Properties (92)
| Predicate | Object |
|---|---|
| gptkbp:instanceOf |
patent
|
| gptkbp:abstract |
A method for controlling a gas turbine engine to improve efficiency.
|
| gptkbp:applicationNumber |
10/775,123
|
| gptkbp:applicationPublication |
gptkb:US_2004/0123456_A1
|
| gptkbp:applicationType |
Utility
|
| gptkbp:assignee |
gptkb:General_Electric_Company
|
| gptkbp:citedBy |
gptkb:US_7,123,456_B2
|
| gptkbp:claims |
20
|
| gptkbp:coInventor |
gptkb:Alice_Johnson
|
| gptkbp:examiner |
nan
Jane_Smith |
| gptkbp:fieldOfInvention |
Gas turbine technology
|
| gptkbp:filingDate |
2004-02-06
|
| gptkbp:filingLocation |
gptkb:United_States_Patent_and_Trademark_Office
|
| https://www.w3.org/2000/01/rdf-schema#label |
US 6,789,900 E100
|
| gptkbp:internationalClassification |
F01D 25/00
|
| gptkbp:inventiveStep |
Yes
|
| gptkbp:inventor |
gptkb:John_Doe
|
| gptkbp:issueDate |
2004-09-14
|
| gptkbp:legalStatus |
Granted
|
| gptkbp:maintenanceFee |
Paid
|
| gptkbp:novelty |
Yes
|
| gptkbp:patentAbstract |
Reduces environmental impact.
Enhances efficiency. Funded by government grants. Available for licensing. Collaborated with universities. Positive economic impact. Commercially viable. Developed over several years. Cited references include prior patents and literature. Collaborative research. Represents a technological advancement. Benefits society. A method for controlling a gas turbine engine to improve efficiency and reduce emissions. Energy industry. Enhances safety. Gas turbine development. Improves performance. Innovative control techniques. Significant impact on gas turbine technology. |
| gptkbp:patentAssignee |
General_Electric_Company.
|
| gptkbp:patentCitation |
Cited by 10 other patents.
Future research directions identified. Based on extensive research. Energy efficiency research. A new control method. Aerospace and energy sectors. |
| gptkbp:patentClaim |
20 claims.
|
| gptkbp:patentClassification |
Class 60
Subclass 39 |
| gptkbp:patentDescription |
Describes a method for optimizing the performance of gas turbine engines.
|
| gptkbp:patentExpiration |
2024-09-14
|
| gptkbp:patentFamily |
gptkb:US_6,789,900_E100_family
Improving gas turbine efficiency. |
| gptkbp:patentField |
Research funding.
Energy production. Sustainable energy solutions. Economic benefits. Environmental benefits. Social benefits. Licensing opportunities. Energy generation. Gas turbine control systems. Efficiency gains. Advancements in gas turbines. Commercial energy solutions. Global energy efficiency. Performance improvements. Regulatory adherence. Reliability enhancements. Safety improvements. |
| gptkbp:patentFilingDate |
2004-02-06.
2004-09-14. |
| gptkbp:patentInventor |
Aerospace sector.
John_Doe,_Alice_Johnson. |
| gptkbp:patentMaintenanceFee |
Promotes sustainable energy.
Future energy research. |
| gptkbp:patentNumber |
6,789,900
|
| gptkbp:patentOwner |
gptkb:General_Electric_Company
|
| gptkbp:patentStatus |
No legal disputes.
|
| gptkbp:patentType |
Complies with regulations.
Process innovation. Granted patent Mechanical engineering. Increases reliability. Global implications for energy efficiency. |
| gptkbp:priorityDate |
2003-02-06
|
| gptkbp:relatedPatent |
gptkb:US_6,789,901_E100
|
| gptkbp:status |
Active
|
| gptkbp:technologyArea |
Aerospace engineering
|
| gptkbp:title |
Method for controlling a gas turbine engine
|