Compositions, methods, and molded articles including a bimodal molecular weight ethylene/propylene random copolymer comprising a high molecular weight component having a melt flow rate at 230 °C of from about 0.02 g/10 min to about 0.5 g/10 min and a low molecular weight component having a melt flow rate at 230 °C of from about 1 g/10 min to about 10 g/10 min, and an ethylene content of from about 0.40 wt.% to about 0.60 wt.%.
The embodiments described herein pertain to constrained geometry catalyst (CGC)-type titanium catalyst compounds with an amido moiety that features asymmetric substituents that give rise to diastereomerism in new catalysts. Catalyst compounds embodying the present technological advancement are excellent catalysts for variety of transformations including homopolymers of propylene (P), ethylene (E), ethylene-propylene (EP)-copolymers and ethylene-octene (EO) copolymers.
C08F 4/76 - Métaux; Hydrures métalliques; Composés organiques de métal; Leur utilisation comme précurseurs de catalyseurs choisis parmi les métaux non prévus dans le groupe choisis parmi les métaux réfractaires choisis parmi le titane, le zirconium, le hafnium, le vanadium, le niobium ou le tantale
01 - Produits chimiques destinés à l'industrie, aux sciences ainsi qu'à l'agriculture
37 - Services de construction; extraction minière; installation et réparation
39 - Services de transport, emballage et entreposage; organisation de voyages
40 - Traitement de matériaux; recyclage, purification de l'air et traitement de l'eau
45 - Services juridiques; services de sécurité; services personnels pour individus
Produits et services
Hydrogen; ammonia for industrial purposes; lithium. Providing technical assistance and support regarding the installation, operation and maintenance of equipment used for producing hydrogen; consultation services relating to the construction of equipment for producing hydrogen. Transportation and storage of hydrogen; storage of captured carbon dioxide for others. Carbon capture and sequestration services, namely, carbon dioxide capture from industrial and commercial production sources. Licensing of intellectual property relating to production of hydrogen.
01 - Produits chimiques destinés à l'industrie, aux sciences ainsi qu'à l'agriculture
37 - Services de construction; extraction minière; installation et réparation
39 - Services de transport, emballage et entreposage; organisation de voyages
40 - Traitement de matériaux; recyclage, purification de l'air et traitement de l'eau
45 - Services juridiques; services de sécurité; services personnels pour individus
Produits et services
(1) Hydrogen; ammonia for industrial purposes; lithium. (1) Providing technical assistance and support regarding the installation, operation and maintenance of equipment used for producing hydrogen; consultation services relating to the construction of equipment for producing hydrogen.
(2) Transportation and storage of hydrogen; storage of captured carbon dioxide for others.
(3) Carbon capture and sequestration services, namely, carbon dioxide capture from industrial and commercial production sources.
(4) Licensing of intellectual property relating to production of hydrogen.
01 - Produits chimiques destinés à l'industrie, aux sciences ainsi qu'à l'agriculture
04 - Huiles et graisses industrielles; lubrifiants; combustibles
37 - Services de construction; extraction minière; installation et réparation
39 - Services de transport, emballage et entreposage; organisation de voyages
40 - Traitement de matériaux; recyclage, purification de l'air et traitement de l'eau
45 - Services juridiques; services de sécurité; services personnels pour individus
Produits et services
Hydrogen; ammonia for industrial purposes; lithium. Hydrogen fuel. Providing technical assistance and support regarding the installation, operation and maintenance of equipment used for producing hydrogen; consultation services relating to the construction of equipment for producing hydrogen. Transportation and storage of hydrogen; storage of captured carbon dioxide for others. Carbon capture and sequestration services, namely, carbon dioxide capture from industrial and commercial production sources. Licensing of intellectual property relating to production of hydrogen.
7.
Catalysts for Olefin Metathesis, Methods of Preparation, and Processes for the use Thereof
The present disclosure relates to molybdenum and/or tungsten complexes, catalyst systems including molybdenum and/or tungsten complexes, and polymerization processes to produce polyalkenamers such as polypentenamers and polycyclooctenamers.
C08F 4/78 - Métaux; Hydrures métalliques; Composés organiques de métal; Leur utilisation comme précurseurs de catalyseurs choisis parmi les métaux non prévus dans le groupe choisis parmi les métaux réfractaires choisis parmi le chrome, le molybdène ou le tungstène
C08F 4/16 - Composés métalliques autres que les hydrures et autres que les composés organiques de métal; Complexes d'halogénures de bore ou d'halogénures d'aluminium avec des composés organiques contenant de l'oxygène de silicium, de germanium, d'étain, de plomb, de titane, de zirconium ou de hafnium
8.
Processes and Systems for Quenching Pyrolysis Effluents
Processes and systems for quenching an effluent. In certain embodiments, the process can include contacting a pyrolysis effluent and a first quench medium to produce a first quenched effluent. A bottoms stream that can include tar and an overhead stream that can include ethylene and propylene can be obtained from the first quenched effluent. The first quench medium can include a first portion of the bottoms stream that can include a first portion of the tar. In certain embodiments, the process can also include hydroprocessing a second portion of the bottoms stream that can include a second portion of the tar to produce a hydroprocessed product. A hydroprocessed bottoms stream can be obtained from the hydroprocessed product. In certain embodiments, the process can also include contacting at least a portion of the hydroprocessed bottoms stream and the first portion of the bottoms stream to produce the first quench medium.
C10G 70/04 - Post-traitement de mélanges non définis normalement gazeux obtenus par des procédés couverts par les groupes , , , , par des procédés physiques
C10G 69/06 - Traitement des huiles d'hydrocarbures par au moins un procédé d'hydrotraitement et au moins un autre procédé de conversion uniquement par plusieurs étapes en série comprenant au moins une étape de craquage thermique en l'absence d'hydrogène
9.
FOAMABLE BRANCHED POLYPROPYLENE COMPOSITIONS AND FOAMED PRODUCTS THEREFROM
visvis value of about 0.5 to about 0.95, and a foaming agent blended with the branched polypropylene. The foamable compositions may be free of a phenolic stabilizer, such as Vitamin E or a Vitamin E derivative, but may optionally comprise a non-phenolic stabilizer. The foamable compositions may be free of stabilizer in some instances. The branched polypropylenes may be formed by irradiation of a substantially linear polypropylene with ionizing radiation, either in an absence of stabilizer or a non-phenolic stabilizer.
C08J 9/12 - Mise en œuvre de substances macromoléculaires pour produire des matériaux ou objets poreux ou alvéolaires; Leur post-traitement utilisant des gaz de gonflage produits par un agent de gonflage introduit au préalable par un agent physique de gonflage
Compositions, methods, and molded articles including an ethylene/propylene random copolymer composition comprising an ethylene content of from about 0.1 wt.% to about 0.47 wt.%, a molecular weight distribution of from about 5 to about 20, a plaque haze of from about 10% to about 35%, and a flexural modulus of from ab out 250 kpsi to about 350 kpsi.
A method for steam cracking a plastic-derived liquid feedstock can comprise: steam cracking a plastic-derived liquid feedstock in a steam cracker to produce a cracked product, wherein the plastic-derived liquid feedstock has a final boiling point of about 550° C. or less and an olefin content of about 40 wt % or less; quenching the cracked product from a temperature of about 750° C. or greater to a temperature of about 350° C. or less with a quench oil; and wherein the method does not comprise hydrotreating and/or fractionating the plastic-derived liquid feedstock before steam cracking.
C10G 9/36 - Craquage thermique non catalytique, en l'absence d'hydrogène, des huiles d'hydrocarbures par contact direct avec des fluides inertes préchauffés, p.ex. avec des métaux ou sels fondus avec des gaz ou vapeurs chauds
Ethylene copolymers capable of producing films with excellent optical properties at wavelengths of 280 to 1,100 nm, including moisture resistance, creep resistance, tensile strength, and tear strength. The ethylene copolymers are at least 50 wt% ethylene derived units and at least 20 wt% of at least one C3 to C20 comonomer and have branching indexes g'(Mz) and g'(Mz+1) coupled with tri substituted olefins and reactivity ratios (r1r2) that are significantly different than other ethylene copolymers of similar densities. The ethylene copolymers also have significantly improved processability properties and high volume resistivity (>10 15 Ohm*cm), making these copolymers particularly suitable for PV cell applications.
B32B 27/08 - Produits stratifiés composés essentiellement de résine synthétique comme seul composant ou composant principal d'une couche adjacente à une autre couche d'une substance spécifique d'une résine synthétique d'une sorte différente
C08F 4/6592 - Composant couvert par le groupe contenant une liaison métal de transition-carbone contenant au moins un cycle cyclopentadiényle, condensé ou non, p.ex. un cycle indényle ou fluorényle
C08F 4/659 - Composant couvert par le groupe contenant une liaison métal de transition-carbone
14.
FOAMABLE BRANCHED POLYPROPYLENE COMPOSITIONS AND FOAMED PRODUCTS PRODUCED THEREFROM
C08J 9/12 - Mise en œuvre de substances macromoléculaires pour produire des matériaux ou objets poreux ou alvéolaires; Leur post-traitement utilisant des gaz de gonflage produits par un agent de gonflage introduit au préalable par un agent physique de gonflage
C08F 4/6592 - Composant couvert par le groupe contenant une liaison métal de transition-carbone contenant au moins un cycle cyclopentadiényle, condensé ou non, p.ex. un cycle indényle ou fluorényle
Disclosed is a method of synthesizing a molecular sieve of MWW framework type, and molecular sieves so synthesized. The method comprises preparing a synthesis mixture for forming a molecular sieve of MWW framework type, said synthesis mixture comprising water, a silicon source, a source of a trivalent element X, a structure directing agent R, a source of alkali or alkaline earth metal cation M, and a source of poly(diallyldimethyl ammonium) cation (PDDA).
C01B 39/48 - Autres types caractérisés par leur diagramme de diffraction des rayons X et par leur composition définie utilisant au moins un agent structurant organique
B01J 29/70 - Zéolites aluminosilicates cristallines; Leurs composés isomorphes de types caractérisés par leur structure spécifique non prévus dans les groupes
A method may comprise removing silicon and/or mercury from a plastic-derived pyrolysis oil to yield a purified plastic-derived pyrolysis oil comprising 5 wppm or less of silicon and/or 1 wppb or less of mercury; and steam cracking the plastic-derived pyrolysis oil in the presence of a steam to produce a product.
C10G 69/06 - Traitement des huiles d'hydrocarbures par au moins un procédé d'hydrotraitement et au moins un autre procédé de conversion uniquement par plusieurs étapes en série comprenant au moins une étape de craquage thermique en l'absence d'hydrogène
Methods for controlling molecular weight distribution of elastomer compositions and, in particular, an isobutylene-co-param ethylstyrene elastomer compositions, particularly for use in tire compositions such as innerliners. At least first and second isobutyl-co- param ethyl styrene compositions are blended together and the blended isobutyl-co- param ethyl styrene compositions have a blended molecular weight distribution of equal to or greater than about 2.5.
C08L 23/22 - Copolymères de l'isobutylène; Caoutchouc butyl
C08L 23/28 - Compositions contenant des homopolymères ou des copolymères d'hydrocarbures aliphatiques non saturés ne possédant qu'une seule liaison double carbone-carbone; Compositions contenant des dérivés de tels polymères modifiées par post-traitement chimique par réaction avec les halogènes ou des composés contenant des halogènes
23.
SYNTHESIZING ISOBUTYLENE-CO-PARAMETHYLSTYRENE BASED ELASTOMERS WITH BROAD MOLECULAR WEIGHT DISTRIBUTIONS
Methods for preparing isobutylene-co-paramethylstyrene compositions are described herein. For example, one or more methods include treating an isobutylene-co-paramethylstyrene based elastomer with a peroxide initiator at a temperature greater than or equal to 160 °C to chemically induce a thermal breaking along the copolymer backbone of the isobutylene-co-paramethylstyrene based elastomer. The peroxide treatment can produce a modified isobutylene-co-paramethylstyrene based elastomer having a Mw/Mn ratio greater than 2.5.
The present disclosure relates to supported catalyst systems for olefin polymerization, catalyst system precursors, methods of producing the precursors and catalyst systems and polyolefins formed from the catalyst systems.
Systems and methods are provided for integration of polymeric waste co-processing in cokers to produce circular chemical products from coker gas oil, including a method of producing circular chemical products comprising: providing a coker gas oil that is at least partially derived from polymeric waste, wherein the coker gas oil has a paraffin content of about 5 wt % to about 50 wt %, a sulfur content of about 0.1 wt % to about 7 wt %, and a halide content of about 0.1 wppm to about 5 wppm; and converting the coker gas oil into at least a polymer.
C10G 65/10 - Traitement des huiles d'hydrocarbures, uniquement par plusieurs procédés d'hydrotraitement uniquement par plusieurs étapes en série ne comprenant que des étapes de craquage
C10B 49/22 - Distillation destructive des matières carbonées solides par chauffage direct au moyen d'agents porteurs de chaleur, y compris la combustion partielle de la matière à traiter avec des porteurs de chaleur solides, mobiles, sous forme divisée sous forme dispersée selon la technique du "lit fluidisé"
26.
CONTROLLED MOLECULAR WEIGHT DISTRIBUTION OF ISOBUTYLENE-BASED ELASTOMER COMPOSITIONS AND METHODS RELATED THERETO
Methods for controlling molecular weight distribution of elastomer compositions and, in particular isobutylene-based elastomer compositions, particularly for use in tire compositions such as innerliners. A polymerization medium comprising monomers, diluent, and a catalyst system are polymerized in a reactor. Molecular weight distribution is controlled using post-polymerization processing to achieve a Mooney Relaxation Index of greater than about 2.5.
The invention is related to a tire curing bladder that includes a brominated poly(isobutylene-co-paramethylstyrene) elastomer having a Mw/Mn ratio greater than or equal to 2.5 and less than or equal to 10, a mercaptobenzothiazole disulfide, a phenolic resin and a curative agent. The invention also relates to the composition and to a method of making a tire curing bladder.
B29D 30/06 - Pneumatiques ou leurs parties constitutives
B29C 33/50 - Moules ou noyaux; Leurs détails ou accessoires comportant des moyens ou conçus spécialement pour faciliter le démoulage d'objets, p.ex. des objets à contre-dépouille avec des moyens rétractables ou démontables élastiques
C08L 23/22 - Copolymères de l'isobutylène; Caoutchouc butyl
C08L 61/06 - Polymères de condensation obtenus uniquement à partir d'aldéhydes ou de cétones avec des phénols d'aldéhydes avec des phénols
C08L 23/28 - Compositions contenant des homopolymères ou des copolymères d'hydrocarbures aliphatiques non saturés ne possédant qu'une seule liaison double carbone-carbone; Compositions contenant des dérivés de tels polymères modifiées par post-traitement chimique par réaction avec les halogènes ou des composés contenant des halogènes
A fluidized reactor system includes a reactor containing a fluidized bed situated above a distributor plate arranged within the reactor, a fluidizing gas fed into the fluidized bed via the distributor plate to cause uniform fluidization of the fluidized bed and promote creation of solid polymeric granules, and a valve assembly penetrating a sidewall of the reactor to remove a mixture of the fluidizing gas and the solid polymeric granules from the fluidized bed. The valve assembly is coupled to the sidewall at a downward angle relative to the sidewall such that an upward-facing opening of the valve assembly extends into the fluidized bed.
B01J 8/24 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solides; Appareillage pour de tels procédés les particules étant fluidisées selon la technique du "lit fluidisé"
B01J 8/00 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solides; Appareillage pour de tels procédés
B01J 8/18 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solides; Appareillage pour de tels procédés les particules étant fluidisées
388 alpha-olefin comonomer units. The polyethylene copolymer has a density of 0.934 g/cm3to 0.945 g/cm3wnn) of 2 to 8, and a melt index ratio (MIR) within the range from 30 to 75, wherein MIR is the ratio of high load melt index (HLMI, ASTM DI 238 at 190 °C, 21.6 kg) to melt index (MI, ASTM DI 238 at 190°C, 2.16 kg).
Elastomeric polyolefin-based ionomers and methods for making same. The ionomers can include a copolymer comprising: C2-C60 α-olefin monomer units; optional C2-C60 α-olefin comonomer units different than the monomer units; optional diene units; and about 0.1 wt % to about 20 wt % metal alkenyl units, based on the weight of the copolymer, wherein the metal alkenyl units have the formula —R(A−)—, wherein R is an alkyl group containing 2 to 10 carbon atoms, and A− is an anionic group. The copolymer can further include one or more metal cations derived from the group consisting of alkali metals, alkaline earth metals, group 3-12 metals, group 13-16 metals, and combination(s) thereof. The ionomer has a glass transition temperature of −60° C. to 5° C., and a weight average (Mw) of 50 to 5,000 kg/mol.
Systems and methods are provided for integration of polymeric waste co-processing in cokers to produce circular chemical products from coker naphtha, including a method of producing circular chemical products comprising: providing a coker naphtha that is at least partially derived from polymeric waste, wherein the coker naphtha has a total halide content of about 1 wppm to about 0.5 wt %, a 2-3 ring aromatic content of about 0 wt % to about 5 wt %, and a sulfur content of about 750 ppm to about 2 wt %; and converting the coker naphtha into at least a polymer.
C08J 11/20 - Récupération ou traitement des résidus des polymères par coupure des chaînes moléculaires des polymères ou rupture des liaisons de réticulation par voie chimique, p.ex. dévulcanisation par traitement avec une substance organique par traitement avec des hydrocarbures ou des hydrocarbures halogénés
C08F 10/00 - Homopolymères ou copolymères d'hydrocarbures aliphatiques non saturés contenant une seule liaison double carbone-carbone
C10G 47/22 - Craquage non catalytique, en présence d'hydrogène
35.
Integration of Polymeric Waste Co-Processing in Cokers to Produce Circular Chemical Products from Coker Gas
Systems and methods are provided for integration of polymeric waste co-processing in cokers to produce circular chemical products from coker gas, including a method of producing circular chemical products comprising: providing a coker gas that is at least partially derived from polymeric waste, wherein the coker gas has an olefin content of about 10 wt % to about 30 wt %, a sulfur content of about 0.5 wt % to about 5 wt %, and a total halide content of about 1 wppm to about 150 wppm; and oxygen-containing compounds in an amount of about 0.5 wt % to about 15 wt %; and converting the coker gas into at least a polymer.
C10B 57/04 - Autres procédés de carbonisation ou de cokéfaction; Caractéristiques générales des procédés de distillation destructive utilisant des charges de composition spéciale
C10B 57/00 - Autres procédés de carbonisation ou de cokéfaction; Caractéristiques générales des procédés de distillation destructive
C10B 57/02 - Procédés de carbonisation ou de cokéfaction à phases multiples
36.
POLYOLEFIN VITRIMERS WITH REVERSIBLE BORATE MOIETY
This disclosure relates generally to a polyolefin vitrimer with reversible borate moiety, to a process for preparing the polyolefin vitrimer and to a polymer composition comprising polyolefin vitrimer with reversible borate moiety.
C08G 59/40 - Macromolécules obtenues par polymérisation à partir de composés contenant plusieurs groupes époxyde par molécule en utilisant des agents de durcissement ou des catalyseurs qui réagissent avec les groupes époxyde caractérisées par les agents de durcissement utilisés
Systems and methods are provided for chemical recycling of artificial turf, including, in one embodiment, a method comprising: providing a turf feed comprising a sized carpet composition; and cracking at least the turf feed to produce at least a cracking product comprising hydrocarbons.
C10G 1/10 - Production de mélanges liquides d'hydrocarbures à partir de schiste bitumineux, de sable pétrolifère ou de matières carbonées solides non fusibles ou similaires, p.ex. bois, charbon à partir de caoutchouc ou de déchets de caoutchouc
C10B 53/07 - Distillation destructive spécialement conçue pour des matières premières solides particulières ou sous forme spéciale de matières polymères synthétiques, p.ex. pneumatiques
C10B 55/10 - Cokéfaction des huiles minérales, bitumes, goudrons ou analogues, ou de leurs mélanges, avec des matières carbonées solides avec des matières solides avec des matières solides en mouvement sous forme dispersée selon la technique du "lit fluidisé"
C10B 57/04 - Autres procédés de carbonisation ou de cokéfaction; Caractéristiques générales des procédés de distillation destructive utilisant des charges de composition spéciale
Systems and methods are provided for recycling of plastic waste in crackers, including, in one embodiment, thermally cracking at least a plastic waste feed and a cracking feedstock to produce at least a cracking product comprising hydrocarbons, wherein the cracking feedstock comprises a T10 distillation point of 343°C or higher; measuring a contaminant concentration; and adjusting the plastic waste feed in response to the contaminant concentration.
C10B 53/07 - Distillation destructive spécialement conçue pour des matières premières solides particulières ou sous forme spéciale de matières polymères synthétiques, p.ex. pneumatiques
C10B 55/02 - Cokéfaction des huiles minérales, bitumes, goudrons ou analogues, ou de leurs mélanges, avec des matières carbonées solides avec des matières solides
C10B 55/10 - Cokéfaction des huiles minérales, bitumes, goudrons ou analogues, ou de leurs mélanges, avec des matières carbonées solides avec des matières solides avec des matières solides en mouvement sous forme dispersée selon la technique du "lit fluidisé"
C10G 1/10 - Production de mélanges liquides d'hydrocarbures à partir de schiste bitumineux, de sable pétrolifère ou de matières carbonées solides non fusibles ou similaires, p.ex. bois, charbon à partir de caoutchouc ou de déchets de caoutchouc
39.
POLYETHYLENE COMPOSITIONS AND FILMS MADE THEREFROM
A polyethylene copolymer useful in producing blown films may include: ethylene units; and 0.1 mol% to 15 wt% of C3-C18 alpha-olefin comonomer units, the polyethylene copolymer having: a density of 0.900 g/cm3 to 0.915 g/cm3, a melt index (MI, determined per ASTM D1238-20 at 190°C and 2.16 kg loading) (12) of 0.5 g/10 min to 1.5 g/10 min, a melt index ratio of 15 to 40, a cross-fractional chromatography (CFC) central cross moment covariance of less than -500K(kg/mol), a CFC correlation of -0.3 or less, a CFC equal halves Twl-Tw2 of -30°C or less and Mwl/Mw2 of 2 or greater, and a temperature rising elution fraction (TREF) T75-T25 30°C to 36°C.
The present disclosure generally relates to methods of pelletizing polymer solids. In at least one embodiment, a process for preparing a polymer pellet or a polymer briquette includes introducing a monomer, a catalyst, and a diluent into a reactor under polymerization conditions to form a granular polymer. The method includes introducing the polymer to a finishing device selected from the group consisting of a pellet mill, a rolling mill, a briquetter, or a combination thereof to form the polymer pellet or the polymer briquette without fully melting the granular polymer.
B29B 9/12 - Fabrication de granulés caractérisés par la structure ou la composition
B29C 39/00 - Moulage par coulée, c. à d. en introduisant la matière à mouler dans un moule ou entre des surfaces enveloppantes sans pression significative de moulage; Appareils à cet effet
41.
POLYOLEFIN ELASTOMER VITRIMER PREPARED WITH MULTI-FUNCTIONAL BORON-ESTER CROSSLINKERS
This disclosure relates generally to polyolefin elastomer vitrimer prepared with multi-functional boron-ester crosslinkers, to a process for preparing the polyolefin elastomer vitrimer and to a process for preparing the multi-functional boron-ester crosslinkers.
Processes for making and using slurry catalyst mixtures. In some embodiments, the process for making the slurry catalyst mixture can include introducing a mineral oil into a vessel. The mineral oil can be heated to a temperature of about 60° C. to about 80° C. to produce a heated mineral oil. A moisture concentration of the heated mineral oil can be reduced to produce a dried mineral oil. Catalyst particles can be introduced into the dried mineral oil to produce a mixture. The mixture can be agitated for at least 2 hours to remove at least a portion of any gas present within pores of the catalyst particles to produce the slurry catalyst mixture. The slurry catalyst mixture can be free of or include ≤1 wt % of any wax having a melting point, at atmospheric pressure, of ≥25° C., based on a total weight of the slurry catalyst mixture.
C08F 4/659 - Composant couvert par le groupe contenant une liaison métal de transition-carbone
C08F 4/6592 - Composant couvert par le groupe contenant une liaison métal de transition-carbone contenant au moins un cycle cyclopentadiényle, condensé ou non, p.ex. un cycle indényle ou fluorényle
Methods for detecting incipient sheeting in a polyolefin gas phase reactor. The method can include flowing one or more monomer gases through a first tubular protruding through a reactor wall, flowing one or more monomer gases through a second tubular protruding through the reactor wall, wherein the first tubular is located within the second tubular, and measuring a pressure differential of the monomer gases flowing through the first and second tubulars. Based on the measured pressure differential, incipient sheeting within the reactor can be detected and one or more redial measures can be employed to control or reverse the sheeting.
B01J 8/18 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solides; Appareillage pour de tels procédés les particules étant fluidisées
B01J 8/06 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solides; Appareillage pour de tels procédés avec des particules immobiles, p.ex. dans des lits fixes les particules solides étant disposées dans des tubes
B01J 8/00 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solides; Appareillage pour de tels procédés
Polymerization processes. In some embodiments, the polymerization process can include introducing a carrier fluid, an olefin, and a catalyst feed into a polymerization reactor, wherein the catalyst feed comprises one or more catalysts, a carrier liquid and optionally an induced condensing agent. In some embodiments, a combined amount of the carrier liquid and any induced condensing agent in the catalyst feed is ≥350 kg per mole of the one or more catalysts introduced into the polymerization reactor. The process can also include polymerizing the olefin in the presence of the catalyst within the polymerization reactor to produce a polymer product.
C08F 2/01 - Procédés de polymérisation caractérisés par des éléments particuliers des appareils de polymérisation utilisés
C08F 210/14 - Monomères contenant au moins cinq atomes de carbone
C08F 4/659 - Composant couvert par le groupe contenant une liaison métal de transition-carbone
C08F 4/6592 - Composant couvert par le groupe contenant une liaison métal de transition-carbone contenant au moins un cycle cyclopentadiényle, condensé ou non, p.ex. un cycle indényle ou fluorényle
Processes are described for producing mesophase pitch. The processes generally comprise providing a feedstock having a T5 ≥400° F. (204° C.) and a T95 ≤1,400° F. (760° C.) and heating the feedstock at a temperature ranging from about 420° C. to about 520° C. to produce a heat treated product including isotropic pitch. Generally, the heating is conducted under conditions sufficient to satisfy the relationship [X*Y]≥20,000 seconds, wherein X is the equivalent reaction time of the heating, and wherein Y is the bromine number of the feedstock as measured in accordance with ASTM D1159. The processes generally further comprise contacting the isotropic pitch with a solvent having a Solubility Blending number (SBN) of at least about 10 SU under conditions sufficient to produce a solvent fraction comprising the solvent and an insoluble fraction comprising mesophase pitch, and recovering the mesophase pitch.
C10C 3/08 - Traitement du brai, de l'asphalte, du bitume par extraction sélective
C10C 3/00 - Traitement du brai, de l'asphalte, du bitume
D01F 9/155 - Filaments de carbone; Appareils spécialement adaptés à leur fabrication par décomposition de filaments organiques à partir de brai ou de résidus de distillation à partir de brai de pétrole
48.
Processes and Systems for Separating Liquified Natural Gas
Disclosed are simplified and energy-efficient distillation processes and systems for separating a liquefied natural gas stream to obtain a natural gas stream and a national gas liquid stream. Substantial savings in construction costs and operation energy consumption can be achieved by using the processes and systems of this disclosure. Preferably the separation processes are integrated with other industrial processes such as petroleum refining, petrochemical production, chemical production, and the like.
F25J 3/02 - Procédés ou appareils pour séparer les constituants des mélanges gazeux impliquant l'emploi d'une liquéfaction ou d'une solidification par rectification, c. à d. par échange continuel de chaleur et de matière entre un courant de vapeur et un courant de liquide
49.
Processes and Systems for Removing Coke Particles from a Pyrolysis Effluent
Processes and systems for pyrolysing a hydrocarbon. In some examples, the process can include mixing a cooled hydrocarbon effluent and a cooled de-coking effluent to produce a combined effluent. The combined effluent can be introduced into an inlet conduit of a separator under conditions that provide >80 wt. % of the plurality of coke particles with a Stokes number of >10. From a first exit conduit of the separator >55 wt. % of the plurality of coke particles in the combined effluent can be removed, and from a second exit conduit of the separator a coke-lean hydrocarbon effluent that includes <45 wt. % of the plurality of coke particles in the combined effluent can be removed. The first exit conduit and the second exit conduit can be coupled to the inlet conduit.
A variety of methods are disclosed, including, in one embodiment, preparing a slurry catalyst mixture comprising a multi-modal catalyst and a carrier fluid, wherein the multi-modal catalyst comprises a first activated catalyst and a second activated catalyst; introducing the slurry catalyst mixture into a sample chamber; illuminating the slurry catalyst mixture in the sample chamber with light generated from a light source; capturing a spectrum of the slurry catalyst mixture using a detector, wherein the spectrum comprises at least one spectrum selected from the group consisting of UV-Vis spectrum, emission spectrum, and combinations thereof; and determining a calculated ratio of an amount of the first activated catalyst and an amount of the second activated catalyst in the multi-modal catalyst from the spectrum of the slurry catalyst mixture by fitting the spectrum of the slurry catalyst mixture to a single component spectrum of the first activated catalyst and a single component spectrum of the second activated catalyst, using spectral deconvolution.
G01N 21/31 - Couleur; Propriétés spectrales, c. à d. comparaison de l'effet du matériau sur la lumière pour plusieurs longueurs d'ondes ou plusieurs bandes de longueurs d'ondes différentes en recherchant l'effet relatif du matériau pour les longueurs d'ondes caractéristiques d'éléments ou de molécules spécifiques, p.ex. spectrométrie d'absorption atomique
Di-aryl silane bridged metallocene catalysts, methods for making and propylene (co)polymers made therefrom. The resulting silane bridged metallocene catalysts are very active in polymerization of olefins, especially ethylene and propylene. The di-aryl silane bridged metallocene ccaann be synthesized by substituting a dichloro cyclopentadienyl fragment with indenyl lithium. Direct lithitation / substitution with aryl or alkyl lithium reagents provides a di-lithiated ligand that undergoes metalation with a Group IV metal precursor.
A process for producing an alkylaromatic compound comprises providing a first feed comprising an alkylatable aromatic compound and a second feed comprising an alkylating agent, wherein at least the first feed contains an impurity compound comprising at least one of nitrogen, halogens, oxygen, sulfur, arsenic, selenium, tellurium, phosphorus, and Group 1 through Group 12 metals The first feed is passed through an adsorbent comprising a metal-organic framework material under conditions effective to reduce the amount of impurity compound in the first feed and produce a purified first feed. The purified first feed and at least part of the second feed are then contacted with an alkylation catalyst composition under alkylation conditions effective to convert at least part of the alkylatable aromatic compound in the purified first feed to the desired alkylaromatic compound and produce an alkylation effluent.
C07C 7/13 - Purification, séparation ou stabilisation d'hydrocarbures; Emploi d'additifs par adsorption, c. à d. purification ou séparation d'hydrocarbures à l'aide de solides, p.ex. à l'aide d'échangeurs d'ions par la technique du tamis moléculaire
B01J 20/22 - Compositions absorbantes ou adsorbantes solides ou compositions facilitant la filtration; Absorbants ou adsorbants pour la chromatographie; Procédés pour leur préparation, régénération ou réactivation contenant une substance organique
B01J 8/02 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solides; Appareillage pour de tels procédés avec des particules immobiles, p.ex. dans des lits fixes
Aspects of the technology described herein make legacy hydrocarbon studies accessible to modern computer analysis. Whatever the initial format, the technology described herein analyzes the studies to identify characteristics that are interesting to people who study hydrocarbon environments. As an initial process, various segments within a hydrocarbon study received by the technology described herein are identified. The various segments can include text, maps, charts, and tables. Within each of these segments, specific types of text segments, maps, charts, and tables may be identified. For each segment identified, characteristics of interest may be determined through analysis of the segment. In one aspect, segment-specific analysis is performed on each type of segment. Different technologies may be used for different segments. Once the characteristics are identified, they may be stored in association with both the overall document and with a segment of the document from which the characteristic of interest was extracted.
A process for producing an olefin polymer employs a gas phase polymerization reactor in fluid communication with a vent column and a product discharge system. The discharge system can include first and second pairs of lock hoppers, where each pair includes an upstream lock hopper connected by a valve to the reactor and a downstream lock hopper connected by a valve to the upstream lock hopper and by a further valve to a product recovery system, and where a first cross-tie can be provided between the upstream lock hoppers of the first and second pairs of lock hoppers and a second cross-tie can be provided between the downstream lock hoppers of the first and second pairs of lock hoppers. Upon reaching the vent column's maximum removal capacity, additional gas can be removed from the reactor by reducing the frequency of opening the second cross-tie between the downstream lock hoppers.
B01J 8/18 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solides; Appareillage pour de tels procédés les particules étant fluidisées
B01J 8/00 - Procédés chimiques ou physiques en général, conduits en présence de fluides et de particules solides; Appareillage pour de tels procédés
56.
Methods and Systems for Processing Hydrocarbon Streams
The present disclosure relates to a method of processing hydrocarbons including depressurizing a hydrocarbon stream, vaporizing at least a portion of a non-vapor phase hydrocarbon of the stream, and separating first and second products. The first product includes at least a portion of the vaporized stream's vapor phase hydrocarbon that became vapor during the vaporization, and the second product includes at least a portion of the vaporized stream remaining as non-vapor during the vaporization. The separation includes a gross separator such as a cyclone, a vane pack device, a knock-out drum optionally having a demister pad, or combination(s) thereof. Non-vapor phase droplets of the first product are removed from the first product of the stream using coalescing elements before processing in a pyrolysis reactor.
C10G 55/04 - Traitement des huiles d'hydrocarbures, en l'absence d'hydrogène, par au moins un procédé de raffinage et par au moins un procédé de craquage uniquement par plusieurs étapes en série comprenant au moins une étape de craquage thermique
Processes are provided for removing contaminants from a refinery gas. Such process can include recovering a process gas comprising ethylene and propylene from a steam cracker effluent recovered from a stream cracker in a steam cracker facility. A refinery gas can be recovered from a refinery facility. The process gas can be compressed in a plurality of compressor stages. A pressure of the refinery gas can be determined. A compressor stage in the plurality of compressor stages can be selected for introducing the refinery gas using the determined pressure of the refinery gas. The refinery gas can be introduced into the selected compressor stage to produce a combined gas that can include the process gas and the refinery gas. At least a portion of one or more impurities can be removed from the combined gas in the steam cracker facility to produce an upgraded combined gas.
C07C 7/09 - Purification, séparation ou stabilisation d'hydrocarbures; Emploi d'additifs par condensation fractionnée
C07C 7/12 - Purification, séparation ou stabilisation d'hydrocarbures; Emploi d'additifs par adsorption, c. à d. purification ou séparation d'hydrocarbures à l'aide de solides, p.ex. à l'aide d'échangeurs d'ions
C10G 55/04 - Traitement des huiles d'hydrocarbures, en l'absence d'hydrogène, par au moins un procédé de raffinage et par au moins un procédé de craquage uniquement par plusieurs étapes en série comprenant au moins une étape de craquage thermique
66.
POLYPROPYLENE COMPOSITIONS WITH ENHANCED STRAIN HARDENING AND METHODS OF PRODUCING SAME
Polymer compositions can include a first polymer component containing polypropylene; a second polymer component containing a high molecular weight copolymer having a weight average molecular weight of greater than about 1 MDa; wherein the polymer composition has a peak extensional viscosity (non-annealed) at a strain rate of 1/sec (190°C) of greater than 55 kPa·s. Methods can include include preparing a polypropylene composition by a multistage polymerization including a first stage generating a propylene polymer, and a second stage generating a high molecular weight copolymer having a weight average molecular weight of greater than about 1 MDa; wherein the polymer composition has a peak extensional viscosity (non-annealed) at a strain rate of 1/sec (190°C) of greater than 55 kPa·s.
The present disclosure relates to a process for producing a polymer, in particular a purged polymer, including manufacturing a polymer in a polymerization reactor in the presence of a catalyst at a first temperature, wherein the catalyst has a maximum catalyst capability dependent on temperature, and wherein the polymer has a tackiness limit dependent on temperature; discharging the polymer from the polymerization reactor into a first process vessel; at least partially removing undesirable compounds including volatile organic compounds and/or residual polymerization reactants from the polymer and/or odorous compounds, and optionally contacting the polymer with a flow of purge gas in the first process vessel; transferring the polymer from the first process vessel to a second process vessel; contacting the polymer in the second process vessel with a flow of purge gas; and recovering a polymer product comprising the polymer from which undesirable compounds have been purged.
Polyolefin elastomeric ionomers and methods related thereto and, more particularly, to propylene- based elastomeric ionomers and methods of production and use related thereto. The polyolefin elastomeric ionomers include at least a polyolefin component and metal-based neutralization agent component. The polyolefin elastomeric ionomers can exhibit improved elasticity at body temperature or at higher temperatures.
This invention relates to a process to produce cyclic olefin containing polymer compositions using transition metal complexes of a dianionic, tridentate ligand that features a central neutral heterocyclic Lewis base and two phenolate donors, where the tridentate ligand coordinates to the metal center to form two eight-membered rings. Preferably the bis(phenolate) complexes are represented by Formula (I):
This invention relates to a process to produce cyclic olefin containing polymer compositions using transition metal complexes of a dianionic, tridentate ligand that features a central neutral heterocyclic Lewis base and two phenolate donors, where the tridentate ligand coordinates to the metal center to form two eight-membered rings. Preferably the bis(phenolate) complexes are represented by Formula (I):
This invention relates to a process to produce cyclic olefin containing polymer compositions using transition metal complexes of a dianionic, tridentate ligand that features a central neutral heterocyclic Lewis base and two phenolate donors, where the tridentate ligand coordinates to the metal center to form two eight-membered rings. Preferably the bis(phenolate) complexes are represented by Formula (I):
where M, L, X, m, n, E, E′, Q, R1, R2, R3, R4, R1′, R2′, R3′, R4′, A1, A1′, A3A2, and A2′A3′ are as defined herein, where A1QA1′ are part of a heterocyclic Lewis base containing 4 to 40 non-hydrogen atoms that links A2 to A2′ via a 3-atom bridge with Q being the central atom of the 3-atom bridge.
C08F 232/04 - Copolymères de composés cycliques ne contenant pas de radicaux aliphatiques non saturés dans une chaîne latérale et contenant une ou plusieurs liaisons doubles carbone-carbone dans un système carbocyclique ne contenant pas de cycles condensés contenant une seule double liaison carbone-carbone
C08F 232/08 - Copolymères de composés cycliques ne contenant pas de radicaux aliphatiques non saturés dans une chaîne latérale et contenant une ou plusieurs liaisons doubles carbone-carbone dans un système carbocyclique contenant des cycles condensés
Methods for resin hydrogenation and decoloration may comprise reacting a resin mixture with a sulfided bimetallic catalyst and excess hydrogen under conditions effective to form a hydrogenated resin mixture, the resin mixture comprising an oligomerized reaction product of at least one polymerizable monomer containing an olefinic unsaturation and a solvent; providing the hydrogenated resin mixture directly to a noble metal catalyst; and reacting the hydrogenated resin mixture in the presence of the noble metal catalyst under conditions effective to form a decolorized resin mixture. Decolorized resin compositions comprising a decolorized resin mixture formed in accordance with the foregoing may have a yellowness index of about 10 or below, as measured by ASTM E313.
Provided herein is a method for producing a hydrocarbon fluid from waste plastic feedstock, comprising (a) providing a first hydrocarbon feed stream, wherein at least 50 wt % off said first hydrocarbon feed stream is obtained from pyrolysis of plastic waste; (b) removing contaminants from said first hydrocarbon feed stream using a washing step with a polar solvent and/or contacting the stream with one or more adsorbents; thereby obtaining a first hydrocarbon fluid; and (c) hydrogenation of olefins and diolefins in said first hydrocarbon fluid; thereby obtaining a hydroprocessed hydrocarbon fluid containing less than 0.1 wt % olefins; a total amount of Nmetals selected from mercury, lead, and iron below 5 wppm; less than 5 wppm of chlorine and fluorine; and less than 5 wppm of sulfur.
C10G 67/06 - Traitement des huiles d'hydrocarbures, uniquement par au moins un procédé d'hydrotraitement et au moins un procédé de raffinage en l'absence d'hydrogène uniquement par plusieurs étapes en série comprenant un procédé d'absorption ou d'adsorption comme étape de raffinage en l'absence d'hydrogène
73.
Nonwoven Fabrics with Improved Haptics and Mechanical Properties
A multicomponent fiber for nonwovens and methods for making and using same. The multicomponent fiber can include a first component comprising a first polypropylene having a MFR of at least 30 dg/min and a second polypropylene having a MFR of less than 20 dg/min. The multicomponent fiber can further include a second component comprising the first polypropylene and at least one propylene-based elastomer comprising propylene and about 10 wt % to about 30 wt % of one or more alpha-olefin derived units, based on a total weight of the elastomer, wherein the propylene-based elastomer has a MFR of at least 40 dg/min and a heat of fusion (Hi) of about 3 J/g to about 75 J/g, as determined by DSC.
D01F 8/10 - Filaments, ou similaires, faits par l’homme, conjugués, c. à d. à plusieurs composants; Leur fabrication à partir de polymères synthétiques avec au moins un autre composé macromoléculaire obtenu par des réactions faisant intervenir uniquement des liaisons non saturées carbone-carbone comme constituant
D01F 8/06 - Filaments, ou similaires, faits par l’homme, conjugués, c. à d. à plusieurs composants; Leur fabrication à partir de polymères synthétiques avec au moins une polyoléfine comme constituant
D01D 5/32 - Structure "côte-à-côte"; Ensembles de filage à cet effet
74.
EWT FRAMEWORK MOLECULAR SIEVES, MANUFACTURING PROCESSES AND USES THEREOF
C01B 39/02 - Zéolites aluminosilicates cristallines; Leurs composés isomorphes; Leur préparation directe; Leur préparation à partir d'un mélange réactionnel contenant une zéolite cristalline d'un autre type, ou à partir de réactants préformés; Leur post-traitement
B01J 29/70 - Zéolites aluminosilicates cristallines; Leurs composés isomorphes de types caractérisés par leur structure spécifique non prévus dans les groupes
Fischer-Tropsch processes for converting syngas produces linear alpha olefins at high yield and selectivity in the presence of supported nano-particle catalyst compositions and/or metal carbide/nitride-containing catalyst compositions.
C07C 1/04 - Préparation d'hydrocarbures à partir d'un ou plusieurs composés, aucun d'eux n'étant un hydrocarbure à partir d'oxydes de carbone à partir de monoxyde de carbone avec de l'hydrogène
B01J 23/83 - Catalyseurs contenant des métaux, oxydes ou hydroxydes métalliques non prévus dans le groupe du cuivre ou des métaux du groupe du fer en combinaison avec des métaux, oxydes ou hydroxydes prévus dans les groupes avec des terres rares ou des actinides
The present disclosure relates to a precursor for making an activator in a catalyst system for olefin polymerization and methods of producing the precursor, the catalyst system, and the polyolefin. In at least one embodiment, an alumoxane precursor includes (i) the reaction product of at least one non-hydrolytic oxygen-containing compound and at least one hydrocarbyl aluminum; and (ii) an aliphatic hydrocarbon fluid. The reaction product can be identified by first set of signals in an 1HNMR spectrum in a region from about 4.5 ppm to about 5.1 ppm and a second set of signals in a region from about 5.1 ppm to about 6.5 ppm. The ratio of the first to the second set of signals is greater than or equal to about 2.8. The alumoxane precursor is easy to store and ship compared to MAO, which is an intermediate product in conventional methods for forming supported alumoxane.
Processes for upgrading a hydrocarbon-containing feed. The feed and a first particle stream can be contacted under pyrolysis conditions to effect pyrolysis of the feed to produce a pyrolysis effluent that can include olefins and the particles, where coke can be formed on the particles. A first gaseous stream and a second particle stream can be obtained from the pyrolysis effluent. At least a portion of the first gaseous stream can be contacted with oligomerization catalyst particles under oligomerization conditions to effect oligomerization of at least a portion of olefins in the first gaseous stream.
C07C 2/12 - Procédés catalytiques avec des alumino-silicates cristallins, p.ex. avec des tamis moléculaires
C10G 55/06 - Traitement des huiles d'hydrocarbures, en l'absence d'hydrogène, par au moins un procédé de raffinage et par au moins un procédé de craquage uniquement par plusieurs étapes en série comprenant au moins une étape de craquage catalytique
Processes for calcining a catalyst. The process can include subjecting a synthesized catalyst that includes Pt disposed on a support to an initial calcination that includes exposing the catalyst to a. first reducing gas or a. first oxidizing gas to produce an initial calcined catalyst. The process can optionally include subjecting the initial calcined, catalyst to a cycle calcination that includes exposing the initial calcined catalyst to a second reducing gas and a second oxidizing, gas to produce a cycle calcined catalyst. The process can optionally include subjecting the initial or the cycle calcined catalyst to a. final calcination that includes exposing the initial or the cycle calcined catalyst to a third reducing gas or a third oxidizing gas. At least one of the cycle and the final calcination can be carried out. A calcined catalyst can be obtained at the end of the cycle or the final calcination.
Processes for calcining a catalyst. The process can include subjecting a synthesized catalyst that includes Pt disposed on a support to an initial calcination that includes exposing the catalyst to a first reducing gas or a first oxidizing gas to produce an initial calcined catalyst. The process can optionally include subjecting the initial calcined. catalyst to a cycle calcination that includes exposing the initial calcined catalyst to a second reducing gas and a second oxidizing gas to produce a cycle calcined catalyst. The process can optionally include subjecting the initial or the cycle calcined catalyst to a final calcination that includes exposing the initial or the cycle calcined catalyst to a third reducing gas or a third oxidizing gas. At least one of the cycle and the final calcination can be carried out. A calcined catalyst can be obtained at the end of the cycle or the final calcination.
B01J 23/62 - Métaux du groupe du platine avec du gallium, de l'indium, du thallium, du germanium, de l'étain ou du plomb
B01J 23/02 - Catalyseurs contenant des métaux, oxydes ou hydroxydes métalliques non prévus dans le groupe des métaux alcalins ou alcalino-terreux ou du béryllium
Provided herein are novel catalyst complexes useful in ring-opening polymerization of lactones particularly β-lactones. The catalyst complexes have a structural formula that includes a ligand and metal precursor of zinc and aluminum. The catalyst complexes avoid using expensive and toxic chemicals, and provide the ability to operate the polymerization process above room temperature or 20°C.
The present disclosure provides aromatic-solvent-free supported catalyst compounds and catalyst systems comprising asymmetric bridged metallocenes containing a ligand having at least one saturated ring, catalyst systems including such compounds, and uses thereof. These supported catalyst compounds and catalyst systems can be used to prepare polymer comprising no aromatic solvent.
C08F 4/6592 - Composant couvert par le groupe contenant une liaison métal de transition-carbone contenant au moins un cycle cyclopentadiényle, condensé ou non, p.ex. un cycle indényle ou fluorényle
C08F 4/659 - Composant couvert par le groupe contenant une liaison métal de transition-carbone
Processes and for converting a hydrocarbon-containing feed by pyrolysis and gasification/combustion. The hydrocarbon-containing feed can be heated to produce a heated feed that can be separated into a vapor and a liquid. At least a portion of the vapor and/or at least a portion of the liquid and a particle stream can be fed into a pyrolysis zone and contacted therein to effect pyrolysis of the hydrocarbons and produce a pyrolysis effluent.
C10J 3/46 - Gazéification des combustibles granuleux ou pulvérulents en suspension
C10B 55/10 - Cokéfaction des huiles minérales, bitumes, goudrons ou analogues, ou de leurs mélanges, avec des matières carbonées solides avec des matières solides avec des matières solides en mouvement sous forme dispersée selon la technique du "lit fluidisé"
C01B 3/50 - Séparation de l'hydrogène ou des gaz contenant de l'hydrogène à partir de mélanges gazeux, p.ex. purification
C01B 3/30 - Production d'hydrogène ou de mélanges gazeux contenant de l'hydrogène par décomposition de composés organiques gazeux ou liquides d'hydrocarbures avec des particules solides mobiles utilisant la technique du lit fluidisé
86.
PROCESSES AND SYSTEMS FOR FRACTIONATING A PYROLYSIS EFFLUENT
Processes and systems for fractionating a pyrolysis effluent. The effluent can be separated into a first liquid and a first vapor within a flash zone of a primary' fractionator. A pyrolysis tar can be recovered from the flash zone. The first vapor can flow into a quench zone and can be contacted with a first quench medium to produce a. second liquid and a second vapor. A pyrolysis quench oil can be recovered from the quench zone. The second vapor can flow into a fractionation zone and can be contacted with a second quench medium. A pyrolysis gas oil and a process gas can be recovered from the fractionation zone. Heat can be indirectly transferred from the pyrolysis quench oil to a heat transfer medium to produce a cooled pyrolysis quench oil. The first quench medium can include at least a portion of the cooled pyrolysis quench oil.
C10G 9/36 - Craquage thermique non catalytique, en l'absence d'hydrogène, des huiles d'hydrocarbures par contact direct avec des fluides inertes préchauffés, p.ex. avec des métaux ou sels fondus avec des gaz ou vapeurs chauds
C10G 9/00 - Craquage thermique non catalytique, en l'absence d'hydrogène, des huiles d'hydrocarbures
87.
LOW COST PROCESSES OF IN-SITU MAO SUPPORTATION AND THE DERIVED FINISHED POLYOLEFIN CATALYSTS
The present disclosure provides methods for preparing a catalyst system comprising contacting in an organic solvent at a temperature of from less than -6°C to -60°C at least one support material having absorbed water and trimethylaluminum (TMA) to form a supported MAO (catalyst precursor) in-situ and contacting the supported MAO with at least one catalyst precursor compound having a Group (3) through Group (12) metal atom or lanthanide metal atom, wherein the TMA to water ratio and the in-situ sMAO formation temperature are so controlled that the supemate after the in-situ supported MAO formation with optional heating or after the finished catalyst formation contains no NMR detectable TMA or no more than 500ppm TMA.
Metal-ligand complexes may comprise a transition metal atom or a lanthanide metal atom and a ligand having a structure represented by Formula 1: in which R1, R2, R5, and R611414 hydrocarbyl; R3and R411414 hydrocarbyl, or R3and R4are joined together to form an optionally substituted 6-membered aromatic ring; R511031063030 aryl, a heteroaryl group, or CN, provided that R531063030 aryl, a heteroaryl group, or CN if the transition metal atom is Ti or Zr and R3and R4are joined together to form an optionally substituted 6-membered aromatic ring, or if the transition metal atom is Ti or Zr and R1-R4 are all H; and Z is a bridging atom. Catalyst systems may comprise at least one activator and one or more metal-ligand complexes.
Provided herein are polyethylene compositions having a combination of properties including: density from about 0.930 to 0.975 g/cm3; broad molecular weight distributions (Mw/Mn≥10 and/or Mz/Mn≥80) and a highly branched architecture (e.g., g′LCB less than or equal to 0.85, preferably less than or equal to 0.75). The polyethylene compositions may further have a low molecular weight fraction (LMWF) and a high molecular weight fraction (HMWF), such that the wt % of LMWF in the compositions is greater than the wt % of HMWF. The polyethylene compositions may be suitable for making films, particularly oriented films such as uni axially (machine-direction-oriented) or biaxially-oriented films, and in particular all-PE films.
Processes for converting a hydrocarbon-containing feed by pyrolysis and gasification/combustion. The hydrocarbon-containing feed and heated particles can be fed into a pyrolysis zone and contacted therein to effect pyrolysis of the hydrocarbons and produce a pyrolysis effluent. A gaseous stream rich in olefins and a particle stream rich in particles that include coke disposed thereon can be obtained from the pyrolysis effluent. A CO2-rich stream that includes, on a dry basis, CO2 at a concentration ≥90 vol %, based on the total volume of the CO2-rich stream, can be obtained from the gasification/combustion gas mixture.
C01B 3/12 - Production d'hydrogène ou de mélanges gazeux contenant de l'hydrogène par réaction de composés inorganiques comportant un hydrogène lié électropositivement, p.ex. de l'eau, des acides, des bases, de l'ammoniac, avec des agents réducteurs inorganiques par réaction de la vapeur d'eau avec l'oxyde de carbone
C01B 3/50 - Séparation de l'hydrogène ou des gaz contenant de l'hydrogène à partir de mélanges gazeux, p.ex. purification
C09K 8/594 - Compositions utilisées en combinaison avec du gaz injecté
C10J 3/46 - Gazéification des combustibles granuleux ou pulvérulents en suspension
C10B 55/10 - Cokéfaction des huiles minérales, bitumes, goudrons ou analogues, ou de leurs mélanges, avec des matières carbonées solides avec des matières solides avec des matières solides en mouvement sous forme dispersée selon la technique du "lit fluidisé"
A feed mixture comprising one or more xylene isomers may be separated in a p-xylene recovery unit using simulated moving bed. chromatography with toluene as a desorbent to obtain a product stream rich in p-xylene and a raffinate stream lean in p-xylene. Optionally, an intermediate stream may be obtained as well. At least a portion of the raffinate stream or an isomerized raffinate stream may be separated in a distillation column to produce an overhead, stream comprising toluene, which may be fed to the p-xylene recovery unit as at least a portion of the desorbent. If present, the intermediate stream may be isomerized under liquid-phase isomerization conditions and fed to the p-xylene recovery unit. At least a portion of the raffinate stream or one or more lower streams obtained from the distillation column may be isomerized under liquid-phase isomerization conditions and fed to the p-xylene recovery unit.
C07C 7/04 - Purification, séparation ou stabilisation d'hydrocarbures; Emploi d'additifs par distillation
B01D 15/18 - Adsorption sélective, p.ex. chromatographie caractérisée par des caractéristiques de structure ou de fonctionnement relatives aux différents types d'écoulement
C07C 7/12 - Purification, séparation ou stabilisation d'hydrocarbures; Emploi d'additifs par adsorption, c. à d. purification ou séparation d'hydrocarbures à l'aide de solides, p.ex. à l'aide d'échangeurs d'ions
92.
MACHINE DIRECTION ORIENTED POLYETHYLENE FILMS FOR LABELS AND RELATED METHODS
Machine direction oriented polyethylene films may be useful as the face stock material of labels. Anonlimiting oriented film may include: a first layer comprising a long chain branched metallocenelinear low density polyethylene (LCB-mLLDPE); a second layer comprising a high densitypolyethylene; a third layer comprising 0 wt% to about 90 wt% of a metallocene linear low densitypolyethylene (mLLDPE) and about 10 wt% to 100 wt% of an ethylene-based elastomer and/or apropylene-based elastomer, wherein the third layer does not form a surface of the oriented film;wherein the oriented film has a polyethylene content of about 90 wt% or greater; and wherein theoriented film has a uniaxial, machine orientation.
B29C 48/00 - Moulage par extrusion, c. à d. en exprimant la matière à mouler dans une matrice ou une filière qui lui donne la forme désirée; Appareils à cet effet
B29C 48/10 - Objets dont la section transversale comporte des cavités partiellement ou entièrement fermées, p.ex. tuyaux ou canaux flexibles, p.ex. pellicules flexibles soufflées
B29C 48/21 - Articles comprenant au moins deux composants, p.ex. couches coextrudées les composants étant des couches les couches étant jointes à leurs surfaces
B29C 55/00 - Façonnage par étirage, p.ex. étirage à travers une matrice; Appareils à cet effet
B29C 55/28 - Façonnage par étirage, p.ex. étirage à travers une matrice; Appareils à cet effet de pellicules tubulaires soufflées, p.ex. par gonflage
B32B 27/08 - Produits stratifiés composés essentiellement de résine synthétique comme seul composant ou composant principal d'une couche adjacente à une autre couche d'une substance spécifique d'une résine synthétique d'une sorte différente
B32B 27/32 - Produits stratifiés composés essentiellement de résine synthétique comprenant des polyoléfines
A method including: preparing an alumoxane precursor from an organic oxygen source, a hydrocarbyl aluminum, and an organic solvent; heating the alumoxane precursor to form an alumoxane suspension; removing solid methylaluminoxane from the alumoxane suspension by filtering the alumoxane suspension to form a filtered solution; and combining the filtered solution with a support to form a supported alumoxane precursor.
The invention relates to a non-aromatic hydrocarbon soluble catalyst compound represented by the formula: wherein: M is a Group 4 metal; each X is independently a leaving group, such as an anionic leaving group; m is 1, 2 or 3; L is a Group 15 or 16 element; Y and Z are independently phosphorus, nitrogen sulfur, or oxygen; R1 and R2 are, independently, a C1 to C20 (such as C1 to C3) hydrocarbon group, a heteroatom containing group, silicon, germanium, tin, lead, or phosphorus, or R1 and R2 are interconnected to each other; R3 may be absent or may be a hydrocarbon group, a hydrogen, a halogen, a heteroatom containing group; and each R4 and R5 is independently a substituted C5 to C22 aromatic group, wherein the catalyst compound is soluble in non-aromatic hydrocarbons.
The invention relates to a non-aromatic hydrocarbon soluble catalyst compound represented by the formula: wherein: M is a Group 4 metal; each X is independently a leaving group, such as an anionic leaving group; m is 1, 2 or 3; L is a Group 15 or 16 element; Y and Z are independently phosphorus, nitrogen sulfur, or oxygen; R1 and R2 are, independently, a C1 to C20 (such as C1 to C3) hydrocarbon group, a heteroatom containing group, silicon, germanium, tin, lead, or phosphorus, or R1 and R2 are interconnected to each other; R3 may be absent or may be a hydrocarbon group, a hydrogen, a halogen, a heteroatom containing group; and each R4 and R5 is independently a substituted C5 to C22 aromatic group, wherein the catalyst compound is soluble in non-aromatic hydrocarbons.
A feed mixture comprising one or more xylene isomers and C9+ aromatic hydrocarbons may be separated in a first distillation column to obtain a first overhead stream comprising m-xylene and/or p-xylene and a first bottoms stream comprising o-xylene and C9+ aromatic hydrocarbons. The first bottoms stream may be optionally isomerized through liquid-phase isomerization and fed to a. second distillation column to obtain a second overhead stream comprising at least o-xylene and a second bottoms stream comprising C9+ aromatic hydrocarbons. The second overhead stream may be optionally isomerized through liquid-phase isomerization. Liquid-phase isomerization may occur upon at least one of the first bottoms stream, the second overhead stream, an optional side stream obtained from the first or second distillation columns, or within the first or second distillation columns, such that the second overhead stream or an isomerized second overhead stream is rich in p-xylene.
B01D 15/18 - Adsorption sélective, p.ex. chromatographie caractérisée par des caractéristiques de structure ou de fonctionnement relatives aux différents types d'écoulement
C07C 7/04 - Purification, séparation ou stabilisation d'hydrocarbures; Emploi d'additifs par distillation
96.
POLYETHYLENE COMPOSITIONS AND RELATED BICOMPONENT FIBERS, NONWOVEN FABRICS, AND METHODS
A polyethylene copolymer may comprise about 90 wt% to about 99.99 wt% ethylene and about 0.01 wt% to about 10 wt% an alpha-olefin that is not ethylene, wherein the polyethylene has: a density of about 0.930 g/cm3to about 0.955 g/cm3, a melt flow index (2.16 kg at 190°C) of about 10 g/10 min to about 50 g/10 min, a melt flow index ratio (MIR) of about 15 to about 25, a weight average molecular weight to number average molecular weight ratio (Mw/Mn) of about 2 to about 4, a wt% of TREF elution at 90°C and less of about 10 wt% to about 80 wt%, and a wt% of TREF elution at 95°C and greater of about 3 wt% or more. Said polyethylene may be especially well-suited for making bicomponent fibers, which may be useful producing in nonwoven fabrics.
C08F 210/16 - Copolymères de l'éthylène avec des alpha-alcènes, p.ex. caoutchoucs EP
B32B 5/02 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par les caractéristiques de structure d'une couche comprenant des fibres ou des filaments
C08F 4/659 - Composant couvert par le groupe contenant une liaison métal de transition-carbone
D01D 5/34 - Structure "âme-gaine"; Ensembles de filage à cet effet
D01F 8/06 - Filaments, ou similaires, faits par l’homme, conjugués, c. à d. à plusieurs composants; Leur fabrication à partir de polymères synthétiques avec au moins une polyoléfine comme constituant
97.
ETHYLENE-BASED POLYMERS, ARTICLES MADE THEREFROM, AND PROCESSES FOR MAKING SAME
31822) of 0. 1 g/10 min to 10 g/10 min, a density of 0.890 g/cm3to 0.910 g/cm3752525 value, as measured by TREF, of 16.5°C to 21°C, a complex viscosity measured at a shear rate of 10 rad/s of 5,700 Pa·s to 8,700 Pa·s, and a complex viscosity measured at a shear rate of 0.1 rad/s of 11,100 Pa·s to 14,100 Pa·s.
36 - Services financiers, assurances et affaires immobilières
Produits et services
T-shirts, jackets, hats Grant-making services, namely providing funding to organizations for research and programs directed to science, technology, engineering, and math education
36 - Services financiers, assurances et affaires immobilières
Produits et services
T-shirts, jackets, hats Grant-making services, namely providing funding to organizations for research and programs directed to science, technology, engineering, and math education