Method and plant for producing asphalt mixture
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C08L-095/00
E01C-019/10
출원번호
US-0503612
(2009-12-28)
등록번호
US-8882899
(2014-11-11)
우선권정보
DE-10 2009 050 506 (2009-10-23)
국제출원번호
PCT/EP2009/009292
(2009-12-28)
§371/§102 date
20120423
(20120423)
국제공개번호
WO2011/047705
(2011-04-28)
발명자
/ 주소
Aretz, Julia
Barczus, Christian
Garber, Wladimir
Wolber, Stefan
출원인 / 주소
LOESCHE GmbH
대리인 / 주소
Studebaker & Brackett PC
인용정보
피인용 횟수 :
0인용 특허 :
9
초록▼
The invention relates to a method and a plant for producing asphalt mixture and is directed in particular to the recycling of recovered asphalt. In order to achieve recycling of up to 100% recovered asphalt and to produce an asphalt mixture with the required quality, it is provided according to the
The invention relates to a method and a plant for producing asphalt mixture and is directed in particular to the recycling of recovered asphalt. In order to achieve recycling of up to 100% recovered asphalt and to produce an asphalt mixture with the required quality, it is provided according to the invention that at least the drying and heating of the asphalt granulate and/or aggregates are carried out in a low oxygen atmosphere. The low oxygen atmosphere is achieved by supplying low oxygen gases with an oxygen content of maximum 10%, preferably with an oxygen content of maximum 5%. The conveyance of the heated and dried asphalt granulate and/or aggregates, the siloing and mixing with bitumen to form a new, incorporation-ready asphalt mixture also usefully take place in a low oxygen atmosphere.
대표청구항▼
1. Method for producing asphalt mixture, comprising: heating and drying recovered asphalt as asphalt granulate and/or new material in the form of aggregates in drum devices together or separately; andsubsequently mixing the heated and dried asphalt and/or aggregates in a mixing device with bitumen t
1. Method for producing asphalt mixture, comprising: heating and drying recovered asphalt as asphalt granulate and/or new material in the form of aggregates in drum devices together or separately; andsubsequently mixing the heated and dried asphalt and/or aggregates in a mixing device with bitumen to form an incorporation-ready asphalt mixture, wherein the mixing of the heated and dried asphalt granulate and/or the aggregates is carried out in a low oxygen atmosphere, in which the oxygen content is maximum 10%,whereinthe asphalt granulate and/or the aggregates is/are dried and heated in the drum devices utilizing low oxygen gases having a temperature in the range of from 500 to 1000° C. and subsequently conveyed to the mixing device andthe conveyance and mixing are carried out in a low oxygen atmosphere, whereby cold, low oxygen gases having a temperature in the range of from approximately 20 to approximately 150° C. or cooled, low oxygen gases having a temperature in the range of from approximately 150 to approximately 300° C. are fed to a conveying device and the mixing device, andsiloing of the heated and dried asphalt granulate and/or aggregates before the mixing with the bitumen and/or siloing of the incorporation-ready asphalt mixture in a low oxygen atmosphere is/are carried out. 2. Method according to claim 1, whereincold, low oxygen gases, hot, low oxygen gases and/or cooled down low oxygen gases are fed with an oxygen content in the range of from 0 to 5% and a temperature in the range of from 500° C. to 1000° C. to the drum devices, conveying devices and mixing device. 3. Method according to claim 1, whereinthe asphalt granulate is expelled from the drum devices with a temperature in the range of from approximately 130 to approximately 250° C. 4. Method according to claim 1, whereincold, low oxygen gases and/or hot, low oxygen gases are supplied, which are generated in the combustion of fossil fuels with a combustion air ratio λ=1.0 to 2.0, within and/or outside of the asphalt production. 5. Method according to claim 1, whereincold, low oxygen gases and/or hot, low oxygen gases are supplied which arise as by-products or waste products in technical processes outside of the asphalt production. 6. Method according to claim 1whereincold, low oxygen gases are heated in gas heaters to a temperature in the range of from approximately 500 to approximately 1000° C. and are passed as hot, low oxygen gases to the drum devices or in that hot, low oxygen gases are cooled down to a temperature in the range of from approximately 1000 to approximately 500° C. in gas coolers and fed to the drum devices orcold, low oxygen gases and low oxygen gases having a temperature >1000° C., are mixed in a gas mixer to form hot, low oxygen gases with a temperature in the range of between approximately 500 and approximately 1000° C. and then fed to the drum devices anda portion of the hot gases, after the gas heater or gas mixer, is mixed with the cold, low oxygen gases which are then fed to the conveying devices and the mixing device ora portion of the hot gases from the gas cooler is cooled further and fed as cooled down, low oxygen gases with a temperature in the range of between approximately 150 and approximately 300° C. to the conveying devices and the mixing device. 7. Method according to claim 1, whereinthe drying and heating of the asphalt granulate and/or the aggregates and/or the conveyance and/or the mixing to form the incorporation-ready asphalt mixture and/or the siloing is/are carried out with an overpressure of the low oxygen gases in the range of from approximately 0.005 to 300 mbar or with an underpressure of the low oxygen gases in the range of from 0.005 to 20 mbar. 8. Method according to claim 1whereinthe low oxygen gases are fed from the drum devices and/or from the conveying devices, mixing devices and/or silos to a waste gas purification unit and/or mixed with hot, low oxygen gases and/or heated to a temperature in the range of from approximately 500 to approximately 1000° C. and utilized again in the drum devices. 9. Method according to claim 1, whereincold, low oxygen gases are heated in a hot gas generator and then cooled down in a gas mixer with cold, low oxygen gases to form hot, low oxygen gases with a temperature in the range of from approximately 1000 to approximately 500° C. and passed to the drum devices and/or further cooled down by means of cold, low oxygen gases and passed to conveying, mixing and silo devices. 10. Method according to claim 9, whereincold, low oxygen gases which arise in the asphalt production are utilized in the hot gas generator, wherein the cold, low oxygen gases are mixed proportionally with a fuel for a burner of the hot gas generator and/or mixed proportionally with primary air for the burner of the hot gas generator and/or fed to a muffle of the hot gas generator. 11. Method according to claim 9, whereincold, low oxygen gases are supplied for sealing the drum devices and/or conveying devices and/or silo devices and/or mixing device and connections between these devices as well as a material inlet and material outlet of the drum devices and/or drawn off by the drum devices and/or conveying devices and/or silo devices and/or mixing device and connections between these devices as well as a material inlet and material outlet of the drum devices during overpressure operation. 12. Method according to claim 1, whereinat least portions of the low oxygen gases arising during the asphalt production are fed to a waste gas purification unit and drained and subsequently heated to hot, low oxygen gases and utilized in the drum device or utilized as cold, low oxygen gases for sealing the drum devices, conveying device, mixing device and/or silo devices. 13. Method according to claim 1, whereinthe asphalt granulate and/or the aggregates are passed in counter flow or in parallel flow in relation to hot, low oxygen gases to a drying and heating drum as a drum device and are dried and heated with an underpressure in the range of from approximately 0.005 to 20 mbar or with an overpressure in the range of from approximately 0.005 to 300 mbar. 14. Method according to claim 1, whereinthe asphalt granulate and/or the aggregates is/are transported, heated and dried in a counter flow drum as a drum device in counter flow to hot, low oxygen gases. 15. Method according to claim 1, whereinsolely asphalt granulate is heated and dried in a parallel drum as a drum device by means of hot, low oxygen gases which are fed in parallel and subsequently this asphalt granulate is mixed with a mixture of asphalt granulate and aggregates or only with aggregates from a counter flow drum or a silo in the mixing device with bitumen. 16. Method according to claim 15, whereinthe hot, low oxygen gases are generated or heated in a hot gas generator with a perforated jacket as a gas mixer or in a hot gas generator with a gas mixer. 17. Method according to claim 16, whereinthe asphalt granulate and/or the aggregates is/are transported, heated and dried in a drum device in counter flow to the hot, low oxygen gases,in that simultaneously the hot, low oxygen gases are enriched with gas and/or vapour-form substances from the bitumen of the asphalt granulate andin that the hot, low oxygen gases are fed after the condensation of the substances from the bitumen to a waste gas purification unit. 18. Plant for producing asphalt mixture, having at least one drum device for heating and drying asphalt granulate made from reclaimed asphalt and/or new material in the form of aggregates and a mixing device for mixing the heated and dried asphalt granulate and/or aggregates with bitumen, as well as having at least one source for low oxygen gases with an oxygen content of maximum 10%, which can be fed to the mixing device,whereinthe at least one source for low oxygen gases with an oxygen content of maximum 10%, in which the low oxygen gases arise and/or from which the low oxygen gases can be fed, is connected to the drum device as well as to a conveying device for the heated and dried asphalt granulate and/or aggregates and to silo devices before and/or after the mixing device for supplying the low oxygen gases with an oxygen content of maximum 10%. 19. Plant according to claim 18, whereinthe drum device is formed to be gastight for an overpressure of the low oxygen gases in the range of from 0.005 to 300 mbar or for an underpressure of the low oxygen gases in the range of from 0.005 to 20 mbar. 20. Plant according to claim 18, whereinthe conveying device for the heated and dried asphalt granulate and/or aggregates and the silo devices and the mixing device are designed to be gastight. 21. Plant according to one of the claim 18, whereina material inlet and material outlet of the drum device are designed to be gastight and comprise seals, to which cold, low oxygen gases can be fed in case of underpressure in the drum device and from which cold, low oxygen gases can be drawn off in case of overpressure in the drum device. 22. Plant according to one of the claim 18, whereinthe source for low oxygen gases is disposed inside or outside of the asphalt mixing plant. 23. Plant according to one of the claim 18, whereinwaste gases from a waste gas purification unit of the asphalt mixing plant are a source for cold, low oxygen gases and a waste gas recycling value of approximately 50 to approximately 100% can be achieved. 24. Plant according to one of the claim 18, whereingas heater, gas cooler or gas mixer are arranged for production of cold, low oxygen gases with a temperature in the range of from approximately 20 to 150° C., hot, low oxygen gases with a temperature in the range of from 500 to 1000° C. and cooled down, low oxygen gases with a temperature in the range of from 150 to 300° C. 25. Plant according to one of the claim 18, whereina hot gas generator with a burner for gaseous, liquid and/or solid fuels is provided, to which also low oxygen gases as combustion air can be fed via a return line to the burner, and with a gas mixer for mixing cold, low oxygen gases, with the hot, low oxygen gases produced in the hot gas generator. 26. Plant according to claim 25, whereinthe hot gas generator is equipped with a steel combustion chamber or comprises a Loesche perforated jacket (LOMA) heating with a perforated jacket, to which cold, low oxygen gases can be fed for mixing with the hot, low oxygen gases generated in the hot gas generator. 27. Plant according to claim 18, whereina hot gas generator with perforated jacket (LOMA) heating is connected to a counter flow drum as a drum device, in which the transport of the asphalt granulate and/or aggregates, takes place contrary to the flow direction of the hot, low oxygen gases from the perforated jacket of the hot gas generator, andin that sealing devices are provided between the movable and non-movable parts of the counter flow drum which can be impacted with cold, low oxygen gases. 28. Plant according to one of the claim 18, whereina source for low oxygen gases is a grinding-drying plant for raw coal, and in that low oxygen gas arising during the grinding of the coal as well as the low oxygen gases from the asphalt mixing plant are connected and can be used in both plants.
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이 특허에 인용된 특허 (9)
Bracegirdle Paul E. (559 Fairman La. Langhorne PA 19047), Aggregate drying system with improved aggregate dryer and mass flow apparatus.
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