Toshihiro Takai
Toshihiro Takai, Sodegaura-Shi JP
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20100324341 | MODIFIED ACIDIC ION-EXCHANGE RESIN AND METHOD FOR PREPARING BISPHENOL - The present invention provides an ion-exchange resin catalyst, as a catalyst for preparing bisphenol from phenol compounds and ketone, which has a higher selectivity to bisphenol and a longer life time, as compared to a conventional ion-exchange resin, and a method for preparing the same. | 12-23-2010 |
20110092744 | PROCESS FOR PRODUCING BISPHENOL A - The present invention provides a process for producing bisphenol A by reacting phenol with actone, wherein reaction is performed at higher temperatures while maintaining high selectivity, and thus high productivity is obtained. The invention relates to a cation-exchange resin, wherein a cation-exchange group is introduced into a syndiotactic polystyrene polymer and the amount of acid is 0.8 milliequivalent/g or more, to a catalyst comprising the cation-exchange resin, and to a process for producing bisphenol A using a cation-exchange resin catalyst. | 04-21-2011 |
Toshihiro Takai, Hyogo JP
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20080312485 | Method of Producing Propylene Containing Biomass-Origin Carbon - Ethanol obtained from ordinary biomass resources contains many impurities other than water and these impurities themselves or their decomposition products contaminate ethylene when the ethylene is produced by a dehydration reaction, whereby the activity of metathesis catalyst is adversely affected. A method for producing propylene of the present invention is characterized in that the ethanol obtained from biomass is converted to ethylene by a dehydration reaction, the ethylene is separated from the generated water, the separated ethylene is purified by adsorption in an adsorption tower filled with an adsorbent, and then a metathesis reaction is carried out along with a raw material containing n-butene. With the present invention, propylene having biomass-derived carbon and reduced-environmental burden can be efficiently produced without lowering the catalysis activity. | 12-18-2008 |
20100063339 | PROCESS FOR PRODUCING OLEFINS - In a process for producing olefins by a metathesis reaction comprising feeding an olefin gas to pass the olefin through a catalyst bed in the presence of hydrogen gas to convert the olefin into another kind of olefin, the catalyst bed having a catalyst including at least one metal selected from the group consisting of tungsten, molybdenum, rhenium, niobium, tantalum and vanadium, and a co-catalyst including a basic compound having at least one metal selected from the group consisting of Group Ia (alkali metals), Group IIa (alkaline earth metals), Group IIb and Group IIIa of the periodic table, the improvement lies in controlling the superficial velocity of the gas passing through the catalyst bed to 0.01 to 2.0 m/sec. According to the present invention, the presence of hydrogen gas dramatically increases the durability of the metathesis catalytic activity and the by-production of paraffins is suppressed. | 03-11-2010 |
20100145126 | Process of Producing Olefins - A process of producing olefins by a metathesis reaction in a practical low temperature range by improving the reactivity of the catalyst is provided. | 06-10-2010 |
20110152595 | OLEFIN PRODUCTION PROCESS - A process is provided which is capable of producing olefins stably and efficiently by a metathesis reaction of identical or different olefins while preventing the lowering in metathesis catalyst activity due to trace impurities such as heteroatom-containing compounds that are contained in a starting olefin. | 06-23-2011 |
Toshihiro Takai, Nishinomiya-Shi JP
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20100022805 | PROCESS FOR PREPARING ALKYLATED AROMATIC COMPOUND - The present invention provides a process in which a ketone is directly reacted with an aromatic compound in a single reaction step to obtain the corresponding alkylated aromatic compound in a higher yield. By reacting an aromatic compound with a ketone and hydrogen in the presence of a solid acid substance and a catalyst composition containing Cu and Zn in a ratio of Zn to Cu ranging from 0.70 to 1.60 (atomic ratio), the corresponding alkylated aromatic compound is prepared. | 01-28-2010 |
20100022812 | PROCESS FOR PRODUCING ALKYLATED AROMATIC COMPOUND AND PROCESS FOR PRODUCING PHENOL - The present invention provides an industrially practical process where a ketone and an aromatic compound are directly reacted to obtain a corresponding alkylated aromatic compound in a single reaction step. The process for producing an alkylated aromatic compound is characterized in that it comprises reacting an aromatic compound, a ketone and hydrogen in the presence of a solid acid substance and a catalyst composition comprising at least one metal selected from the group consisting of Co, Re, Ni and a platinum group metal. | 01-28-2010 |
Toshihiro Takai, Aichi-Gun JP
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20090304960 | METHOD OF CUTTING MULTILAYER BODY, METHOD OF FORMING MULTILAYER CONTAINER, AND MULTILAYER FORMED PRODUCT - An end face of an intermediate layer of a multilayer structure is stably covered by surface resin layers at a time of cutting the multilayer structure. A cutting method of the multilayer structure includes the steps of: compressing and deforming the multilayer structure, while extending respective layers of the multilayer structure to provide a thin thickness portion, so that an upper layer bites into a lower layer by pushing a push cutter, by a predetermined amount, into the multilayer structure supported by a cutter receiving portion, in a fused state of at least one of the resin layers forming the multilayer structure; and push-cutting the compressed thin thickness portion S till the push cutter abuts against the cutter receiving portion so as to converge an intermediate layer and surface resin layers of the multilayer structure to the abutting portion A of the push cutter and the cutter receiving portion. | 12-10-2009 |
20120211928 | THERMOFORMING DEVICE AND THERMOFORMING METHOD USING HOT PLATE HEATING - A thermoforming device using a hot plate heating includes a frame a hot plate; a decompression unit connected to the frame; a decompression unit which is connected to a hot plate; a unit which is connected to the hot plate and opens a heating surface side to an atmosphere or pressures the heating surface side; an adsorption and heating control unit which performs the adsorption and heating operation of the sheet by the hot plate; a decompression control unit which performs a decompression operation in the concave portion; and a molding operation control unit which concurrently performs the adsorption and heating operation and the decompression operation, stops the adsorption and heating operation of the sheet after a predetermined time from the start of the operation, and opens a portion between the hot plate and the sheet to the atmosphere or pressures the portion. | 08-23-2012 |
Toshihiro Takai, Aichi JP
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20110221235 | ENERGY ABSORBER - An energy absorber in which an energy-absorbing property in a collision can be set to a predetermined property is provided. An energy absorber (1) which is installed between an auto body panel and an interior member of an automobile, so as to absorb impact energy of a collision includes a base (2) which is fastened between the auto body panel and the interior member; and a plurality of projections (3) which projects from the base and is formed into a hollow conical shape or a hollow circular truncated cone shape, wherein the plurality of projections has different heights and different number of liner convex ribs (4), the rib projecting from an outer circumferential face of the projection and extending from a leading end of the projection to the base, the projections next to each other are not coupled via the rib, and the rib is not provided on a line connecting the centers of the projections next to each other. | 09-15-2011 |
20120229471 | DRAWING SYSTEM - A drawing system includes a pointing device, a control unit and a drawing unit drawing a line of trajectory of the cursor and including a straight line input assisting unit. The assisting unit includes a start point recognizing unit, an end point determination unit and a coordinate aligning unit. The start point recognizing unit recognizes as a start point an initial coordinate having an input position designated by the coordinate input unit. The end point determination unit determines as an end point a last coordinate having an input position designated by the coordinate input unit. The coordinate aligning unit aligns the coordinates of the primary coordinate group on a single line connecting between the start and end points thereby to form a secondary coordinate group. When a line is drawn based on the primary coordinate group, the line is corrected to a straight line based on the secondary coordinate group. | 09-13-2012 |
Toshihiro Takai, Ichihara-Shi JP
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20110224315 | MODIFIED ION EXCHANGE RESIN AND PROCESS FOR PRODUCING BISPHENOLS - There is provided a modified ion exchange resin catalyst which exhibits higher bisphenols selectivity than the conventional modified ion exchange resins in processes wherein bisphenols are produced by reacting a phenolic compound with ketones, and to provide such a process for producing bisphenols. A modified ion exchange resin is characterized in that at least one compound selected from (A) and (B) shown below is ionically bonded to an acidic functional group of an acidic ion exchange resin: | 09-15-2011 |
20110224461 | MODIFIED ION EXCHANGE RESIN AND PROCESS FOR PRODUCING BISPHENOLS - There is provided a modified ion exchange resin catalyst which exhibits higher bisphenols selectivity than the conventional modified ion exchange resins in processes wherein bisphenols are produced by reacting a phenolic compound with ketones, and to provide such a process for producing bisphenols. A modified ion exchange resin is characterized in that at least one compound selected from (A) and (B) shown below is ionically bonded to an acidic functional group of an acidic ion exchange resin: | 09-15-2011 |