A method for concentrated photovoltaic-thermal power generation includes converting a first portion of concentrated sunlight into electrical power when the first portion of concentrated sunlight illuminates an array of photovoltaic cells; and thermally coupling heat generated by the photovoltaic cells into a heat transfer plate. The method also includes cooling the heat transfer plate by flowing heat transfer fluid through an internal path of a cooling block in direct thermal contact with the heat transfer plate; and flowing the heat transfer fluid through a helical tube to absorb thermal energy from a second portion of concentrated sunlight illuminating the helical tube.

The present invention discloses a receiver for a concentrated thermal system. The thermal system includes a first heat exchange element helically coiled to receive a solar radiation from a first reflector and the second heat exchange element. Further, the first heat exchange element includes a first end and a second end to enable circulation of a heat exchange fluid in the first heat exchange element. The second heat exchange element being a helically coiled element is extending from and fluidically connected to the first end of the first heat exchange element. Further, the second heat exchange element is configured to receive absorb a part of solar radiation to preheat the heat exchange fluid flowing therein.

The present invention discloses a receiver for a concentrated thermal system. The thermal system includes a first heat exchange element helically coiled to receive a solar radiation from a first reflector and the second heat exchange element. Further, the first heat exchange element includes a first end and a second end to enable circulation of a heat exchange fluid in the first heat exchange element. The second heat exchange element being a helically coiled element is extending from and fluidically connected to the first end of the first heat exchange element. Further, the second heat exchange element is configured to receive absorb a part of solar radiation to preheat the heat exchange fluid flowing therein.