High temperature sub-critical boiler with steam cooled upper furnace and start-up methods

We claim: 1. A boiler comprising: a an upper furnace including a plurality of steam-cooled membrane walls, the steam-cooled membrane walls comprising pipes sealed by membrane disposed between and connected to the pipes, the plurality of steam-cooled membrane walls including an upper furnace front wall and upper furnace side walls; a convection pass downstream of the upper furnace, the convection pass having steam-cooled membrane walls and extending downwards; wherein the upper furnace and the convection pass share a common steam-cooled membrane wall, the common steam-cooled membrane wall comprising pipes sealed by membrane disposed between and connected to the pipes, and the common steam-cooled membrane wall being both a wall of the upper furnace and a wall of the convection pass; a primary superheater comprising pipes without membrane, the primary superheater being disposed in the convection pass; a secondary superheater disposed in the upper furnace; a steam separator having a dry steam outlet; running sequentially from the dry steam outlet to the primary superheater, through the common steam-cooled membrane wall and the upper furnace front wall, to the upper furnace side walls, and to the secondary superheater; startup control circuitry configured to (i) reduce flow to the primary superheater and (ii) divert flow from the dry steam outlet of the steam separator to the steam-cooled membrane walls of the upper furnace through a valved diversion path that bypasses the primary superheater. 2. The boiler of claim 1 , wherein the startup control circuitry includes: at least one diversion valve that when opened opens the diversion path; and at least one reduction valve in the steam-cooled circuit that is operative to reduce flow through the primary superheater. 3. The boiler of claim 2 , wherein the startup control circuitry further includes an electronic controller configured to set the startup control circuitry into one of: a startup mode in which the at least one diversion valve is opened and the at least one reduction valve is operated to reduce flow through the primary superheater; or a normal operating mode in which the at least one diversion valve is closed and the at least one reduction valve is fully open. 4. The boiler of claim 1 , wherein the startup control circuitry further includes an electronic controller configured to set the startup control circuitry into one of: a startup mode in which the valved diversion path is open and the at least one reduction valve is operated to reduce flow through the primary superheater; or a normal operating mode in which the valved diversion path is closed and the at least one reduction valve is fully open. 5. The boiler of any one of claim 1 , 2 , 3 , or 4 , wherein the furnace further comprises: a water-cooled lower furnace formed by water-cooled membrane walls that comprise pipes sealed by membrane, the water-cooled membrane walls not being included in the steam-cooled circuit connected to the dry steam outlet of the steam separator. 6. A boiler, comprising: a an upper furnace; a convection pass downstream of the upper furnace, the convection pass extending downwards; wherein the upper furnace and the convection pass share a common steam-cooled membrane wall, the common steam-cooled membrane wall comprising pipes sealed by membrane disposed between and connected to the pipes, and the common steam-cooled membrane wall being both a wall of the upper furnace and a wall of the convection pass; a steam separator having a dry steam outlet; one or more primary superheaters comprising pipes without membrane, the one or more primary superheaters being disposed in the convection pass; one or more secondary superheaters comprising pipes without membrane, the one or more secondary superheaters being disposed in the upper furnace; a steam-cooled circuit running from the dry steam outlet to the one or more primary superheaters and subsequently to the common steam-cooled membrane wall and then to the one or more secondary superheaters, and containing one or more reduction valves between the one or more primary superheaters and the common steam-cooled membrane wall; a diversion path running from the dry steam outlet through one or more diversion valves to a location upstream of the common steam-cooled membrane wall and downstream of the one or more primary superheaters; and control circuitry for switching dry steam flow from the steam separator through the steam-cooled circuit or the diversion path. 7. The boiler of claim 6 , wherein the control circuitry includes an electronic controller configured to operate the one or more reduction valves and the one or more diversion valves. 8. The boiler of claim 6 , wherein the convection pass further comprises a plurality of steam-cooled convection pass membrane walls, the plurality including a rear wall and side walls, the rear wall and the side walls being located upstream of the one or more primary superheaters in the steam-cooled circuit. 9. The boiler of claim 6 , wherein the furnace further comprises: a water-cooled lower furnace formed by water-cooled membrane walls, the water-cooled membrane walls comprising pipes sealed by membrane disposed between and connected to the pipes, and the water-cooled membrane walls not being included in the steam-cooled circuit connected to the dry steam outlet of the steam separator.