Provided is a concentration measurement device that measures the concentration of a sample by absorptiometry, the concentration measurement device being capable of performing temperature measurement in a shorter amount of time than conventional concentration measurement devices. A concentration measurement device 1 comprises a sample temperature sensor 13 that measures the temperature of samples, optical sensors 141, 142 that measure the transmittance of samples, an environmental temperature sensor 13 that measures the environmental temperature, a storage unit 12 that stores second correlation information between first difference information for the value of the environmental temperature and the value of the temperature of a calibration sample measured by the concentration measurement device 1 and second difference information for the measured value of the temperature of the calibration sample and a theoretical temperature based on first correlation information between the temperature and the transmittance of the calibration sample with respect to the value of the transmittance of the calibration sample measured by the concentration measurement device 1, and a temperature calibration unit 11 that acquires difference information for the measured value of the temperature of a sample to be measured and the measured value of the environmental temperature and calibrates the temperature measurement value for the sample to be measured using calibration temperature information based on the second correlation information with respect to the acquired difference information.
G01N 21/27 - CouleurPropriétés 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 utilisant la détection photo-électrique
An objective of the present invention is to provide: a pyrolysis device capable of recovering substantially all of an organic substance in a waste product as a carbonate without discharging substantially any greenhouse gases, including carbon dioxide, by pyrolyzing the waste product without burning; and a method for manufacturing, by using the pyrolysis device, a pyrolysis residue containing calcium carbonate. The present invention provides a pyrolysis device including: at least a pyrolysis treatment tank for pyrolyzing a substance, the pyrolysis treatment tank being provided with an air introduction port on an upper surface or a side surface, and an oxygen discharge port on a side surface bottom portion or a bottom surface; a magnet unit positioned at a bottom portion of the pyrolysis treatment tank; and a heating means. Also provided is a method for manufacturing, by using the pyrolysis device, a pyrolysis residue containing calcium carbonate from an object to be treated that contains at least an animal/plant-derived organic substance.
B09B 3/40 - Destruction de déchets solides ou transformation de déchets solides en quelque chose d'utile ou d'inoffensif impliquant un traitement thermique, p. ex. évaporation
B09B 5/00 - Opérations non couvertes par une seule autre sous-classe ou par un seul autre groupe de la présente sous-classe
B09B 101/25 - Déchets non industriels, p. ex. déchets ménagers
B09B 101/70 - Déchets de cuisineDéchets alimentaires
Provided is an optical cell that is for housing a sample when measuring the concentration of the sample by absorptiometry, and that is capable of having improved workability and measurement accuracy as compared to conventional products. An optical cell 2 is for housing the sample and is used in a concentration measurement device for measuring the concentration of the sample by absorptiometry. The optical cell comprises: a housing part 21 having the longer direction and the shorter direction in a horizontal cross-section thereof; and a protruding part 24 extending outward along the shorter direction from a side surface along the longer direction of the housing part 21.
[Problem] To appropriately provide a glove that does not readily come off. [Solution] This glove 1 made of resin has finger areas 21–25 covering fingers H1–H5 of a user and a main area 26 covering the area from finger bases 210–250, which are the bases of the fingers H1–H5, to the wrist of the user. Each of lengths L1–L5 of the finger areas 21–25 is shorter than the length of the respective finger H1–H5 of the user. Narrowed parts 211–252 are provided to the areas of the finger bases 210–250 in the finger areas 21–25.
A leather product provided with glossy fast print without any detriment to the inherent drape of leather through realization of application of a thermal sublimation transfer technique to natural leather. There is provided a sublimation transfer print coated leather produced by transferring of an image containing a sublimable dye onto a surface of leather sequentially furnished with a monolayer or multilayer type undercoat layer containing a resin for general leather coating and an upper coat layer containing a dyeing resin and a crosslinking agent optionally together with a peel layer consisting of a peel resin. Further, there is provided a process for producing a sublimation transfer print coated leather by transferring an image onto a leather surface according to a thermal sublimation transfer technique.
B05D 7/12 - Procédés, autres que le flocage, spécialement adaptés pour appliquer des liquides ou d'autres matériaux fluides, à des surfaces particulières, ou pour appliquer des liquides ou d'autres matériaux fluides particuliers à du cuir
C14B 1/56 - Décoration, réalisation de dessins, impression à sec, p. ex. estampage, gaufrage