Patent application number | Description | Published |
20080276843 | Grating system and sidewall seal arrangement for oscillating grate stoker - The invention includes a grate system for a boiler. The grate system includes a grate unit and a side header guard. The grate unit supports fuel during combustion thereof, and has an upper surface, a lower surface, and upturned lateral edges. The side header guard is arranged along a side wall of the boiler and has upwardly and downwardly projecting fin portions. The upwardly projecting fin portion is adapted and configured to extend over and protect the boiler side wall from abrasion by fuel. The downwardly projecting fin portion is adapted and configured to extend over the upturned lateral edge of the grate unit, inhibiting passage of fuel therebetween. | 11-13-2008 |
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 |
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 |
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 |
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 |
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 |
Patent application number | Description | Published |
20090107377 | PERSONAL WATERCRAFT - A personal watercraft is disclosed, having a hull and sub-deck (HSD) assembly with left and right gunnels. A deck is disposed above the sub-deck. The left and right lateral edges of the deck are disposed vertically at least as low as the upper end of the left and right gunnels. The left lateral edge and the left gunnel define a left gap therebetween. The right lateral edge and the right gunnel define a right gap therebetween. A left seal member extends laterally outwardly from the left lateral edge. The left seal member extends into the left gap generally toward the left gunnel. A right seal member extends laterally outwardly from the right lateral edge. The right seal member extends into the right gap generally toward the right gunnel. | 04-30-2009 |
20090107378 | PERSONAL WATERCRAFT SUPENSION ARRANGEMENT - A personal watercraft has a hull and sub-deck (HSD) assembly. The sub-deck defines at least one first opening therein. A deck is disposed above the sub-deck. A suspension member passes through the at least one first opening and is disposed at least in part inside the HSD assembly. The suspension member has a first end pivotally connected to the deck. The suspension member has a second end pivotally connected to the HSD assembly. The suspension member has a fixed length. A suspension element has a first end connected to one of the deck, the HSD assembly, and the suspension member. The suspension element has a second end connected to another one of the deck, the HSD assembly, and the suspension member. | 04-30-2009 |
20090107379 | PERSONAL WATERCRAFT HAVING A SUSPENSION SYSTEM - A personal watercraft has a hull and sub-deck (HSD) assembly. A deck is disposed above the sub-deck. A first suspension member has a first end pivotally connected to the deck and a second end disposed rearwardly and downwardly of the first end pivotally connected to the HSD assembly. A second suspension member, disposed rearwardly of the first suspension member, has a first end pivotally connected to the deck and a second end disposed rearwardly and downwardly of the first end pivotally connected to the HSD assembly. The first and second suspension members each have a fixed length. A suspension element is connected between any two of: the deck, the HSD assembly, and one of the suspension members. The HSD assembly is movable relative to the deck between a first position and a second position that is upward and rearward of the first position. A watercraft suspension geometry is also disclosed. | 04-30-2009 |
20090107380 | PERSONAL WATERCRAFT HAVING AN ADJUSTABLE SUSPENSION - A personal watercraft has a hull and sub-deck (HSD) assembly, a deck above the sub-deck, and a suspension member pivotally connected therebetween. A suspension element, including a spring assembly, is connected between any two of the deck, the HSD assembly, and the suspension member. The spring assembly has first and second portions having first and second spring rates respectively. The second spring rate is greater than the first. A controller controls a lifting device to set an initial distance between the deck and the sub-deck to one of a first distance and a second distance greater than the first. The suspension element moves through a majority of a full stroke with the first portion of the spring assembly at least partially expanded when the initial distance is the first distance, and with the first portion of the spring assembly fully compressed when the initial distance is the second distance. | 04-30-2009 |
Patent application number | Description | Published |
20100153117 | Single action audio prompt interface utilising binary state time domain multiple selection protocol - An interface protocol for the functional manipulation of complex devices such as consumer electronic devices without the necessity of the visual feedback via textual or graphic data, wherein the sensor functions change with time rather than placement, so that a user action biases a binary state switch, which is correlated to a timed audible audio data stream, the correlation indicating the desired action selected by the user. | 06-17-2010 |
20120198340 | SINGLE ACTION AUDIO INTERFACE UTILISING BINARY STATE TIME DOMAIN MULTIPLE SELECTION PROTOCOL - An interface protocol for the functional manipulation of complex devices such as consumer electronic devices without the necessity of the visual feedback via textual or graphic data, wherein the sensor functions change with time rather than placement, so that a user action biases a binary state switch, which is correlated to a timed audible audio data stream, the correlation indicating the desired action selected by the user. | 08-02-2012 |
20140106820 | SINGLE ACTION SENSORY PROMPT INTERFACE UTILISING BINARY STATE TIME DOMAIN SELECTION PROTOCOL - A sensory prompted protocol for the manipulation of complex devices such as consumer electronic devices without the necessity of the visual feedback via textual or graphic data on a graphical user interface, wherein the binary state sensor functions change with time rather than placement, so that a user action biases a binary state input, which is correlated to a timed data stream, the correlation indicating the desired action selected by the user. | 04-17-2014 |