• 专利标题:   Cogenerative preparation of graphene tire comprises preparing graphene and alumina titanium black, taking coal into integrated gasification combined cycle, conveying fly ash and carbon dioxide to prepare aluminum and ferrosilicon products.
  • 专利号:   CN105666904-A, CN105666904-B
  • 发明人:   CHENG H, CHENG L, XU W
  • 专利权人:   CHENG L, CHENG L
  • 国际专利分类:   B09B003/00, B09B005/00, B29D030/08, C01B003/12, C01B031/04, C01B031/18, C01B031/20, C08K003/04, C08L007/00, C01B032/184, C01B032/40, C01B032/50
  • 专利详细信息:   CN105666904-A 15 Jun 2016 B29D-030/08 201668 Pages: 12 Chinese
  • 申请详细信息:   CN105666904-A CN10211647 07 Apr 2016
  • 优先权号:   CN10969296, CN10211647

▎ 摘  要

NOVELTY - Cogenerative preparation of graphene tire comprises preparation of graphene and alumina titanium black respectively using coal based graphene unit and alumina titanium carbon black unit, taking the coal into integrated gasification combined cycle (IGCC) for oxygen cycle power generation, conveying the fly ash and carbon dioxide to prepare aluminum and ferrosilicon products, conveying exhaust gas into a gas heat recovery steam to prepare water vapor, which undergo reaction with fly ash, steam electrolysis, remote monitoring of anti-explosion, to ensure production safety. USE - The method is useful for cogenerative preparation of graphene tire (claimed) of graphene vehicle, motorcycle, tractor, bicycle, industries and aircraft safety tires. ADVANTAGE - The method: is economical; increases anti-break and anti- bursting performance of tires; increases resistance and prolongs service life of tires; has low manufacturing cost of hydrogen and oil; controls electric carbon dioxide discharge and coal ash pollution to the environment; and utilizes carbon dioxide and ash to 100%. DETAILED DESCRIPTION - Cogenerative preparation of graphene tire comprises (a) preparation of graphene and alumina titanium black respectively using coal based graphene unit and alumina titanium carbon black unit, and conveying to prepare graphene tire, (b) taking the coal from coal based unit into integrated gasification combined cycle (IGCC) for oxygen cycle power generation and using for power generation, conveying the fly ash and carbon dioxide to aluminum alloy ferrosilicon unit, carbon dioxide capture unit and fly ash aluminum ferrosilicon unit to prepare aluminum and ferrosilicon products, (c) conveying the high temperature exhaust gas from carbon black titanium aluminosilicate unit, fly ash aluminum ferrosilicon unit, IGCC oxygen cycle power generation unit into a gas heat recovery steam unit to prepare water vapor, where part of the water vapor from the exhaust gas is conveyed to hydrogen unit, water vapor and fly ash undergo reaction to produce hydrogen and carbon dioxide, conveying hydrogen into hydrogen unit and trapping carbon dioxide in carbon dioxide capture unit, and conveying the other portion of the water vapor to steam electrolysis for electrolytically yielding hydrogen and oxygen, and respectively conveying into hydrogen unit and oxygen unit, (d) conveying hydrogen gas and carbon dioxide into an oil unit to prepare oil products, and conveying oxygen into IGCC oxygen cycle power generation for power generation and (e) remote monitoring of anti-explosion, including each system and factory implementation of online distance explosion-proof monitoring and controlling to ensure safety in production. An INDEPENDENT CLAIM is also included for a device for cogenerative preparation of graphene tire, comprising: a coal base, silicon titanium alumina black, graphene tire, IGCC carbon oxygen circulation power generation unit, aluminum alloy ferrosilicon unit, carbon dioxide capture unit, tail gas waste heat steam unit, tail gas preparing hydrogen unit, an air separation unit, carbon dioxide oil preparing unit and anti-explosion monitoring remote unit. The coal base unit and silicon titanium aluminum carbon black unit are connected to IGCC carbon oxygen circulation power generation unit. The silicon titanium aluminum carbon black unit and graphene unit are connected to the graphene tire unit. The IGCC carbon oxygen circulation power generation unit is connected to coal ash aluminum alloy iron unit, carbon dioxide capture unit and tail gas waste heat steam unit. The silicon aluminum titanium carbon black unit is connected to tail gas waste heat steam. The tail gas hydrogen preparing unit is connected with the coal ash aluminum alloy silicon unit and the tail gas waste heat steam. The tail gas hydrogen preparing unit is connected with the tail gas waste heat steam unit. The tail gas hydrogen preparing unit is connected with the tail gas waste heat steam unit by electrolytic unit separately connected with steam, hydrogen and oxygen. The tail gas hydrogen preparing unit is connected to hydrogen. The carbon dioxide capture unit is connected with carbon dioxide and hydrogen. The carbon dioxide capture unit is connected to remote monitoring unit. A real time online monitoring explosion-proof unit is connected with carbon dioxide, oxygen and empty dividing unit and IGCC carbon oxygen circulation power generation unit connection and silicon and titanium aluminum carbon black connected.