US2023174868A1PendingUtilityA1
Two Step Process for Chemically Recycling Plastic Waste
Est. expiryMar 15, 2041(~14.7 yrs left)· nominal 20-yr term from priority
Inventors:Leslaw MleczkoRaghava DasarathyGreg CoilYu-Ting ChengCollin SchmidtJeff WhitingRocco CarabettaTerry Mazanec
C10G 1/002C10G 2400/30C10G 11/22C10B 53/07C10G 1/10C10G 1/006B01J 38/04C10G 11/05C10G 1/02C10G 2400/20C10B 57/04C10G 11/185C10G 1/08C10G 11/182B01J 29/90
68
PatentIndex Score
0
Cited by
0
References
0
Claims
Abstract
A two-step process that includes a pyrolytic first step carried out in a mechanically or gravitationally impelled reactor and a catalytic fluid bed second step that upgrades the resulting vapor, for the conversion of waste plastics, polymers, and other waste materials to useful chemical and fuel products such as paraffins, olefins, and aromatics such as BTX is described.
Claims
exact text as granted — not AI-modified1 - 40 . (canceled)
41 . A method for producing olefins and aromatics comprising;
feeding a stream comprising plastics to a first pyrolysis reactor, wherein the first pyrolysis reactor comprises a mechanically or gravitationally induced moving bed; anaerobically pyrolyzing the stream in the first reactor at a temperature above 350° C.; preparing a raw, vapor product; wherein the residence time of the material in the pyrolysis reactor is at least 5 minutes; passing the raw, vapor product produced in the first pyrolysis reactor to a second reactor that comprises a fluidized bed fitted with a catalyst; catalytically reacting the vapor product from the pyrolysis with the catalyst in the fluidized bed reactor to form a product vapor mixture; and recovering olefins, or aromatics, or some combination thereof from the product vapor mixture.
42 . The process of claim 41 wherein the first pyrolysis reactor comprises a moving bed, one-screw extruder, two screw extruder, auger reactor, rotating kiln reactor, or a stepped grate reactor.
43 . The process of claim 42 wherein the first reactor comprises an inlet port and an exit port wherein the temperatures range from 20° C. to 225° C. at or near the inlet port, and a range of temperatures at the exit port range from 300° C. to 700° C.
44 . The process of claim 41 wherein the first pyrolysis reactor comprises two or more reactors in series.
45 . The process of claim 44 wherein the feed stream is heated to a temperature between 250° C. and 300° C. in the first pyrolysis reactor and condensed phases are passed to a second pyrolysis reactor.
46 . The process of claim 41 wherein an inert gas is fed to the first pyrolysis reactor.
47 . The process of claim 41 wherein a solid co-reactant material is fed to the first pyrolysis reactor.
48 . The process of claim 47 wherein the solid co-reactant material is transferred to a combustion regenerator wherein the carbonaceous materials are reacted with air and at least a portion of the hot solid co-reactant material is returned to the first pyrolysis reactor.
49 . The process of any of claims 41 - 48 , wherein the catalyst in the fluidized bed reactor comprises a zeolite.
The process of any of claims 41 - 48 , wherein the feed stream of plastics is first heated to at least 200° C. to achieve a molten state and filtered to remove solids.
The process of claims 41 - 48 , wherein the product vapor mixture from the fluidized bed catalytic reactor comprises at least 20 mass % BTX.
The process of claim 47 wherein the solid co-reactant fed to the first reactor comprises agricultural lime, or calcium oxide, calcium hydroxide, magnesium oxide, magnesium hydroxide, limestone, or hydrotalcites, or other solid basic material, or some combination thereof.
The process of any of claims 41 - 48 , wherein the product vapor mixture is passed through one or more solids separation devices.
The process of claim 41 wherein catalyst in the fluidized bed catalytic pyrolysis reactor is withdrawn and regenerated by oxidation with air in a regenerator, and returned to the catalytic pyrolysis reactor.
The process of claim 41 wherein heat recovered from the catalyst regenerator is used to heat the feed materials, the first pyrolysis reactor or the catalytic pyrolysis in the fluidized bed reactor, or some combination thereof.
The process of claim 41 wherein the product vapor mixture from the fluidized bed catalytic reactor comprises at least 20 mass % olefins.
The process of claim 41 wherein the mass yield of BTX in the product vapor mixture from the catalytic conversion is at least 30% BTX based on the mass in the polymer feed.
The process of any of claims 41 - 48 , wherein the feedstock comprises a mix of waste plastic chosen from among polyethylene terephthalate (PET), high density polyethylene (HDPE), polyvinyl chloride (PVC) or polyvinylidene (PVCD), low density polyethylene (LDPE), polypropylene (PP), polystyrene (PS), or mixed resins, or some combination thereof.
The process of any of claims 41 - 48 , wherein the catalyst in the fluidized bed reactor comprises ZSM-5; and wherein the feed stream comprising plastics is first introduced into a feed system that prepares the plastic mixture for introduction into the process by, removing undesirable feed materials such as metal, minerals, halogenated materials, and the like, or sizing the material to the desired size range, or both.
The process of any of claims 41 - 48 wherein the vapors produced in the first pyrolysis reactor are exhausted; and wherein the exhausted vapors are treated and transferred to water treatment.Cited by (0)
No later patents cite this yet.
References (0)
No backward citations on record.