BUILDING INTEGRATED THERMAL ELECTRIC HYBRID ROOFING SYSTEM
A building integrated thermal electric hybrid roofing system is disclosed. The system comprises a plurality of metal battens having a longitudinal channel mounted horizontally onto a plurality of wooden battens, a thermal tubing containing liquid mounted on the longitudinal channels, a plurality of solar electric roof tiles mounted on the plurality of metal battens and connected in series to form a string, an inverter connected to each of the strings, a heat exchanger connected to the thermal tubing, and a pump connected between the thermal tubing and the heat exchanger. The plurality of solar electric roof tiles generates DC electricity from solar energy and the inverter converts the DC electricity to AC electricity to feed to a utility grid. The plurality of metal battens collects the solar energy and converts into thermal energy through running the liquid which is extracted to the heat exchanger resulting in producing domestic hot water.
Not Applicable.
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH AND DEVELOPMENTNot Applicable.
FIELD OF THE INVENTIONThis invention relates to a building integrated electric roofing system, and more particularly to a building integrated thermal electric hybrid roofing system.
DISCUSSION OF RELATED ARTGlobal warming and its consequences are very global issues all countries are trying to find solutions to. One important way to reduce global warming would be to use alternative or renewable energy, such as, solar energy which is environment friendly and cost effective in the long run than the conventional methods. A properly sized and installed solar thermal energy collection system can be a practical alternative for acquiring some of the energy needs.
Solar panels are used to generate electricity by converting sun's energy into electricity. These solar panels comprise of photovoltaic cells arranged on a flat grid. For example, U.S. Pat. No. 5,990,414 issued to Posnansky on Nov. 23, 1999 discloses a photovoltaic solar roof consisting of roofing elements made of fiber cement upon which solar cells are mounted. Though the photovoltaic solar roof can be laid by a roofer with no electrotechnical expertise, the conversion rate goes down when the ambient temperature on the roof goes 85 degree Fahrenheit or above. Some other examples include U.S. Pat. Nos. 5,437,735, 5,232,518, and 6,065,255 and U.S. Patent Application. No. 20070157963 which show a photovoltaic solar roof tile assembly system. These prior art patents could only manage to install 3 to 4 kw systems on the roof.
The sun's energy can be collected in a variety of different ways. One is converting sun's energy into thermal energy to heat things, such as water. U.S. Pat. No. 4,738,247 issued to Moore on Apr. 19, 1988 provides roof installations consisting of an array of interfitting members e.g. tiles, strips, slats or the like which interfit to form a roof covering and a set of heat pipes which run parallel to the plane of the roof. Heat is abstracted from the heat pipes and used directly or indirectly, e.g. via a heat pump apparatus. U.S. Patent Application. No. 20080141999 entitled to Hanken on Jun. 19, 2008 provides a solar heating system for mounting under a roof that includes a panel formed of a sheet material and at least one run of tubing held beneath the panel by a plurality of tubing fasteners. The panel assembly facilitates transfer of the trapped heat from the roof and surrounding air into the fluid circulating through the tubing. Such arrangements will not generate sufficient energy to be self sustaining due to less conversion rate and these are not aesthetically pleasing.
U.S. Pat. No. 5,259,363 issued to Peacock on Nov. 9, 1993 teaches a solar roofing panel system for use in residential and commercial buildings employing conventional metal roofing components. The system collects and supplies thermal energy from the sun to heat the interior thereof and also is capable of providing solar generated electricity for powering the normal complement of household appliances. However the system produces thermal and electrical energy, both thermal energy and electrical energy are not produced simultaneously to work in conjunction as well as compensate with each other.
Therefore, there is a need for a thermal electric hybrid roofing system that eliminates the is problem of degradation of conversion rate when the ambient temperature on the roof goes beyond 85 degree Fahrenheit. Further, such a device would effectively utilize the sun's energy, would be self sustaining, aesthetically pleasing, and economical. Such a needed device would simultaneously generate thermal energy and electricity and manage to install more than 4 kw systems on the roof. The present invention accomplishes these objectives.
SUMMARY OF THE INVENTIONThe present invention is a building integrated thermal electric hybrid roofing system that comprises a plurality of metal battens mounted horizontally onto a plurality of wooden battens that is mounted vertically across a roof. Each of the plurality of metal battens includes a longitudinal channel that extends in a longitudinal direction on a pair of opposing sides thereof. A thermal tubing containing liquid is mounted on the plurality of metal battens. The thermal tubing extends on the longitudinal channels of each of the plurality of metal battens. A plurality of solar electric roof tiles is further included that is mounted on the plurality of metal battens. The plurality of solar roof tiles is a building integrated photovoltaic roof tile having a solar module that glued to an eternit tile. Each of the plurality of solar electric roof tiles is connected in series to form a string. The present invention further comprises an inverter connected to each of the strings, a heat exchanger connected to the thermal tubing, and a pump connected between the thermal is tubing and the heat exchanger for circulating the liquid running through the thermal tubing. The thermal tubing in the present invention may be PEX, brass, copper, or aluminum tubing and liquid running through the thermal tubing may be water or glycol.
The plurality of solar roof tiles generates DC electricity as the solar energy hits a surface of the plurality of solar roof tiles. The inverter converts the DC electricity to AC electricity and feeds to a utility grid. The plurality of metal battens collects the solar energy and converts into thermal energy through running liquid in the thermal tubing throughout the roof. The thermal energy is extracted down to the heat exchanger resulting in heating up the domestic water supply and providing domestic hot water. As the thermal energy is extracted to the heat exchanger, the plurality of solar electric roof tiles is cooled thereby making the plurality of solar electric roof tiles operate at high efficiency in converting the solar energy to DC electricity. In the preferred embodiment, a thermal system and an electric system operate simultaneously to generate domestic hot water and electricity respectively.
Each of the plurality of solar roof tiles is mounted on the plurality of metal battens using a storm anchor hook which is hammered into a hole provided in each of the plurality of metal battens. The metal batten alone holds the thermal tubing along the longitudinal channel thereon and the plurality of solar electric roof tiles.
Each of the plurality of solar roof tiles 20 is mounted on the plurality of metal battens 12 using a storm anchor hook 29 which is hammered into a hole (not shown) provided in each of the plurality of metal battens 12. The storm anchor hook 29 is designed in such a way that the plurality of solar roof tiles 20 overlaps each other. A plurality of holes (not shown) are drilled in advance on each of the plurality of metal battens 12 according to specified positions which saves time and also simplifies the installation procedures. The specified positions are based on the size of the plurality of solar electric roof tiles 20.
The spacing between the each of the plurality of metal battens 12 can be varied subject to the size of the plurality of solar electric roof tiles 20 and the required thermal specification. As the plurality of metal battens 12 are more tightly spaced, more thermal tubing 18 can be installed to achieve high thermo energy conversion efficiency. The main applications of the building integrated thermal electric hybrid roofing system 10 would be on both commercial and domestic slope roofs. However, the system could also be applied on curtain walls or facades on buildings. Yet another embodiment of the invention provides a stand alone system where the electric system alone can charge a plurality of batteries (not shown) by configuring the plurality of solar electric roof tiles 20 at 12, 24, and 48 volt strings.
Referring to
Still another embodiment of the invention may include a thermal system on a large roof with multiple roof plains shown in
While a particular form of the invention has been illustrated and described, it will be apparent that various modifications can be made without departing from the spirit and scope of the invention. Accordingly, it is not intended that the invention be limited, except as by the appended claims.
Claims
1. A building integrated thermal electric hybrid roofing system, comprising:
- a plurality of metal battens mounted horizontally onto a plurality of wooden battens that mounted vertically across a roof, each of the plurality of metal battens including a longitudinal channel that extends in a longitudinal direction on a opposing sides thereof; a thermal tubing containing liquid mounted and extending on the longitudinal channels of each of the plurality of metal battens; a plurality of solar electric roof tiles mounted on the plurality of metal battens, each of the plurality of solar electric roof tiles connected in series to form a string; an inverter connected to each string for converting direct current (DC) electricity that fed from the plurality of solar electric roof tiles to alternating current (AC) electricity; a heat exchanger connected to the thermal tubing; a pump connected between the thermal tubing and the heat exchanger for circulating the liquid through the thermal tubing; and a separate photovoltaic module and a cold water supply operatively connected to said pump for an independent working of the thermal systems; and whereby the thermal tubing and the plurality of solar electric roof tiles operate simultaneously to generate domestic hot water and electricity respectively.
2. The building integrated thermal electric hybrid roofing system of claim 1 wherein the plurality of solar roof tiles is a building integrated photovoltaic roof tile having a solar module that glued to an eternit tile.
3. The building integrated thermal electric hybrid roofing system of claim 1 wherein each of the plurality of solar roof tiles is mounted on the plurality of metal batten using a storm anchor hook which is hammered into a hole provided in each of the plurality of metal battens.
4. The building integrated thermal electric hybrid roofing system of claim 1 wherein the plurality of solar roof tiles generates DC electricity as the solar energy hits a surface of the plurality of solar roof tiles.
5. The building integrated thermal electric hybrid roofing system of claim 1 wherein the inverter converts the DC electricity to AC electricity and feeds to a utility grid.
6. The building integrated thermal electric hybrid roofing system of claim 1 wherein the plurality of metal battens collects the solar energy and converts into thermal energy through running the liquid in the thermal tubing throughout the roof.
7. The building integrated thermal electric hybrid roofing system of claim 6 wherein the thermal energy is extracted to the heat exchanger resulting in heating up the domestic water supply and providing domestic hot water.
8. The building integrated thermal electric hybrid roofing system of claim 7 wherein as the thermal energy is extracted to the heat exchanger, the plurality of solar electric roof tiles is cooled thereby making the plurality of solar electric roof tiles operate at high efficiency in converting the solar energy to DC electricity.
9. A method of mounting a building integrated thermal electric hybrid roofing system, comprising:
- a. mounting a plurality of metal battens horizontally onto a plurality of wooden battens that is mounted vertically across a roof, each of the plurality of metal battens includes a longitudinal channel that extends in a longitudinal direction on a pairof opposing sides thereof;
- b. mounting a thermal tubing containing liquid on the longitudinal channels of each of the plurality of metal battens;
- c. mounting a plurality of solar electric roof tiles on the plurality of metal battens using a storm anchor hook which is hammered into a hole provided in each of the plurality of metal battens;
- d. connecting each of the plurality of solar electric roof tiles in series to form a string;
- e. connecting an inverter to each string for converting the DC electricity that fed from the plurality of solar electric roof tiles to AC electricity;
- f. connecting a heat exchanger to the thermal tubing for extracting the thermal energy; and
- g. connecting a pump between the thermal tubing and the heat exchanger for circulating the liquid running through the thermal tubing.
- h. connecting a separate photovoltaic module and a cold water supply operatively connected to said pump for an independent working of the thermal systems
10. The method of claim 9 wherein the plurality of solar roof tiles is a building integrated photovoltaic roof tile having a solar module that glued to an eternit tile.
11. The method of claim 9 wherein the plurality of solar roof tiles generates DC electricity as the solar energy hits a surface of the plurality of solar roof tiles.
12. The method of claim 9 wherein the thermal energy is extracted to the heat exchanger resulting in heating up the domestic water supply and providing domestic hot water.
13. The method of claim 9 wherein as the thermal energy is extracted to the heat exchanger, the plurality of solar electric roof tiles is cooled thereby making the plurality of solar electric roof tiles operate at high efficiency in converting the solar energy to DC electricity.
Type: Application
Filed: Dec 22, 2010
Publication Date: Jun 28, 2012
Inventor: Frank Pao (Boston, MA)
Application Number: 12/976,326
International Classification: H01L 31/048 (20060101); F24J 2/04 (20060101); E04D 13/18 (20060101);