Photovoltaic roofing systems with inside corner flashings

What is claimed is: 1. A photovoltaic roofing system disposed on a roof deck having a top end, a bottom end, a first lateral side and a second lateral side opposing the first lateral side, the photovoltaic roofing system comprising: a first course comprising one or more photovoltaic roofing elements, contiguously disposed in a horizontal row on the roof deck, the one or more contiguously-disposed photovoltaic roofing elements of the first course together having a top edge facing the top end of the roof deck, a bottom edge facing the bottom end of the roof deck, a first side edge facing the first lateral side of the roof deck, and a second side edge opposing the first side edge and facing the second lateral side of the roof deck; a second course horizontally offset from the first course, the second course comprising one or more photovoltaic roofing elements, contiguously disposed in a horizontal row on the roof deck, the one or more contiguously disposed photovoltaic roofing elements of the second course together having a bottom edge facing the bottom end of the roof deck and at least partially overlapping the top edge of the one or more contiguously-disposed photovoltaic roofing elements of the first course, the one or more contiguously disposed photovoltaic roofing elements of the second course together having a first side edge facing the first lateral side of the roof deck, the first side edge being laterally offset from the first side edge of the one or more contiguously-disposed photovoltaic roofing elements of the first course, such that the first side edge of the one or more contiguously-disposed photovoltaic roofing elements of the second course is disposed up the roof from an interior portion of the top edge of the one or more contiguously-disposed photovoltaic roofing elements of the first course, thereby forming an inside corner between the first side edge of the one or more contiguously-disposed photovoltaic roofing elements of the second course and the interior portion of the top edge of the one or more contiguously-disposed photovoltaic roofing elements of the first course; and a second side edge opposing the first side edge and facing the second lateral side of the roof deck; an inside corner flashing element having a top edge, a first horizontal portion having a first side edge facing the second lateral side of the roof deck and a bottom edge, a second horizontal portion horizontally adjacent the first horizontal portion, the second horizontal portion having a second side edge opposing the first side edge of the first horizontal portion and facing the first lateral side of the roof deck, and a bottom edge adjacent the bottom edge of the first horizontal portion, the second horizontal portion having a height with respect to the roof deck, the height being tapered along a direction from its bottom edge toward its top edge with the height being less towards the top edge than it is towards the bottom edge, the first horizontal portion comprising a horizontally-extending flange forming a water-resistant interface with the photovoltaic roofing element at the first side edge of the one or more contiguously-disposed photovoltaic roofing elements of the second course, the second horizontal portion overlapping the top edge of a photovoltaic roofing element of the first course at an interior portion of the top edge of the one or more contiguously-disposed photovoltaic roofing elements of the first course; and an inactive roofing element disposed adjacent the first side edge of the second course and on top of the second horizontal portion of the inside corner flashing element. 2. The photovoltaic roofing system of claim 1 , wherein a height with respect to the roof deck of the second horizontal portion of the inside corner flashing element is continuously tapered from its bottom edge toward its top edge. 3. The photovoltaic roofing system of claim 1 , wherein a height with respect to the roof deck of the second horizontal portion of the inside corner flashing element is tapered along only a portion of the distance from the bottom edge to the top edge. 4. The photovoltaic roofing system of claim 1 , wherein the horizontally-extending flange of the first horizontal portion of the inside corner flashing element forms a water-resistant interface with the photovoltaic roofing element at the first side edge of the second course by being disposed under it. 5. The photovoltaic roofing system claim 1 , wherein the horizontally-extending flange of the first horizontal portion of the inside corner flashing element overlaps the top edge of a photovoltaic roofing element of the first course. 6. The photovoltaic roofing system of claim 1 , wherein the second horizontal portion of the inside corner flashing element forms a cavity over the top edge of the photovoltaic roofing element of the first course, the cavity having a thickness in the range of about 1 cm to about 15 cm. 7. The photovoltaic roofing system of claim 1 , wherein the top surface of the second horizontal portion of the inside corner flashing element is disposed at a level in the range of about 1 cm to about 15 cm higher than the horizontally-extending flange of the first horizontal portion, at least at its bottom edge. 8. The photovoltaic roofing system of claim 1 , wherein the inside corner flashing element is formed as a unitary piece. 9. The photovoltaic roofing system of claim 1 , wherein the inside corner flashing element is formed as a plurality of pieces. 10. The photovoltaic roofing system of claim 1 , wherein the inside corner forms an angle of about 90°. 11. The photovoltaic roofing system of claim 1 , wherein the second horizontal portion of the inside corner flashing element is disposed over a horizontal joint between two adjacent photovoltaic roofing elements of the first course. 12. The photovoltaic roofing system according to claim 1 , wherein each photovoltaic roofing element comprises a frame structure having an upward-facing surface and a downward-facing surface, the frame structure having an attachment zone and an exposure zone, with the exposure zone disposed toward the bottom end of the frame structure, and the attachment zone disposed toward the top end of the frame structure; and one or more photovoltaic elements held in the exposure zone of the frame structure. 13. The photovoltaic roofing system according to claim 12 , wherein the sidelap portions of the photovoltaic roofing elements interlock to provide water drainage channels. 14. The photovoltaic roofing system according to claim 1 , further comprising a top flashing element disposed along the top edge of the first course of contiguously-disposed photovoltaic roofing elements that extends away from the second horizontal portion of the inside corner flashing element, the top flashing element having a bottom end disposed over the top edge of one or more of the contiguously-disposed photovoltaic roofing elements of the first course; and a top end disposed under one or more roofing elements disposed along the top edge of the one or more of the contiguously-disposed photovoltaic roofing elements of the first course, wherein the second horizontal portion of the inside corner flashing element and the top flashing element are arranged in an overlapping manner with respect to one another. 15. The photovoltaic roofing system according to claim 14 , wherein the second horizontal portion of the inside corner flashing element overlaps the top flashing element. 16. The photovoltaic roofing system of claim 1 , wherein the horizontally-extending flange of the first horizontal portion of the insid