| 1 |
LiMoNAED: A limited motion, non-shading, asymmetric, ecliptic-tracking dish
Kribus A, Ries H
Solar Energy, 73(5), 337, 2002 |
| 2 |
High-flux solar concentration with imaging designs
Feuerman D, Gordon JM, Ries H
Solar Energy, 65(2), 83, 1999 |
| 3 |
High-flux solar concentration with imaging designs. (vol 65, pg 83, 1999)
Feuermann D, Gordon JM, Ries H
Solar Energy, 65(6), 389, 1999 |
| 4 |
On the stability of solar chemical particle receivers
Ries H, Tschudi HR, Spirkl W
Journal of Solar Energy Engineering-Transactions of The ASME, 120(2), 96, 1998 |
| 5 |
Nontracking solar concentrators
Spirkl W, Ries H, Muschaweck J, Winston R
Solar Energy, 62(2), 113, 1998 |
| 6 |
Non-axisymmetric reflectors concentrating radiation from an asymmetric heliostat field onto a circular absorber
Spirkl W, Timinger A, Ries H, Kribus A, Muschaweck J
Solar Energy, 63(1), 23, 1998 |
| 7 |
High-flux photovoltaic solar concentrators with kaleidoscope-based optical designs
Ries H, Gordon JM, Lasken M
Solar Energy, 60(1), 11, 1997 |
| 8 |
Optimized compact secondary reflectors for parabolic troughs with tubular absorbers
Spirkl W, Ries H, Muschaweck J, Timinger A
Solar Energy, 61(3), 153, 1997 |
| 9 |
Compact high-flux two-stage solar collectors based on tailored edge-ray concentrators
Friedman RP, Gordon JM, Ries H
Solar Energy, 56(6), 607, 1996 |
| 10 |
Upper bounds for the yearly energy delivery of stationary solar concentrators and the implications for concentrator optical design
Gordon JM, Lasken M, Ries H
Solar Energy, 58(4), 197, 1996 |
