Patent application number | Description | Published |
20150294235 | ELECTRONIC MISCELLANEOUS DOCUMENT HANDLING IN RESPONSE TO INVOLUNTARY MODIFICATIONS OF ANCILLARY SERVICES - Methods, systems, and computer program products for handling electronic miscellaneous documents in response to involuntary modifications of services. A request, which includes first data for a passenger name record, is received for a change to an airline reservation. Second data for an electronic miscellaneous document that is linked to the first data for the passenger name record is also received. A determination is made as to whether the electronic miscellaneous document can be exchanged by applying at least one exchange eligibility rule to the first data for the passenger name record and the second data for the electronic miscellaneous document. If the electronic miscellaneous document can be exchanged, an exchange of the electronic miscellaneous document is automatically processed. | 10-15-2015 |
20150294236 | ELECTRONIC MISCELLANEOUS DOCUMENT HANDLING IN RESPONSE TO VOLUNTARY MODIFICATIONS OF ANCILLARY SERVICES - Methods, systems, and computer program products for handling electronic miscellaneous documents in response to voluntary modifications of services. A request, which includes first data for a passenger name record, is received for the airline reservation change. Second data for a first electronic miscellaneous document, which is linked to the first data for the passenger name record, is also received. A determination is made as to whether the first electronic miscellaneous document can be exchanged by applying at least one exchange eligibility rule to the first and second data. If the first electronic miscellaneous document can be exchanged, a fare for a service associated with the first electronic miscellaneous document is obtained from a pricing engine associated with the first electronic miscellaneous document. In response to receiving the fare for the service, the passenger name record is updated with a second electronic miscellaneous document including the fare for the service. | 10-15-2015 |
Patent application number | Description | Published |
20090107066 | WALL CONSTRUCTION AIR BARRIER SYSTEM - A wall construction air barrier system includes a foundation structure and a frame structure positioned on top of the foundation structure. The frame structure has an exterior surface and the frame structure includes a sill plate. At least one exterior sheathing is attached to the frame structure. The exterior sheathing has an interior surface. A continuous sealing gasket has a lateral portion positioned between the sill plate and the foundation structure and an extension portion positioned between the exterior surface of the frame structure and the interior surface of the exterior sheathing. | 04-30-2009 |
20130084445 | METHOD OF FORMING A WEB FROM FIBROUS MATERIAL - Fibrous material webs and methods of making the fibrous material webs. Binderless webs can be formed in a continuous process where fiber material, such as glass is melted and formed into fibers. The fibers are formed into a web of binderless glass fibers or a web with a dry binder. The binderless web or the web with dry binder can be layered and/or the fibers that make up the web can be mechanically entangled, for example, by needling. | 04-04-2013 |
20130266784 | METHOD OF FORMING A WEB FROM FIBROUS MATERIAL - Fibrous material webs and methods of making the fibrous material webs. Binderless webs can be formed in a continuous process where fiber material, such as glass is melted and formed into fibers. The fibers are formed into a web of binderless glass fibers or a web with a dry binder. The binderless web or the web with dry binder can be layered and/or the fibers that make up the web can be mechanically entangled, for example, by needling. | 10-10-2013 |
20140099851 | METHOD OF FORMING A WEB FROM FIBROUS MATERIAL - Fibrous material webs and methods of making the fibrous material webs. Binderless webs can be formed in a continuous process where fiber material, such as glass is melted and formed into fibers. The fibers are formed into a web of binderless glass fibers or a web with a dry binder. The binderless web or the web with dry binder can be layered and/or the fibers that make up the web can be mechanically entangled, for example, by needling. | 04-10-2014 |
20140245797 | METHOD OF FORMING A WEB FROM FIBROUS MATERIAL - Fibrous material webs and methods of making the fibrous material webs. Binderless webs can be formed in a continuous process where fiber material, such as glass is melted and formed into fibers. The fibers are formed into a web of binderless glass fibers or a web with a dry binder. The binderless web or the web with dry binder can be layered and/or the fibers that make up the web can be mechanically entangled, for example, by needling. | 09-04-2014 |
20140248815 | METHOD OF FORMING A WEB FROM FIBROUS MATERIALS - Fibrous material webs and methods of making the fibrous material webs. Binderless webs can be formed in a continuous process where fiber material, such as glass is melted and formed into fibers. The fibers are formed into a web of binderless glass fibers or a web with a dry binder. The binderless web or the web with dry binder can be layered and/or the fibers that make up the web can be mechanically entangled, for example, by needling. | 09-04-2014 |
20140364031 | METHOD OF FORMING A WEB FROM FIBROUS MATERIALS - Mechanically entangled, in-line formed, packs of glass fibers are mechanically entangled differently at different portions of the web. In one exemplary embodiment, in-line formed glass fibers are mechanically entangled by any combination of two or more entangling devices. The two or more entangling devices may be the same or different. In one exemplary embodiment, the glass fibers are mechanically entangled from at least a first side of a web by a first entangling device and are mechanically entangled from a second side of the web by a second entangling device. | 12-11-2014 |
Patent application number | Description | Published |
20120144870 | APPARATUS AND METHOD FOR CONTROLLING MOISTURE IN THE MANUFACTURE OF GLASS FIBER INSULATION - Apparatus, systems and methods for monitoring and controlling the amount of moisture introduced into the forming hood area in the manufacture of mineral fiber insulation products. Moisture from coolant liquids, binder dispersions and binder diluents are all introduced deliberately into a forming hood; ambient moisture and water from combustion are additional sources. A series of global variable control valves, one for each fluid system; as well as individual variable control valves for each fiberizing unit are provided with associated meters. Sensors monitor fibrous pack conditions and ambient conditions and provide inputs to the valve control system. A specific 3-ring liquid dispensing system is also disclosed. | 06-14-2012 |
20130152638 | APPARATUS AND METHOD FOR CONTROLLING MOISTURE IN THE MANUFACTURE OF GLASS FIBER INSULATION - Apparatus, systems and methods for monitoring and controlling the amount of moisture introduced into the forming hood area in the manufacture of mineral fiber insulation products. Moisture from coolant liquids, binder dispersions and binder diluents are all introduced deliberately into a forming hood; ambient moisture and water from combustion are additional sources. A series of global variable control valves, one for each fluid system; as well as individual variable control valves for each fiberizing unit are provided with associated meters. Sensors monitor fibrous pack conditions and ambient conditions and provide inputs to the valve control system. A specific 3-ring liquid dispensing system is also disclosed. | 06-20-2013 |
20150068253 | APPARATUS AND METHOD FOR CONTROLLING MOISTURE IN THE MANUFACTURE OF GLASS FIBER INSULATION - Apparatus, systems and methods for monitoring and controlling the amount of moisture introduced into the forming hood area in the manufacture of mineral fiber insulation products. Moisture from coolant liquids, binder dispersions and binder diluents are all introduced deliberately into a forming hood; ambient moisture and water from combustion are additional sources. A series of global variable control valves, one for each fluid system; as well as individual variable control valves for each fiberizing unit are provided with associated meters. Sensors monitor fibrous pack conditions and ambient conditions and provide inputs to the valve control system. A specific | 03-12-2015 |
Patent application number | Description | Published |
20090081096 | Method and means for capture and long-term sequestration of carbon dioxide - The invention teaches a practical method of recovering CO | 03-26-2009 |
20120237420 | Absorber - An absorber is provided which utilizes a solvent froth to absorb a selected component, such as CO2 for example, from a flowing gas stream, such as flue gas from a fossil fuel power plant, for example. In one embodiment, a flooded tube gas absorber utilizes a bulkhead plate extending across a reaction chamber. The plate carries a plurality of vertical absorption tubes, each carrying a plurality of spaced apart screens. The incoming gas stream flows downwardly and at equal velocities through the tubes. Solvent is injected downwardly into the tubes. The screen array forms a froth and rapidly and repeatedly bursts the froth bubbles, forming a rapidly changing absorption surface. A second embodiment uses full diameter screens without a bulkhead plate. An option is to use ridge shaped screens to achieve solvent pulsing, increasing efficiency. Both vertical and horizontal reaction chambers are disclosed. | 09-20-2012 |
20140245887 | Absorber - An absorber is provided which uses a liquid solvent formed into a myriad of bubbles and micro-droplets. The solvent froth is a solvent for a selected component in an incoming gas stream. A plurality of spaced apart mesh assemblies is placed in one or more absorber tubes or in a reaction vessel. Using screens having cross-sections that are substantially rectangular wave in design together with proper operating parameters, the phenomenon of solvent pulsing is induced and maintained, maximizing efficiency of the absorber. | 09-04-2014 |