TH75476B - Machines and Processes for Making Polyethylene Polymer And high-pressure copolymer - Google Patents

Abstract

------17/12/2018------(OCR) Page 1 of 1 Summary of the Invention Embodiments of the invention provide a machine for producing polyethylene and polyethylene copolymers. The machine includes a primary compressor in fluid contact with a two-stage secondary compressor, a secondary compressor in fluid contact with heated conduit in fluid contact with a tubular reactor, wherein the tubular reactor includes one or more reaction regions having heating/cooling enclosures, wherein the tubular reactor includes an interior material and an exterior material, wherein the exterior material is substantially inert in aqueous state under operating conditions, a tubular reactor in fluid contact with a product separator, and at least one pipe for transferring recovered ethylene from the product separator to the secondary compressor. Process for producing polyethylene and polyethylene copolymers. By using such apparatus, ------------ An embodiment of the invention provides a machine for producing polyethylene and copolymers thereof. The apparatus includes a primary compressor in fluid contact with a two-stage secondary compressor, a secondary compressor in fluid contact with heated tubing in fluid contact with a tubular reactor, wherein the tubular reactor includes one or more reaction regions having heating/cooling enclosures, wherein the tubular reactor includes an interior and exterior material, wherein the exterior material is essentially inert in the presence of water under operating conditions, a tubular reactor in fluid contact with a product separator, and at least one tubing for transferring recovered ethylene from the product separator to the secondary compressor. The process for producing polyethylene and copolymers thereof by using such apparatus is also described.

Claims (5)

Claims (all) which will not appear on the classifieds page. :------17/12/2018------(OCR) Page 1 of 4 Pages of Claims 1. Machine for producing polyethylene. and a polyethylene copolymer consisting of a tubular reactor, in which a tubular reactor includes one reaction region. or more with heating/cooling sheaths, in which such tubular reactors consist of internal material. and external materials, where such external materials are essentially inert in the presence of water. under working conditions where the outer material is composed of copper and the copper will consist of at least one type of oxygen-free electronic copper. (C10100); oxygen-free copper without residual oxidizing agents (C10200); Oxygen-free extremely low phosphorus copper (C10300); Oxygen-Free Low Phosphorus Copper Copper with low phosphorus residues where phosphorus is deoxidized (C12000) or copper with high residual phosphorus, where phosphorus is deoxidized (C12200). Claim Item 1, where copper contains 0.005 to 0.050% by weight of phosphorus 3. Apparatus of Claim 1, where the internal material shall consist of steel, in accordance with ASTM A723 4. Apparatus of Claim 1, where the internal material is unique steel one of the following or more: a) Carbon content < 0.40% by weight; b) manganese content < 0.90% by weight; c) phosphorus content < 0.015% by weight; d) sulfur content<0.015% by weight; e) silicon content < 0.35% by weight; f) Nickel content < 5.00% by weight; g) Chromium content 0.80 to 2.00% by weight; h) Molybdenum content < 0.80% by weight; and/or i) Vanadium content < 0.20% by weight 5. Apparatus of claim 1, where the ratio of internal material thickness to exterior material thickness is 5.0:1 to 50.0:1 6. The apparatus of Claim 1, where the internal material has a thickness of approximately 10.0 mm to approximately 100.0 mm, and the outer material has a thickness of approximately 0.50 mm to approximately 10.0 mm page 2 of 4 pages. 1, which further includes the primary compressor, may elect to have fluid contact with a bi-phased secondary compressor, where the primary compressor At least one of the secondary and secondary compressors is in fluid contact with the heated pipe in fluid contact with the tube reactor 8. The unit of claim 7, 1 where the primary and/or or a two-phase secondary compressor in contact with ethylene to produce extruded ethylene and where the heated tubing includes a heating path to make at least the A portion of the extruded ethylene can be heated to a minimum of 95°C 9. The apparatus of claim 1, where the tubular reactor is in fluid contact with the apparatus. Separate Product1 0. Machine of Claim 7, where the machine will include a secondary compressor. and shall be further assembled with at least one hose for transferring the recycled ethylene from the product separator to the secondary compressor1 1. The unit of claim 7, where the unit will include a secondary compressor and the secondary compressor is contacted through one additional hose. or more with one or more points at the downstream of the tubular reactor front end to deliver one or more side streams of ethylene to the tubular reactor1 2. Apparatus of Claim 1. , where the tubular reactor will be assembled. A minimum of three entrances for the initiation injection, implicitly designating at least three reaction sites. and which are provided with heating/cooling shields in each reaction region1 3. Process for the production of ethylene polymer. and a copolymer consisting of: a) conduction of a mixture of heat-treated monomers containing ethylene. and may optionally include, comonomers in tubular reactors having at least three reaction regions, each with a heating/cooling shield, in which the tubular reactor Such pipes consist of internal materials. and external materials, to which such external materials are essentially inert in the presence of water under conditions of operation1 4. The process of claim 13, wherein the external materials are composed of copper p 3 of the amount 4 Page 1 5. Process of Claim Article 14, where the copper will consist of at least one type of oxygen-free electronic copper (C10100); oxygen free copper without residual deoxidizer (C10200); Oxygen-free extremely low phosphorus copper (C10300); Oxygen-free low-phosphorus copper (C10800); phosphorus-containing copper Low phosphorous deoxidized (C12000) or high phosphorus deoxidized copper (C12200)1 6. Process of claim 14, where copper contains high phosphorus deoxidized (C12200)1. Phosphorus 0.005 to 0.050% by weight1 7. Claim 13 process, where the internal material is composed of steel, according to ASTMA7231 8. Claim 13 process, where the internal material is steel characterized by only one of the following or more:a) Carbon content <0.40% by weight;b) manganese content < 0.90% by weight; c) Phosphorus content < 0.015% by weight; d) Sulfur content < 0.015% by weight;e) Silicon content < 0.35% by weight; f) Nickel content 1.5 to 2.25% by weight, 2.3 to 3.3% by weight. weight, or 3.3 to 4.5% by weight; g) Chromium content 0.80 to 2.00% by weight;h) Molybdenum content 0.20 to 0.40% by weight, 0.30 to 0.50% by weight or 0.40 to 0.80% by weight; and/or 0 vanadium content < 0.20% by weight1 9. Process of claim 13, where the ratio of thickness of the internal material to the external material thickness is 5.0:1 to 50.0:12 0. Process of claim 13, where the internal material has a thickness of 10.0 mm to 100.0 mm, and the outer material has a thickness of 0.50 mm to 10.0. mm, page 4 of number 4, page 2 1. Process of claim 13, which is further incorporated: 6) compression of monomers' mixtures consisting of ethylene. and may choose to have, comonomers, up to the first pressure in the primary compressor; and c) may elect to have, mixtures of monomers with recycled ethylene. and further compression of the monomer mixture up to the second pressure in the secondary compressor2 2. Process for the production of ethylene polymer. and \'coponimores, which include: conduction of a mixture of heat-treated monomers containing ethylene. and may optionally include, comonomers into tubular reactors, having at least three reaction regions, each with a heating/cooling shield, in which Such tubular reactors consist of internal materials. and external materials and which such external materials Significantly composed of copper ------------ Revised 6/6/2017 1. Machine for the production of polyethylene and copolymer of polymer. Lean which includes A tubular reactor, in which a tubular reactor includes one or more reaction regions with a heating/cooling sheath, in which the tubular reactor is assembled. included with internal material and external materials, where such external materials are essentially inert in the presence of water. where the outer material will consist of copper and the copper will consist of at least one type of oxygen-free electronic copper (C10100); Oxygen-free copper without residual oxidizing agents (C10200); copper with phosphorus extremely low, oxygen-free (C10300); low-phosphorus copper, oxygen-free (C10800); Low Phosphorus Residue Copper, Oxidized Phosphorus (C12000) or High Residue Phosphorus Copper (C12200) (Original) Revised 04/07/16 i) Nadium Content ( formula) 0.20% by weight 7. Machine of claims 1 to 6, where the ratio of thickness of The internal material to the outer material thickness is approximately 5.0:1 to 50.0:1, if preferably 7.5:1 to 35.0:1 or 10.0:1 to 30.0:1 8. The apparatus of claims 1 to 6. Any one, where the internal material has a thickness of 10.0 mm to 10 0. mm, preferably 15.0 mm to 50.0 mm and the outer material has a thickness of 0.50 mm to 10.0 mm, preferably 1.0 mm to 5.0 mm. Any of the claims 1 to 8, which includes the primary compressor, may elect to provide for a fluid contact with a bi-phased secondary compressor, where the primary compressor At least one of the secondary and secondary machines is in fluid contact with the heated flexible hose. in fluid contact with the tubular reactor 1 0, the apparatus of clause 9, where the hoses are heated, including the means for providing heat to make at least the freshest part of the extruded ethylene can be heated to at least 95 ° C 1 1. The apparatus of claims 1 to 10, where the tubular reactor is in Fluid contact with product separator 1 2. Machine of claim 9 or 10, where the machine includes a secondary compressor and is further assembled with at least one flexible hose for transferring A. thylene recycled from the separator Products to secondary compressors 1 3. Machines of claim 9 or 10, where machines, including secondary compressors and compressor Secondary contact is via one additional flexible hose. or more with one point or more at the downstream of the tubular reactor front end to deliver one or more side streams of the ethylene to the tubular reactor 1 4. The apparatus of claims 1 to 13. , where the tubular reactor incorporates at least three inlets for initiating injection, thereby determining the reaction site. At least three areas and which is provided with a heating/heating cover. Cool in each reaction region 1 5. Process for producing ethylene polymer. and a copolymer consisting of: h) Molybdenum content 0.20 to 0.40% by weight, 0.30 to 0.50% by weight or 0.40 to 0.80% by weight; and/or i) Vanadium content (formula) 0.20% by weight 2. 1. The process of claims 15 to 20, where the ratio of thickness of internal material to the thickness of the outer material being 5 to 50, if preferably 7.5 to about 35 or 10 to 30 2 2. The process of claims 15 to 21, where the internal material has a thickness of 10.0 mm to 100.0 mm, if preferably 15.0 mm to 50.0 mm and the external material having a thickness of 0.50 mm to 10.0 mm, in particular 1.0 mm to 5.0 mm 2. 3. Which of the following is the process of claims 15 to 22? one, which also includes: b) compression of mixtures of monomers consisting of ethylene and may be chosen, comonomers, up to the first pressure in the primary compressor; and c) may elect, a mixture of monomer and ethylene. repurposed and the further compression of the monomer mixture to the second pressure in the secondary compressor 2. 4. Machine for the production of polyethylene. and a copolymer of polyethylene, which includes A tubular reactor, in which a tubular reactor includes one or more reaction regions with a heating/cooling sheath, in which the tubular reactor comprises Include internal materials and external materials, which such external materials Inert is essentially composed of copper 2. 5. Process for the production of ethylene polymer. and copolymers, which include: conduction of heat-treated monomer mixtures containing ethylene. and may optionally be provided, comonomers into a tubular reactor, having at least three reaction regions, each with a heating/cooling shield, in which the tubular reactor such pipes Assembled with internal materials and external materials and which such external materials Assemble as copper essence ---------------------------------------------------- ---------------------------------------------------- ---------------- 1. Machine for producing polyethylene and a copolymer of polyethylene, which includes A tubular reactor, in which a tubular reactor includes one or more reaction regions with a heating/cooling sheath, in which the tubular reactor is assembled. included with internal material and external materials, where such external materials are essentially inert in the presence of water. Under conditions of operation 2. The apparatus of Claim 1, where the outer material is composed of copper 3. The apparatus of Claim 2, where the copper comprises at least one type of oxygen-free electronic copper (C10100); oxygen-free copper without residual deoxidizer (C10200); extremely low phosphorus copper, oxygen-free (C10300); low-phosphorus copper, oxygen-free (C10800); Low phosphorus copper, oxidized phosphorus (C12000) or high phosphorus residual copper, oxidized phosphorus (C12200) 4. Apparatus of claims 1 to 3, Where copper contains 0.005 to 0.050% by weight of phosphorus, 0.01 to 0.030% by weight, if better then 0.015 to 0.025% by weight 5. Apparatus of claims 1 to 3. one of which, where the internal material is composed of steel, if preferably low alloy carbon steel according to ASTM A723 6. Apparatus of claims 1 to 3, where the internal material is available steel One of the following characteristics or more: a) Carbon content (Formula) 0.40% by weight, if good then (Formula) 0.35% by weight; b) manganese content (Formula) 0.90% by weight; c) Phosphorus content (Formula) 0.015% by weight; d) Sulfur content (Formula) 0.015% by weight; e) Silicon filling volume (Formula) 0.35% by weight; f) Nickel packing quantity (Formula)5.00% by weight; g) Chromium content 0.80 to 2.00% by weight; h) Molybdenum content (Formula) 0.80% by weight; and/or i) the vanadium content (Formula) 0.20% by weight 7. Machine of claims 1 to 6, where the ratio of thickness of The internal material to the outer material thickness is approximately 5.0:1 to approximately 50.0:1, if better, approximately 7.5:1 to approximately 35.0:1 or approximately 10.0:1 to approximately 30.0:1. 1 to any of the 6, where the internal material has a thickness of approximately 10.0 mm to approx. 10 0. mm, preferably 15.0 mm to approx. 50.0 mm and the outer material thickness approx. 0.50 mm to approx. 10.0 mm, especially 1.0 mm. to approx. 5.0 mm. Any of clauses 1 to 8, which includes the primary compressor, may be optional in fluid contact with the secondary compressor with two phases, where the primary compressor At least one of the secondary and secondary machines is in fluid contact with the heated flexible hose. in fluid contact with the tubular reactor 1 0, the apparatus of clause 9, where the hoses are heated, including the means for providing heat to make at least the freshest part of the extruded ethylene can be heated to at least 95 ° C 1 1. The apparatus of claims 1 to 10, where the tubular reactor is in Fluid contact with product separator 1 2. Machine of claim 9 or 10, where the machine includes a secondary compressor and is further assembled with at least one flexible hose for transferring A. thylene recycled from the separator Products to secondary compressors 1 3. Machines of claim 9 or 10, where machines, including secondary compressors and compressor Secondary contact is via one additional flexible hose. or more with one point or more at the downstream of the tubular reactor front end to deliver one or more side streams of the ethylene to the tubular reactor 1 4. The apparatus of claims 1 to 13. , where the tubular reactor incorporates at least three inlets for initiating injection, thereby determining the reaction site. At least three areas and which is provided with a heating/heating cover. Cool in each reaction region 1 5. Process for producing ethylene polymer. and copolymers consisting of: a) introduction of heat-treated monomer mixtures containing ethylene and, possibly optional, comonomers into the apparatus; Tubular reactors having a minimum of three reaction regions, each of which has a heating/cooling sheath, in which tubular reactors It includes internal materials. and external materials, to which such external materials are inert Significant in the presence of water under operating conditions 1 6. Process of Claim 15, where the outer material is composed of copper 1 7. Claim process 16, where the copper includes at least one of the best of oxygen-free electronic copper (C10100); Oxygen-free copper without residual oxidizing agents (C10200); extremely low phosphorus copper, oxygen-free (C10300); low-phosphorus copper, oxygen-free (C10800); Low Phosphorus Residue Copper, Oxidized Phosphorus (C1200) High Phosphorus Residue Copper, Oxidized Phosphorus (C12200) 1 8. Process of one of Claims 15 to 17, Where copper contains 0.005 to 0.050% by weight of phosphorus, 0.01 to 0.030% by weight, preferably 0.01 to 0.030% by weight, 0.015 to 0.025% by weight 1 9. Process of Claim Article 15 to Article Any of the 17, where the material inside consists of steel, would be great. Low alloy carbon steel according to ASTM A723 2 0. Any process of claims 15 to 17, where the internal material is steel. which has one of the following characteristics or more: a) Carbon content (chemical formula) 0.40% by weight, if preferably (chemical formula) 0.35% by weight; b) manganese content (chemical formula) 0.90% by weight; c) Phosphorus content (chemical formula) 0.015% by weight; d) sulfur content (chemical formula) 0.015% by weight; e) silicon content (chemical formula) 0.35% by weight; f) Nickel content 1.5 to 2.25% by weight, 2.3 to 3.3% by weight or 3.3 to 4.5% by weight; g) Chromium content 0.80 to 2.00% by weight; h) Molybdenum content 0.20 to 0.40% by weight, 0.30 to 0.50% by weight or 0.40 to 0.80% by weight; and/or i) Vanadium content (formula) 0.20% by weight 2. 1. The process of claims 15 to 20, where the ratio of thickness of internal material per outer material thickness is about 5 to about 50, if it is better about 7.5 to about 35 or about 10 to about 30 2 2. The process of claims 15 to 20, where the internal material has a thickness of approximately 10.0 mm to approx. 100.0 mm, preferably 15.0 mm to approximately 50.0 mm and the external material has a Approximately 0.50 mm to approx. 10.0 mm, specifically 1.0 mm to approx. 5.0 mm2 3. The process of one of Claims 15 to 22, which is further incorporated: b) compression of mixtures of monomers containing ethylene. and may be chosen, comonomers, up to the first pressure in the primary compressor; and c) may elect, a mixture of monomer and ethylene. repurposed and further compression of the monomer mixture up to the second pressure in the secondary compressor 2. 4. Machine for producing polyethylene and a copolymer of polyethylene, which includes Tubular reactor, in which a tubular reactor includes one or more reaction regions with a heating/cooling sheath, in which the tubular reactor comprises Include internal materials and external materials, which such external materials Inert is essentially composed of copper 2. 5. Process for the production of ethylene polymer and copolymers, which include: conduction of heat-treated monomer mixtures containing ethylene. and may optionally be provided, comonomers into a tubular reactor, having at least three reaction regions, each with a heating/cooling shield, in which the tubular reactor such pipes Assembled with internal materials and external materials and which such external materials Assemble as copper essence