Patent application number | Description | Published |
20130265665 | CONCENTRATING SOLAR ENERGY COLLECTOR - Systems, methods, and apparatus by which solar energy may be collected to provide heat, electricity, or a combination of heat and electricity are disclosed herein. | 10-10-2013 |
20140076306 | Concentrating Solar Energy Collector - Systems, methods, and apparatus by which solar energy may be collected to provide heat, electricity, or a combination of heat and electricity are disclosed herein. | 03-20-2014 |
20140076380 | Concentrating Solar Energy Collector - Systems, methods, and apparatus by which solar energy may be collected to provide heat, electricity, or a combination of heat and electricity are disclosed herein. | 03-20-2014 |
20140196764 | CONCENTRATING SOLAR ENERGY COLLECTOR - Systems, methods, and apparatus by which solar energy may be collected to provide electricity, heat, or a combination of electricity and heat are disclosed herein. | 07-17-2014 |
20140261632 | CONCENTRATING SOLAR ENERGY COLLECTOR - Systems, methods, and apparatus by which solar energy may be collected to provide electricity, heat, or a combination of electricity and heat are disclosed herein. | 09-18-2014 |
Patent application number | Description | Published |
20140076379 | CONCENTRATING SOLAR ENERGY COLLECTOR - Systems, methods, and apparatus by which solar energy may be collected to provide heat, electricity, or a combination of heat and electricity are disclosed herein. | 03-20-2014 |
20140076480 | CONCENTRATING SOLAR ENERGY COLLECTOR - Systems, methods, and apparatus by which solar energy may be collected to provide heat, electricity, or a combination of heat and electricity are disclosed herein. | 03-20-2014 |
20140090707 | CONCENTRATING SOLAR ENERGY COLLECTOR - Systems, methods, and apparatus by which solar energy may be collected to provide heat, electricity, or a combination of heat and electricity are disclosed herein. | 04-03-2014 |
20140102510 | CONCENTRATING SOLAR ENERGY COLLECTOR - Systems, methods, and apparatus by which solar energy is efficiently collected to provide heat, electricity, or a combination of heat and electricity include a solar energy collector having a receiver, a first reflector and a second reflector arranged end-to-end such that an edge of the first reflector overlaps an edge of the second receiver; and a support structure that accommodates movement of the receiver, rotation of the reflectors, or rotation of the receiver and the reflectors about an axis parallel to a long axis of the receiver. The support structure has reflector supports oriented transverse to the rotation axis and reflectors are securable to the reflector support. | 04-17-2014 |
Patent application number | Description | Published |
20110257350 | Polymer mitigation - Ethylene is selectively oligomerized in a continuously stirred tank reactor (CSTR) that is preferably operated in an isothermal manner using a chromium catalyst. The undesired formation of by-product polyethylene is mitigated by contacting the ethylene with hydrogen prior to adding the ethylene to the reactor and feeding the ethylene and hydrogen via a common feed port. | 10-20-2011 |
20120142989 | HEAT MANAGEMENT IN ETHYLENE OLIGOMERIZATION - The oligomerization of ethylene using a chromium catalyst having a heteroatomic ligand may be used to provide oligomerization products that are selective towards hexene and/or octene. However, such processes also typically produce some polymer as an undesirable by product. The present invention is directed towards improvements in the selective oligomerization of ethylene. | 06-07-2012 |
20140076209 | INDUSTRIAL FURNACE - The dry oxygen content in the exhaust of an industrial furnace may be controlled to | 03-20-2014 |
20140178256 | Serpentine Fluid Reactor Components - Some embodiments of the present invention provide components for a serpentine fluid reactor which is optimized for one or more objective functions of interest such as pressure drop, erosion rate, fouling, coke deposition and operating costs. The components are designed by computer modeling the components individually and collectively in which the cross section of flow path is substantially circular under industrial conditions to validate the model design and its operation. Then iteratively the component designs are deformed and the operation of the deformed part(s) is modeled and compared to values obtained with other deformed models until the value of the objective function is optimized (e.g. at an extreme) or the change in the objective function is approaching zero. | 06-26-2014 |
20140178610 | TRANSFER LINE EXCHANGER - The present invention provides a transfer line exchanger which is optimized for one or more objective functions of interest such as pressure drop, erosion rate, fouling, coke deposition and operating costs. The transfer line exchanger is designed by computer modeling a transfer line exchanger in which the cross section of flow path is substantially circular and modeling the operation of the transfer line under industrial conditions to validate the model design and its operation. Then iteratively the model design is deformed and the operation of the deformed part is modeled and compared to values obtained with other deformed models until the value of the objective function is optimized (e.g. at an extreme) or the change in the objective function is approaching zero. | 06-26-2014 |
20150260632 | SERPENTINE FLUID REACTOR COMPONENTS - Some embodiments of the present invention provide components for a serpentine fluid reactor which is optimized for one or more objective functions of interest such as pressure drop, erosion rate, fouling, coke deposition and operating costs. The components are designed by computer modeling the components individually and collectively in which the cross section of flow path is substantially circular under industrial conditions to validate the model design and its operation. Then iteratively the component designs are deformed and the operation of the deformed part(s) is modeled and compared to values obtained with other deformed models until the value of the objective function is optimized (e.g. at an extreme) or the change in the objective function is approaching zero. | 09-17-2015 |