Parabolic trough concentrating solar collector

1. A concentrating solar collector for use in a solar energy system, said collector comprising a radiation reflective surface having the configuration of a paraboloid of translation, said paraboloid defining a focal line that is spaced from the parabolic cross section of said surface and extends in a direction transverse to the axis of said parabolic cross section, one of the outermost extremities of said reflective surface being defined by an elongated lip that is positioned substantially in a plane passing through said focal line and oriented perpendicular to said axis, and means for supporting an elongated solar energy receiver along said focal line, said receiver having an elongated entrance aperture of fixed dimensions therein for admission of solar energy reflected by said surface, said entrance aperture being oriented at an angle to said axis, the plane of said entrance aperture being displaced from said axis by a fixed angle in the range of 20.degree. to 40.degree..

2. The solar collector of claim 1 wherein said angle is substantially 29.degree..

3. The solar collector of claim 1 wherein another of the outermost extremities of said reflective surface passes through the apex of said parabolic cross section and lies in a plane disposed along said axis and disposed substantially parallel to said elongated lip.

4. The solar collector of claim 1 wherein the width of said entrance aperture is substantially equal to 2.28y.sub.o tan a, where y.sub.o is the distance between said lip and said axis, and a is the angular radius of the sun relative to said reflector.

5. The solar collector of claim 1 wherein said receiver includes a pair of said elongated entrance apertures spaced from one another, said surface comprising, in cross section, a pair of parabolic sections which are associated with said pair of apertures respectively and which are connected to one another adjacent the apices of said parabolic sections by an intervening flat region extending in a plane parallel to the focal lines of said sections.

6. The collector of claim 5 wherein said intervening flat region has a width substantially equal to the diameter of said receiver, the planes of said pair of apertures being oriented respectively in opposite angular directions relative to the axes of said parabolic sections.

7. The collector of claim 6 wherein the axial extent of each of said sections terminates substantially at a plane oriented perpendicular to the axis of said section and passing through the focal line of said section.

8. A concentrating solar collector for use in a solar energy system, comprising a radiation reflective surface which includes a pair of paraboloids, the axial extent of each said paraboloid being substantially confined between a first plane lying along the axis of the parabolic cross section of said paraboloid and passing through the apex of said paraboloid and a second plane oriented perpendicular to said axis and passing through the focus of said parabolic cross section, said collector including a solar energy receiver having a pair of elongated fixed entrance apertures therein which are oppositely disposed to one another and which are associated with said pair of paraboloids respectively, each of said apertures being disposed substantially along the focal line of an associated one of said paraboloids for the admission to said receiver of solar energy reflected by said paraboloid with the plane of said entrance aperture being disposed at an angle to said axis, and said pair of paraboloids being interconnected to one another adjacent their respective apices by an intervening elongated flat region which separates said apices from one another by a distance substantially equal to the diameter of said solar energy receiver.

9. The collector of claim 8 wherein said angle is substantially 29.degree..+-.10.degree..

10. The collector of claim 9 wherein the width of each said entrance aperture is substantially equal to 2.28 y.sub.o tan a, where y.sub.o is the distance relative to the associated one of said paraboloids along said second plane between said axis and said paraboloid, and a is the angular radius of the sun relative to said paraboloid.

11. The collector of claim 10 wherein each said paraboloid is a paraboloid of translation.