In the planning stages of building our house here at 9,000 feet, we had always thought we would eventually build a greenhouse. At our former location in Wellington we had a small, non-heated greenhouse, which provided us with cold-tolerant things like spinach, kale, chard, lettuce and beet greens throughout most of the winter. It also provided a place to finish and harden the seedlings I had started under lights indoors. It was attached to the south side of our house, under our deck, so the north side of the greenhouse was protected by the house. (See photos of this one below.) It was a great addition to the garden there, so we planned to do it again.
We mulled over whether to attach it to the house or build a free-standing greenhouse. Here are some of the pros & cons:
Attached to the house:
- Water and electricity readily available
- North side protected by house
- Easily accessible in winter
- More available space for a larger greenhouse
- More available light for the plants
- Would be farther from the house; less accessible
- Water and electricity would be more of a challenge
- Would require insulation, particularly on the north wall
We chose to attach the greenhouse to the house, under our deck on the south faces. (I say “face-s” because with a 14-sided house, we used two of the sections.) We also decided we would like some sort of heat source, to allow for more growing throughout the winter. While thinking through the options, Tim decided we could have radiant heat in the floor, with a solar collector to provide that heat as well as enough capacity to provide hot water for the house.
The greenhouse is now complete! It is full of beautiful, growing vegetables. Tim is now working to complete the solar collector and the system for heating. The solar collector is standing to the left of the greenhouse in the photo above. Inside the crawlspace, at the back of the greenhouse, is the mechanical room, which houses the water collection tank and controls. Tim is in the process of writing a detailed document of how the greenhouse was built, which will be included when complete.
Since the greenhouse is attached to the house, water and electricity are readily available. The glazing is 5-wall polycarbonate, about 5/8″ thick. It includes approximately 100 square feet of raised bed space 28″ deep, radiant in-floor heating, concrete floor to maintain thermal mass, a pond filled with about 200 gallons of water for thermal mass. Eventually we may remove the lid and put fish and/or water plants in the pond, perhaps a waterfall, but that’s a “someday” project. There is also a lighted grow-bench area for starting seedlings.
Venting is provided by two large ceiling vents equipped with automatic openers, in addition to the door which may remain open as needed. We have installed an oscillating wall fan to help with airflow.
For our first winter, Tim devised a way to put down insulation over the glazing at night to keep the cold out and the warmth inside. After the time-consuming efforts of installing them nightly and removing them each morning, we decided it was not worth the effort. We still put up the insulation on the sides (see
photo) and leave them there day and night throughout the winter. It doesn’t restrict the light all that much during the day, and provides some extra warmth, particularly when it is windy.
Tim has created a detailed document describing all the “nuts and bolts” of how the greenhouse was made and why we did what we did. It does need to be updated with a few recent changes but can be viewed HERE.
UPDATE NOVEMBER 2019
Since our first successful winters with the greenhouse, we have since made some improvements to the heating system. The concrete floor, the soil and the pond (which holds about 200 gallons of water) all provide thermal mass storage. When the greenhouse was planned and built, we installed radiant in-floor heating, to be heated with water from our solar collector. Over time, we determined that this was not necessary. The concrete floor and the soil beds stay plenty warm without the in-floor heat, but what needs more warmth overnight and on the coldest days is the air. We also no longer put up the insulation over the glazing each night, which was labor-intensive and not all that helpful. This past year, Tim purchased and installed a used wall heater which uses the hot water from our solar collector as its heat source. This has worked quite well to keep the greenhouse warm overnight most nights, and we have an electric space heater to add additional warmth on the coldest of nights. (It rarely comes on.) Tim has these all set on with thermostat sensors and computer programs that turn everything on and off as needed.
As an additional source of heating, we have a unique situation. The greenhouse is built on the south side of our home, and includes a door to our crawlspace. Most of the crawlspace is backfilled with dirt, and the temperature remains quite even–not too hot, not to cool. Tim has added a duct (see at top of photo above) with a fan to blow the hot air from the greenhouse into the crawlspace during the day which warms up the crawlspace a bit. At night, the door to this crawlspace is left open, so the warm air stored there can circulate back into the greenhouse for added warmth. In the summer, by keeping the door to the crawlspace open the coolness from the crawlspace helps keep the greenhouse cooler. Just an added benefit of attaching the greenhouse to the house!
Here are photos of our former greenhouse, which served us well, but our new greenhouse is 10x better!