ROANOKE TIMES Copyright (c) 1997, Roanoke Times DATE: Thursday, February 27, 1997 TAG: 9702270001 SECTION: CURRENT PAGE: NRV-2 EDITION: NEW RIVER VALLEY COLUMN: hoein' & growin SOURCE: JEROME SMIT AND DIANE RELF
In most climates, a well-constructed solar greenhouse collects more energy on a clear winter day than it needs for greenhouse heating and has the potential to supply a substantial amount of heat to the space adjoining it.
A south wall, which receives unobstructed sunlight from approximately 9 a.m. until 3 p.m., is well-suited for the addition of a solar greenhouse or sunspace.
In colder areas of Virginia, the greenhouse should have between 0.65 and 1.5 square feet of south-facing double glass for each square foot of adjacent building floor area to be warmed. In warmer areas of Virginia, use 0.33 to 0.9 square feet of glass for each square foot of adjacent floor area. This area of glazing will collect enough heat during a clear winter day to keep both the greenhouse and adjoining space at an average temperature of 60 to 70 F during the day.
However, it is also important to utilize enough thermal mass to absorb direct sunlight and dampen interior temperature fluctuations. A thermal-mass wall for storing collected solar energy should be located between the greenhouse and the adjacent space with a large surface area of thermal wall exposed to direct sunlight. The wall can be constructed with several
different materials at recommended thicknesses, including:
* solid masonry at 8 to 12 inches;
* concrete at 12 to 18 inches;
* water in containers at 1 cubic foot (7.5 gallons) for each square foot of south-facing glass.
For maximum heat retention, the surface of the wall should be a medium to dark color and care should be taken to not block direct sunlight from reaching it. Small vents or operable windows should be located in the wall to allow heat from the greenhouse directly into the building during the daytime. Operable exterior vents and shading devices to prevent a heat buildup in the greenhouse in the summer are required.
An alternative to thermal-mass storage of heat is to actively take heat from the greenhouse during the day and store it in the building for use at night. Heat can be taken from the greenhouse by a fan and stored in a rock bed located in the crawl space under the floor of the building.
The advantage of this system is that space is not lost in the greenhouse to a thermal-mass wall. The greenhouse should receive enough heat back from the building at night through the common wall and glass to keep it at a temperature average between the indoor heated space and outdoor temperature.
However, it is important to use operable windows or a door between the greenhouse and building to assure that during periods of extremely cold weather the greenhouse can receive direct heat from the building to keep freezing temperatures from affecting the plants.
For adequate passive heat transfer from the rock bed to the adjacent space to be heated, 50 percent to 75 percent of the floor must act as a heat-transfer area. The system moves warm air to the rock bed and returns cool air to the greenhouse from the bottom of the rock bed. In temperate climates, 3/4 to 11/2 cubic feet of fist-sized rock for each square foot of south-facing greenhouse glass should be used.
Solar greenhouses in Virginia require double glazing to prevent undue heat loss. Insulating glass may be used as well as plastic products such as Fiberglas or polycarbonate sheets. Plastic films are best used as the second layer of glazing inside the glass or rigid plastic glazing. The cost of glazing may account for nearly half the total cost of the greenhouse structure. The average cost of a solar greenhouse is, in most cases, one third that of standard construction.
When the primary function of the greenhouse is to heat an adjacent building, taking heat from the greenhouse by mechanical means and storing it for use in the building will increase the efficiency of the system. However, the greenhouse will drop in temperature to about 40 to 45 F at night in temperate and cool climates, and considerably lower in very cold climates. Additional sources of heat will be necessary if plants are to be healthy and productive. Most tropical plants will drop their leaves if subjected to long periods below 60 F, and few vegetables will produce a yield at low temperature.
Jerome Smit is a former Virginia Cooperative Extension specialist. Diane Relf is an environmental horticulturist based at Virginia Tech.
LENGTH: Medium: 80 linesby CNB