¶ DrumWall
A DrumWall is a south-facing wall of water-filled drums positioned behind glazing to absorb solar heat during the day and radiate it back into the room overnight. It is Steve Baer's original passive solar heat storage invention — predating the Cool Cell and Double Play by three decades — and the system that made "zomes and Drum Wall" his most publicly recognized contribution.
The DrumWall in the Baer House, Corrales — white plastic drums (updated from steel ~1991) stacked in a grid on the south-facing wall. The Skylid skylight is visible above.
¶ How it works
Water-filled drums are stacked in front of south-facing glazing. The drum surfaces facing outside are painted black to absorb solar radiation; the inside surfaces are white to re-radiate heat into the room. During the day, sunlight passes through the glazing and heats the drums. The water stores this heat with high thermal capacity. At night — or when the Skylid closes — the drums slowly radiate heat into the space. No pump, no electricity, no controls required.
The glazing itself functions as the control layer: operable panels or the Skylid system open to admit sun and close at night to retain heat. The heat flow is automatic and passive — the drums simply absorb what arrives and release it as the room cools.
¶ Origins at Drop City
The DrumWall grew out of Baer's time at Drop City (c.1968), the counterculture commune near Trinidad, Colorado, where building materials were salvaged and repurposed. Water-filled 55-gallon oil barrels — painted dark and placed behind operable panels — were an early version of the system. The 1973 Solar Energy newsletter includes what may be the earliest photograph of the concept in print: "Inside of Steve Baer's house is the DrumWall that stores the whole heat of all family."
The Cap'A architecture blog (2017) describes the system's Drop City roots directly:
Ce système avait été expérimenté par Steve Baer dans ses projets de «Zomes» développés dans son projet de «Drop City», à base de bidons d'eau réutilisés. Ces réservoirs d'eau verticaux en PVC alignés devant des ouvertures en façades, peints en noir côté extérieur et blanc à l'intérieur, permettent d'emmagasiner de la chaleur solaire pour la rediffuser lentement au cours de la journée et de la nuit.
[Translation: This system was experimented by Steve Baer in his zome projects developed at Drop City, using repurposed water cans. These vertical PVC water tanks aligned in front of facade openings, painted black on the outside and white on the inside, store solar heat to release it slowly during the day and night.]
Low-cost, demountable, and transportable — qualities that made it suited to the counterculture context where it originated.
¶ The Baer House installation (1971)
Baer installed the DrumWall in his own Corrales house in 1971 as one of the first full-scale testbeds. The original drums were steel. Over time they developed leaks — a persistent problem the 2009 AIA slideshow notes directly: "Steel drums of 30 years ago developed leaks. Now we have plastic drums that don't leak." Around 1991 the Baer House drums were updated to white plastic. The same update occurred at the Mike Elliston passive solar house (drum doors, c.1980; updated to plastic barrels 1991).
¶ Technical data
From Sunspots (1975): each drum holds 450 lbs of water.
The drum lifetime is the primary engineering challenge. Container manufacturers will guarantee water stored in plastic liners but not water in direct contact with steel. Rheem Manufacturing Co. produced steel drums with plastic liners for bomb shelter water storage in the 1950s — this technology was applicable to DrumWalls. Anti-corrosion additives can extend the life of steel drums, but their long-term effect was not established by 1975.
Water is the ideal storage medium: high specific heat, non-toxic, cheap, and dense. The drums are good heat containers because thermal transfer between the walls and their contents is so excellent — far better than masonry.
¶ DrumWall vs Cool Cell
The Cool Cell brochure (2002) contrasts the two systems explicitly:
Unlike trombe or drum walls, direct-gain systems and radiant floors, Cool Cell systems with louvers provide a source of heat that does not automatically flow into the space at a free rate but can be controlled as desired for comfort.
The DrumWall is simpler but uncontrolled: heat flows automatically into the room as the drums cool. The Cool Cell adds aluminum louvers to modulate radiant flux — doubling or tripling heat output on demand, or blocking it entirely. This is the engineering evolution from the 1971 Baer House to the 2002 product: same water-storage principle, added control.
Bruce W. Davis uses DrumWalls when adobe mass is not practical — treating the two as interchangeable approaches to the same problem of thermal mass behind glazing.
¶ Wider use in New Mexico
From the 2009 AIA slideshow: "Thirty years ago there was strong interest in passive solar in Corrales and all of New Mexico. Many houses were built with lots of south facing glass admitting sun directly into the house or onto concrete or adobe 'Trombe' walls or drum walls."
Projects in the slideshow survey that used drum walls or drum doors:
- Baer Zome, Corrales (1971)
- Benedictine Monastery, Pecos (1978)
- Mike Elliston house, drum doors (c.1980)
- Davis Studio, Water Wall Storage (2004)
¶ See also
- The Baer House
- Skylid
- Zomeworks Corporation
- Drop City
- Steve Baer
- Zome
- Cool Cell architectural climate-control
- Building thermal storage
- Baer AIA passive solar slideshow
- Bruce W. Davis
- Evolution of the thermal vision
- Index
- Sunspots: Collected Facts and Solar Fiction
- Sunbender
- Baer House preservation guide