Joseph Orr's Fabulous Mud Heat-Storage Solar Greenhouse

Here's a low-cost ($5.00 per square foot) solar greenhouse that not only heats itself, but provides a good deal of the space heat for an adjoining 28 foot by 40 foot building.
By the MOTHER EARTH NEWS editors
May/June 1978
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This low-cost solar greenhouse keeps the crops warm and heats an adjoining building as well.
Photo by Fotolia/Bernard Girardin


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This low-cost solar greenhouse is keeping a Laramie, Wyoming family in fresh vegetables year round and heating an adjoining building at the same time.

This low-cost ($5.00 per square foot) solar greenhouse not only heats itself, but provides a good deal of the space heat for an adjoining 28 foot by 40 foot building . . . and keeps this Laramie, Wyoming family in fresh vegetables year round besides!

Here in Laramie — high on the steppes of Wyoming, in America's own Outer Mongolia — we have a very short growing season," Joseph Orr explains. "Some folks say it's sixty days long. I think they're wrong. Last year it was only ten or twenty days. In any case, my wife and I have tried to garden here for thirty years . . . with no success. We've always been hampered by such things as snowstorms in the middle of June . . . and July . . . and August . . . and September.

"At last, though, we've achieved gardening success! Our annual growing season now runs a full 365 days. . . thanks to the solar greenhouse that my daughters, son, and wife helped me build. Even with snow on the ground, we can raise beautiful crops of tomatoes, beans, squash, broccoli, spinach, turnips, peas, and corn. Our greenhouse has turned a 14 foot by 30 foot patch of Outer Mongolia into a 14 foot by 30 foot patch of Florida!"

If Joseph Orr sounds like a happy man, he is . . . for two reasons. Not only has he [1] solved the vexing problem of how to grow vegetables year round in frigid Laramie, Wyoming (elevation: 7,165 feet) . . . but he's [2] pioneered a whole new concept in underground heat storage (one that any would-be solar heating system builder would do well to look into).

The concept that Orr (aided by his two daughters, one son, and wife Amelia) has pioneered is called wet-dirt storage (also dubbed the Solterra system by Solar Energy Digest editor William Edmondson) . . . and it's what allows the Orr greenhouse to derive not 70%, not 80%, but 100% of its total heating needs from Ole Sol.

A New Way of Storing Solar Heat: Mud

Three years ago — when Joe Orr began to sketch out the design of his 420-square-foot solar conservatory — almost no information existed on the feasibility of using wet earth as a heat-storage medium . . . and no one (to Joe's knowledge) had actually built a solar heating system around a wet-dirt-type storage setup. (At that time — as now — most "active" solar heating installations employed large quantities of either water or rocks for heat storage.)

That, however, didn't keep Joe Orr from [1] digging a 9 foot-deep by 6-1/2 foot-wide by 15 foot-long trench where the solar conservatory was to be built, [2] lining the hole with plastic (and 3 inches of polystyrene insulation), [3] laying a series of "heat exchange" pipes in the excavated area, and [4] filling the pit with 878 cubic feet of water-saturated earth.

Nor did it keep Joe — when the time came — from covering the mud-storage bin with 6 inches of polystyrene and two feet of garden soil, constructing a 14 foot by 30 foot greenhouse over the bin, putting a 6 foot by 30 foot airhandling solar collector above the conservatory, and running air ducts between the collector and the mud bin's "heat exchange" pipes.

In other words, the lack of "it's been done before" information on mud-storage solar heating systems didn't keep Joseph Orr and family from building what now appears to be the only such system in existence!

But why? Why wet dirt instead of the more traditional water or rock storage? Joe cites three reasons: "First, because dirt is handy . . . it's already on the building site. Second, wet earth has surprisingly good heat-holding characteristics. (It has a capacity of 30 to 44 Btu's per cubic-foot-degree, versus about 20 for rocks and 62 for water.)

"What really convinced me to go the mud route, though," says Joe, "is its low cost compared to other storage mediums. On a cost-per-Btu-of-storage-capacity basis, you just can't beat mud for heat storage." Mr. Orr figures the cost breakdown for different systems of equivalent heat storage capacity to be something like this:

WET DIRT

WATER

ROCK

To sum up: Wet dirt is inexpensive (dirt cheap, you might say). It's handy. It holds heat well. It's abundant. And now — thanks to the Orrs — it's also proven!

How the Orr Heated Solar Greenhouse System Works

To look at Joseph Orr's 420-square-foot glasshouse from a distance, you"d think it was "just another lean-to greenhouse". And in fact, certain aspects of the design are highly conventional. For instance, the conservatory (which is built onto the south side of a 28 foot by 40 foot workshop building) utilizes standard wood-frame construction. And its layout is entirely in line with state-of-the-art design principles. Unlike other "attached" greenhouses, however, Joe Orr's mud storage unit is both actively and passively solar heated and can operate in any one of at least four different modes.

In the first mode, the greenhouse is warmed solely by the direct entry of solar radiation through the single-glazed (with Tedlar-coated Filon fiberglass) south wall. Thanks to the fiberglass glazing's heat-trapping properties — and to the use of up to 13 inches of fiberglass insulation in the conservatory's ceiling and walls — this mode alone suffices to keep the grow room's interior at or above its minimum design temperature of 58 degrees Fahrenheit on all but the cloudiest days.

Mode two comes into play whenever Ole Sol shines down on the greenhouse through a cloudless, fogless sky. Under such "clear air" conditions, the conservatory can quickly accumulate more warmth than the plants inside need . . . or can tolerate. For this reason, Joseph Orr installed a thermostat that—at 75 degrees Fahrenheit or above — activates a wall-mounted fan which can — in turn — suck hot air out of the greenhouse and push it into the adjoining workshop. (This part of the system serves as the workshop's only source of heat . . . which — of course — means that on sunless days the shop stays cold. "We simply don't use the shop on those days," Joe Orr reports. "Instead, we find something else to do . . . such as work in the greenhouse.")

Mode three — the active collection (and storing) of Ole Sol's energy — is in operation whenever the sun shines on the system's 6 foot by 30 foot solar collector. As the collector's temperature passes the 100 degrees Fahrenheit mark, a thermostat-triggered fan begins to blow hot air through ductwork leading to the underground storage bin. There, a distribution manifold routes the heated air through 21 runs of mud-submerged plastic pipe, then to a second manifold that returns the air to the roof for another warm-up. (In the process, 878 cubic feet of wet earth in the storage bin becomes warmed to 90 degrees Fahrenheit or more.)

At night or in cold weather — or any other time that the temperature inside the conservatory begins to dip below 58 degrees Fahrenheit — still another thermostat kicks on yet another fan . . . this time, a blower that routes cold greenhouse air through the 21 mud-submerged"heat exchange" pipes and back into the nursery as warm air. Also, at night, Joseph and Amelia Orr place large, insulated "shutters" over the conservatory's main (south) wall, to trap heat inside the structure. (Note: These same shutters — laid flat in front of the greenhouse — serve as reflectors during the day to bounce more solar radiation into the grow room.) In this way (mode four), the greenhouse is kept at or above tomato-growing temperature at all times.

100% Solar Heated

How well does the Orr system perform? So far — in three years of operation (including two particularly severe winters) — the temperature in the greenhouse has never fallen below 58 degrees Fahrenheit . . . there's always been enough "reserve heat" in mud storage to keep the little conservatory warm night and day. In other words, the "mud storage" solar heating system actually provides 100% of the greenhouse's heating needs.

And it does more! Not only will the system meet the total space-heating demands of the greenhouse itself . . . it also heats (on a part-time basis) the former grocery store that now serves as the Orr family's workshop (see "mode two" above). In effect, then, the Orr conservatory is 100% solar-heated and then some!

Nonetheless, Joe Orr had originally hoped for more. "We didn't insulate the bottom of our wet-earth storage bin," Joe points out. "We figured that — since the bottom is only 17% of the bin's total surface area — heat losses there would be insignificant. We were wrong. Although air from the solar collector has topped 150 degrees Fahrenheit, the bottom of the storage bin has never gotten warmer than 90 degrees Fahrenheit, and just slightly over 100 degrees Fahrenheit midway up the bin. So we've only got 20 to 25% of our intended storage capacity. We wish now that we'd added six inches of insulation to the bottom of the mud pit and three more inches around the sides, minimum."

Despite the fact that Joe had hoped for more heating capacity (his original plan was to convert the workshop area into an apartment that would get 100% of its space heat from the greenhouse), he still takes a great deal of pride in having achieved "100%-and-then-some" solar heating of his greenhouse. And rightly so . . . because many — if not most — "active" solar heating installations being built today end up costing their owners more money than the Orrs spent on their entire greenhouse setup (about $2,000) while performing less efficiently. (Darn few solar installations even aspire to 100%plus efficiency!)

"We know it is an axiom of the solar economists that total solar heating is not yet economically prudent," Joseph Orr explains. "Our system — however — is actual, tangible proof that the solar economists are wrong!"

Beyond Wet Dirt

When pioneers get to blazing trails, they seldom stop at the first frontier. And so it is with Joe and Amelia Orr. Having demonstrated the feasibility of wet-dirt heat storage, Joe and his wife decided last winter to see if they could simplify their system one step further . . . by removing the water from their 878-cubic-foot underground mud supply.

For a good part of the past winter, the Orrs have been letting the mud in their heat-storage bin dry out while — at the same time — carefully monitoring the performance of the greenhouse solar heating system to see what (if any) changes would take place. The results, thus far, have been encouraging: It seems that heat stored in dry dirt is — if anything — more stable and easier to contain than heat stored in mud. "When the earth was wet," Joe recalls, "its temperature routinely dropped two or three degrees each night. Dry, it drops a mere half a degree per night. So we're seeing less heat loss now."

In theory — Joe points out — some loss in conductivity and heat capacity should occur as the dirt dries out . . . but so far, such changes (if they've occurred) have not affected the performance of the solar heating installation. In fact, the Orrs' greenhouse seems to be performing as well now as it ever has. (Even so, Joe and Amelia are already planning the construction of another greenhouse . . . one that — they say — might rely on a wet-dirt-filled wall for heat storage, or perhaps something even more exotic.)

Regardless of what the Orrs try next, one thing remains certain: Joe and his wife are now firm believers in solar greenhouses. Joe sums it up this way: "Our greenhouse has brought a new joy to winter, a new kind of warmth to our lives . . . the humid, hugging warmth of the sun. We've lived with this 'new warmth' now for three winters. We'll never live without it again."


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Post a comment below.

 

CBettini
11/24/2008 11:32:23 PM
Are there plans how to make this Greenhouse? I would like to try to build one of my own!








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