Patent application number | Description | Published |
20100199974 | SOLAR RECEIVER PANELS - A boiler for a solar receiver includes a plurality of boiler panels arranged side by side with each other so that the panels form a boiler wall section. Piping fluidly connects the plurality of boiler panels together to route a working fluid through the boiler wall section from an inlet of the boiler wall section to an outlet of the boiler wall section. The piping and boiler panels are configured and adapted to route the working fluid through each of the boiler panels in a common direction. | 08-12-2010 |
20100199976 | SPRAY STATIONS FOR TEMPERATURE CONTROL IN SOLAR BOILERS - A boiler for a solar receiver includes a plurality of solar receiver panels. The panels are fluidly connected to one another by way of a steam circuit. At least one spray station is in fluid communication with the steam circuit and is configured and adapted to provide temperature cooling spray into the steam circuit to control the temperatures of the panels. | 08-12-2010 |
20100199977 | PANEL SUPPORT SYSTEM FOR SOLAR BOILERS - A boiler for a solar receiver includes a panel support structure. A boiler stay is operatively connected to the panel support structure. A panel stay is slideably engaged to the boiler stay. A boiler panel is operatively connected to the panel stay with the panel stay being affixed to a plurality of tubes of the panel. The boiler stay and panel support assemblies are configured and adapted to slide with respect to one another to accommodate thermal expansion of the boiler panel. In certain embodiments, a pin connects the boiler stay and the panel stay, wherein the pin is removable for installation and removal of the panel from the support structure. | 08-12-2010 |
20100199978 | ARRANGEMENT OF TUBING IN SOLAR BOILER PANELS - A boiler for a solar receiver includes a first boiler panel having a plurality of tubes fluidly connecting an inlet header of the first boiler panel to an outlet header of the first boiler panel. The tubes of the first boiler panel form a first solar receiver surface. A second boiler panel has a plurality of tubes fluidly connecting an inlet header of the second boiler panel to an outlet header of the second boiler panel. The tubes of the second boiler panel form a second solar receiver surface. The first and second boiler panels are adjacent to one another with a portion of the first boiler panel and an end of the first solar receiver surface overlapping an end of the second boiler panel to reduce solar radiation passing between the first and second solar receiver surfaces. | 08-12-2010 |
20100199979 | CORNER STRUCTURE FOR WALLS OF PANELS IN SOLAR BOILERS - A boiler for a solar receiver includes a first wall of substantially coplanar side by side boiler panels. A plurality of contiguous panels of the first wall each have an inlet header thereof at a common first wall header elevation. A second wall includes substantially coplanar side by side boiler panels. A plurality of contiguous panels of the second wall each have an inlet header thereof at a common second wall header elevation. The second wall is adjacent to and angled with respect to the first wall so that one end panel of the first wall is adjacent to one end panel of the second wall to form a boiler wall corner. The inlet headers of the two end panels of the boiler wall corner are at different elevations relative to one another. | 08-12-2010 |
20100199980 | EXPANSION JOINTS FOR PANELS IN SOLAR BOILERS - A boiler for a solar receiver includes a first receiver panel having a plurality of substantially parallel boiler tubes fluidly connecting an inlet header of the panel to an outlet header of the panel. A second receiver panel has a plurality of substantially parallel boiler tubes fluidly connecting an inlet header of the panel to an outlet header of the panel. The boiler tubes of the second receiver panel are substantially parallel to the boiler tubes of the first receiver panel. The first and second receiver panels are separated by a gap. A panel expansion joint is connected to the first and second receiver panels across the gap, wherein the panel expansion joint is configured and adapted to allow for lengthwise thermal expansion and contraction of the receiver panels along the boiler tubes, and to allow for lateral thermal expansion and contraction of the receiver panels toward and away from one another, while blocking solar radiation through the gap. | 08-12-2010 |
20110079217 | PIPING, HEADER, AND TUBING ARRANGEMENTS FOR SOLAR BOILERS - A header system for fluid circulation in a boiler includes a header configured to conduct fluid therethrough for circulating fluids in a boiler. A plurality of suction lines are connected in fluid communication with the header. Each suction line is configured and adapted to connect a respective pump in fluid communication with the header. A plurality of downcomers are connected in fluid communication with the header. Each downcomer is configured and adapted to connect the header in fluid communication with a steam drum. The header, suction lines, and downcomers are configured and adapted to draw substantially equal amounts of fluid from each of the downcomers even when flow is uneven among the suction lines. A plurality of cascaded headers can fluidly connect the circulation header to a steam generator. The plurality of cascaded headers is configured and adapted to provide a substantially equal flow to panels of the steam generator. | 04-07-2011 |
20110114085 | HEAT TRANSFER PASSES FOR SOLAR BOILERS - A boiler for a solar receiver includes a plurality of boiler walls arranged end to end surrounding a boiler interior space. Each wall includes a plurality of side by side solar receiver panels. The panels are fluidly connected to one another by way of a steam circuit. The boiler also includes a plurality of conduits each forming a portion of the steam circuit fluidly connecting the panels. The panels and conduits form a plurality of heat transfer passes in the steam circuit. In certain embodiments, the steam circuit includes between two and ten passes, inclusively. | 05-19-2011 |
20110209697 | MODULAR SOLAR RECEIVER PANELS AND SOLAR BOILERS WITH MODULAR RECEIVER PANELS - A modular panel for a solar boiler includes an inlet header, an outlet header, and a plurality of tubes fluidly connecting the inlet header to the outlet header. The tubes are substantially coplanar with one another forming a solar receiver surface and an opposed internal surface. The panel is modular in terms of height, width, number of tubes, and size of tubes, for improved handling of high heat flux and resultant thermally induced stresses. | 09-01-2011 |
20120031395 | STARTUP SYSTEMS AND METHODS FOR SOLAR BOILERS - A startup system for a solar boiler includes a main fluid circuit having a plurality of solar boiler panels for generating power from solar energy. An auxiliary fluid circuit is selectively connected in fluid communication with the main fluid circuit by a plurality of valves. An auxiliary boiler is operatively connected to the auxiliary fluid circuit. The valves connecting the auxiliary fluid circuit to the main fluid circuit are configured to be opened and closed to selectively place the auxiliary boiler in fluid communication with portions of the main fluid circuit to supply heat to the portions of the main fluid circuit in preparation to produce power from solar energy. | 02-09-2012 |
20120199117 | SYSTEMS AND METHODS FOR SOLAR BOILER CONSTRUCTION - A solar boiler includes a plurality of solar boiler panels forming a perimeter surrounding a boiler interior space. A support structure within the boiler interior space supports the solar boiler panels. A steam/water vessel, such as a steam drum, is mounted to the support structure within the boiler interior space. A method of constructing a solar boiler includes raising a steam/water vessel, such as a steam drum, through a leave-out area in a boiler support structure. The method also includes mounting the steam/water vessel within the boiler support structure below an upper extent of the boiler support structure. | 08-09-2012 |
20120298098 | CORNER STRUCTURE FOR WALLS OF PANELS IN SOLAR BOILERS - A boiler for a solar receiver includes a first wall of substantially coplanar side by side boiler panels. A plurality of contiguous panels of the first wall each have an inlet header thereof at a common first wall header elevation. A second wall includes substantially coplanar side by side boiler panels. A plurality of contiguous panels of the second wall each have an inlet header thereof at a common second wall header elevation. The second wall is adjacent to and angled with respect to the first wall so that one end panel of the first wall is adjacent to one end panel of the second wall to form a boiler wall corner. The inlet headers of the two end panels of the boiler wall corner are at different elevations relative to one another. | 11-29-2012 |
20120304982 | ARRANGEMENT OF TUBING IN SOLAR BOILER PANELS - A boiler for a solar receiver includes a first boiler panel having a plurality of tubes fluidly connecting an inlet header of the first boiler panel to an outlet header of the first boiler panel. The tubes of the first boiler panel form a first solar receiver surface. A second boiler panel has a plurality of tubes fluidly connecting an inlet header of the second boiler panel to an outlet header of the second boiler panel. The tubes of the second boiler panel form a second solar receiver surface. The first and second boiler panels are adjacent to one another with a portion of the first boiler panel and an end of the first solar receiver surface overlapping an end of the second boiler panel to reduce solar radiation passing between the first and second solar receiver surfaces. | 12-06-2012 |
20140034045 | STARTUP SYSTEMS AND METHODS FOR SOLAR BOILERS - A startup system for a solar boiler includes a main fluid circuit having a plurality of solar boiler panels for generating power from solar energy. An auxiliary fluid circuit is selectively connected in fluid communication with the main fluid circuit by a plurality of valves. An auxiliary boiler is operatively connected to the auxiliary fluid circuit. The valves connecting the auxiliary fluid circuit to the main fluid circuit are configured to be opened and closed to selectively place the auxiliary boiler in fluid communication with portions of the main fluid circuit to supply heat to the portions of the main fluid circuit in preparation to produce power from solar energy. | 02-06-2014 |
20140215824 | SYSTEMS AND METHODS FOR SOLAR BOILER CONSTRUCTION - A solar boiler includes a plurality of solar boiler panels forming a perimeter surrounding a boiler interior space. A support structure within the boiler interior space supports the solar boiler panels. A steam/water vessel, such as a steam drum, is mounted to the support structure within the boiler interior space. A method of constructing a solar boiler includes raising a steam/water vessel, such as a steam drum, through a leave-out area in a boiler support structure. The method also includes mounting the steam/water vessel within the boiler support structure below an upper extent of the boiler support structure. | 08-07-2014 |
20150027437 | EXPANSION JOINTS FOR PANELS IN SOLAR BOILERS - A boiler for a solar receiver includes a first receiver panel having a plurality of substantially parallel boiler tubes fluidly connecting an inlet header of the panel to an outlet header of the panel. A second receiver panel has a plurality of substantially parallel boiler tubes fluidly connecting an inlet header of the panel to an outlet header of the panel. The boiler tubes of the second receiver panel are substantially parallel to the boiler tubes of the first receiver panel. The first and second receiver panels are separated by a gap. A panel expansion joint is connected to the first and second receiver panels across the gap, wherein the panel expansion joint is configured and adapted to allow for lengthwise thermal expansion and contraction of the receiver panels along the boiler tubes, and to allow for lateral thermal expansion and contraction of the receiver panels toward and away from one another, while blocking solar radiation through the gap. | 01-29-2015 |