough heat loss right now that I wouldn't consider leaving it on all the time for cost reasons. I only get to work in the shop on the weekend, anyway, so I start it up on Friday evening (to low), adjust it higher while working, back to low over Saturday night and it goes off at the end of my time in there on Sunday. I may do the ceiling insulation at some point, but I can't cost justify it right now.
--
The most expensive tool is the one you buy "cheaply" and often...
Did you see a significant jump in your electric bill with this unit or was it fairly reasonable? I currently use a kerosene/diesel heater so I'm spending about $50-60 monthly on diesel just running it on the weekends. So if this is the same or just over I would sure like to dump my kerosene plan...
Nice! That might be exactly what I need for the maintenance end of my shop, about 24x22. It's insulated with insulated industrial garage doors but I have just one diffuser from the heat pump and unlike the rest of the shop it is always too cool in the winter. Ain't nutt'n like a warm shop!
JKJ
I've long passed the electric bill payments over to Professor Dr. SWMBO when we rebalanced budgetary responsibilities, but I do look at the bill when it arrives. I can certainly see that I've been using heat in the shop, but I have no realistic way of knowing how it compares to the purely resistance based radiant units I depended upon prior. (I still use them briefly when I first go into the shop to warm up quickly while the Farenheat unit does it's thing to warm the actual air. I'm guessing that the cost to run my heat on weekends doesn't exceed the number you mention and...there's no fumes. Many years ago I used a kero heater in the shop and suffered mightily from headaches as a result...
--
The most expensive tool is the one you buy "cheaply" and often...
Thanks for the info. My shop is fully insulated except that I need to replace the garage door next year. So I think the unit will suit my needs just fine.
That begs a question, which I am too lazy to google at the moment, of the types of electric heaters are any types significantly more efficient than others? While I know different categories heat the environment in different ways I always had the assumption electric heaters were essentially 100% efficient (save for the fan if any).
Of all the laws Brandolini's may be the most universally true.
Deep thought for the day:
Your bandsaw weighs more when you leave the spring compressed instead of relieving the tension.
Fan motor inefficiencies become heat also, so you're back to 100%
Pretty much most, if not all, of the energy consumed is being used to generate heat, although yes, a fan is going to contribute to electrical use. But the fan is also helping to distribute the heated air in the case of a unit that uses a fan. The Farenheat unit's fan is nicely designed in that it delays coming on until the coils are actually hot and delays turning off until it clears warm air from the unit on shut-off. The overhead radiant units I have don't technically heat the air, but are nearly immediately helpful in warming "me". Eventually the air warms, but that's from other things (including the physical heating unit) transferring warmth to air. So I had to use multiple units and run them longer. Now, I set the Farenheat on to low on say, Friday night to gradually moderate the air in the closed shop, and then crank it to high on Saturday morning. When I go into the shop, I'll run the radiant units for a short period of time to supplement for comfort while the forced air unit works to bring up the temperature to the point I can take off my sweatshirt. I'll shut the radiant units down at that point for the remainder of the day.
One thing that's going to help in my shop is that I'm starting to work to seal off the rim joist areas better/more permanently. Right now, it's just insulation that moves too easily. I'm making templates to cut pieces of left-over 1/2" sheathing to fit exactly inside the I-joists so I can install them and caulk things tight. I should have done that years ago, but, well...life intervened.
--
The most expensive tool is the one you buy "cheaply" and often...
I understand that, my point was directed to say the difference between a baseboard heater with no fan and a heater with a fan, the latter would be less efficient at purely producing heat than one with no fan.
So is the take away that all electric heaters are essentially 100% efficient (save loses to run electronics or fans)? So there is no issue with BTU per kWh and the criteria (beyond price and build quality) is really the way in which it transfers the heat to the environment.
Of all the laws Brandolini's may be the most universally true.
Deep thought for the day:
Your bandsaw weighs more when you leave the spring compressed instead of relieving the tension.
I have to say that as I close up more and more of the air infiltration areas in the rim joists, not surprisingly, heater performance increases. I have about 20 more bays to do in between other shop tasks...'might even get it done before the end of winter. LOL
--
The most expensive tool is the one you buy "cheaply" and often...
I use a similar heater, mine is a 240 volt portable unit and requires a 240 volt 20 amp circuit and heater actually draws 16 amps for 4,000 watts of heat. I have 3 240 volt 20 amp receptacle in my work shop, so I just set it on the floor and keeps me comfortable. Almost forgot my shop is 400 sq ft. (20x20).