(JP6106739) PROBLEM TO BE SOLVED: To provide a cesium separation method using a combustor, which enables treatment of a large amount of cesium and in which cesium is surely collected and not discharged to atmosphere.SOLUTION: A cesium separation method using a combustor inputs an object to be treated containing cesium into a secondary combustion chamber 20; vaporizes cesium by combusting the object to be treated in the secondary combustion chamber 20; collects the vaporized cesium with water 41 in an adsorption tank 40; and makes the object to be treated into compost, vegetation, ash, molten slag, soil, sand, debris, tree barks, pruned branches, food residues or active sludge cake.SELECTED DRAWING: Figure 1
(JP2016117057) PROBLEM TO BE SOLVED: To provide a dehydrogenation catalyst comprising an iron oxide, an alkali metal or compound thereof, silver and silver ferrite; and to provide a method for producing the same.SOLUTION: A dehydrogenation catalyst is prepared by: preparing a mixture of an iron oxide, an alkali metal or compound thereof, and silver or a compound thereof; and then calcining the mixture, wherein the silver or compound thereof is present in an amount of from at least about 0.01 millimole of silver per mole of iron oxide, calculated as FeO. Preferably the alkali metal is potassium or cerium, and more preferably is calcium or molybdenum.EFFECT: The dehydrogenation catalyst shows high activity and/or high selectivity to hydrogenation reaction of hydrocarbons.SELECTED DRAWING: None
(EP3037194) The Invention concerns a Procedure for the Production of a Turbine (10) with a creepsteady Hub (20) and Shovels (31, 32, 33, 34 [duktilen]). This covers a Making of a Turbine (10) available with a Hub (20) and several Shovels (31, 32, 33, 34), which of an TiAl alloy consists, the 60 VOL. - % to 100 [Vol],% Grains with a full-laminated Structure from one α  - Phase ([Ti]  Al) and a γ-phase ([TiAl]) exhibits and besides Grains with other Phases to exhibit can, Would Drive Through a Thermal Treatment of the Shovels (31, 32, 33, 34), without accomplishing thereby a Thermal Treatment of the Hub (20), and a Receiving of the Turbine (10) with a creepsteady Hub (20) and [duktilen] Shovels (31, 32, 33, 34). A Turbine producible by means of this Procedure (10) a Hub (10) points up, which consists of an TiAl alloy, which 60 VOL. - % to 100 [Vol],% Grains with a full-laminated Structure from one α  - Phase and a γ-phase exhibit and besides Grains with other Phases to exhibit can, and it exhibits Shovels (31, 32, 33, 34), which consist of an TiAl alloy, which predominantly exhibits Grains with a fine-laminated Structure or a single-phase Structure. The Turbine (10) can be used in particular in a Supercharger.
(US20160190470) The present invention discloses an novel organic material containing indenotriphenylene derivatives and organic EL device using the indenotriphenylene derivatives as hole blocking layer (HBL), electron transport layer (ETL) and/or phosphorescent host can efficiently lower driving voltage, lower power consumption and increase the efficiency. The present invention further relates to the methods of preparation for the indenotriphenylene derivatives and organic EL device comprising these derivatives.
(US20160184425) The present invention relates to methods and compositions for enhancing delivery of vaccine antigens to the mucosal epithelium, the composition comprising an antigen from an infectious agent fused with an Fc fragment of an immunoglobulin recognized by the neonatal receptors (FcRn). The composition is effective in eliciting a protective long-term memory T cell immune response against infection at a distant mucosal site.
(JP2016111023) PROBLEM TO BE SOLVED: To provide a conductive particle capable of enhancing conduction reliability.SOLUTION: The conductive particle has a base particle, a first conductive part including nickel silicide and a second conductive part. The first conductive part is disposed on an outer surface of the base particle; the second conductive part is disposed on an outer surface of the first conductive part; and the second conductive part has a plurality of protrusions on the outer surface thereof.SELECTED DRAWING: Figure 1