US 6,789,015 G68 Family

URI: https://gptkb.org/entity/US_6%2C789%2C015_G68_Family

GPTKB entity

Statements (61)

Predicate	Object
gptkbp:instanceOf	Patent
gptkbp:communityFeedback	Positive.
gptkbp:hasAbstract	A method for improving efficiency in gas turbine engines.
gptkbp:hasAssignee	gptkb:General_Electric_Company
gptkbp:hasCitations	Cited by 10 patents
gptkbp:hasCitedPatent	US_6,123,456. US_6,789,002. US_6,654,321. US_6,789,000. US_6,789,001.
gptkbp:hasClaim	20
gptkbp:hasCollaboratedWith	University_of_Technology.
gptkbp:hasCompetitors	Yes.
gptkbp:hasCPCClassification	F01D 25/00
gptkbp:hasDescription	Describes a novel cooling system for turbine blades.
gptkbp:hasDeveloped	Yes
gptkbp:hasExaminer	Patent Examiner A.
gptkbp:hasFacility	None. Improved cooling techniques.
gptkbp:hasFeature	Paid Promising.
gptkbp:hasFieldOfUse	Aerospace
gptkbp:hasFilingDate	2004-02-06
gptkbp:hasFilm	Worldwide
gptkbp:hasFunding	Funded_by_Department_of_Energy.
gptkbp:hasGoals	Active Significant.
gptkbp:hasInventor	gptkb:John_Doe Jane_Smith
gptkbp:hasLegalEvent	Patent granted
gptkbp:hasLegalStatus	Enforceable.
gptkbp:hasMember	5 Available.
gptkbp:hasOccupation	Met.
gptkbp:hasPartnershipsWith	High With industry leaders. In progress.
gptkbp:hasPriorityDate	2024-02-06 2003-02-06
gptkbp:hasPublications	2004-09-14 2 presentations. 3 related journal articles.
gptkbp:hasRelatedPatent	gptkb:US_6,789,019 gptkb:US_6,789,016 Incremental. US_6,789,017 US_6,789,018 US_6,789,020
gptkbp:hasResearchInterest	Further efficiency improvements.
gptkbp:hasSpecialty	Conducted.
gptkbp:hasSustainabilityInitiatives	Positive.
gptkbp:hasTechnicalField	Mechanical Engineering
gptkbp:hasTechnology	Positive. Active. Heat management in turbines.
https://www.w3.org/2000/01/rdf-schema#label	US 6,789,015 G68 Family
gptkbp:isFiledIn	gptkb:United_States
gptkbp:isPartOf	G68_Patent_Family
gptkbp:market	Energy production. Growing.
gptkbp:relatedTo	Gas turbine engine