子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 远红外负离子纳米液 | CN201610735137.0 | 2016-08-29 | CN106422150A | 2017-02-22 | 谢洪涛; 张小平 |
| 本发明公开一种远红外负离子纳米液,由以下重量份的组分组成:负离子粉体100份、蒸馏水400~600份、聚丙烯酸钠6~8份、十二烷基葡糖苷12~15份、乙二醇4~6份、2-咪唑烷酮10~12份、柠檬酸4~6份、氧化锆6~8份、十二烷基甜菜碱12~15份、羟基二乳酸合钛15~18份、单烷氧型钛酸酯偶联剂10~15份;将上述组分混合浸泡2~3天后,放入球磨机内低速度球磨2~3小时,再高速度球磨40~60分钟获得所述远红外负离子纳米液。本发明在污染源表面形成一层永久纳米级负离子膜,在甲醛“逃逸”到空气中之前将其分解,避免危害人体,无需光线照射,任何室温状态下,只要有温度和压力的轻微变动都能触发负离子释放,分解甲醛,无色、无味,不破坏家具表面。 | ||||||
| 2 | 有害化合物的无害化方法 | CN200880118953.0 | 2008-10-29 | CN101883611A | 2010-11-10 | 中村浩一郎 |
| 本发明的一个目的是提供一种使含砷等有害化合物有效无害化的有害化合物无害化的有益方法。本发明的有害化合物无害化的方法,其特征在于,甲基自由基及/或羧甲基自由基与含选自由砷、锑及硒组成的组中的至少一种元素的有害化合物接触而使上述有害化合物无害化。另外,本发明的有害化合物无害化的方法的优选实施方案,其特征在于,通过曝光产生自由基。另外,本发明的有害化合物无害化的方法的优选实施方案,其特征在于,自由基供给源是选自由醋酸、甲醇、乙醇、醋酐、丙酸、丁酸或甲酸组成的组中的至少一种。 | ||||||
| 3 | PROCESS FOR THE DISPOSAL OF ACID WASTES COMBINING THEM WITH ASBESTOS CONTAINING MATERIALS AND/OR CONCRETE USING SYNERGISTIC PHYSICAL, BIOLOGICAL AND CHEMICAL TREATMENTS | US15721683 | 2017-09-29 | US20180085613A1 | 2018-03-29 | Bruno Vaccari; Tullia Zucca |
| An accelerated process for the complete neutralization of acid wastes, the destruction of concrete and/or the denaturation of asbestos-containing materials (ACMs) includes forming a slurry or suspension by submerging in the acid solution the concrete and/or asbestos-containing materials (ACMs); the concrete and/or asbestos-containing materials (ACMs) cause the acid wastes neutralizing chemical reactions in the slurry or suspension and, at the same time, the destruction of concrete and/or the denaturation of asbestos-containing materials (ACMs). Simultaneously to the chemical reactions, the slurry or suspension is subjected to hydrodynamic cavitation, preferably using an apparatus capable of producing and managing three types of simultaneous controlled cavitation acting in the same space volume, accelerating the chemical reactions taking place in the slurry due also to the simultaneous presence of acid, concrete and/or asbestos-containing materials (ACMs). The concrete and/or asbestos-containing materials (ACMs) are preferably ground and polarized prior to be submerged in the acid solution to form the slurry. The polarization take place, for the really first time, with a cold plasma torch. In addition the slurry or suspension is preferably subjected to hydrothermal treatment, preferably using a reactor which ensures the preservation of the constancy of the ideal physical parameters for the reaction in the physical chemical environment. In this reactor are additivated chemicals, hydroxyapatite and biological substances that have binder/chelating power especially on metals contained in asbestos, especially on magnesium, in order to prevent its reformation. Recovering, at the end of the process, inert secondary raw materials (SRMs) that are non-hazardous to the environment and human health. In addition, this process could be used to produce molecules that are important intermediates of the subsequent reactions/processes, leading to the formation of salts/compounds used as dietary supplements and also in important environmental remedies such as polluted water reclamation and the treatment of heavily polluted soils. | ||||||
| 4 | Method of decomposing target and decomposition apparatus | US11920125 | 2006-05-09 | US08986510B2 | 2015-03-24 | Yoshihiro Takeda; Fumitaka Mafune; Tamotsu Kondou |
| It is intended to provide a method whereby a target to be analyzed can be easily decomposed in a micro region and a decomposition apparatus. In the decomposition method of decomposing the target to be analyzed and the decomposition apparatus, the target is allowed to coexist with a microparticle and then the microparticle is put into the high-energy state. Then, the target located in the vicinity of the surface of the microparticle is decomposed due to the energy transfer from the high-energy microparticle toward the target. Thus, the target can be easily decomposed in a micro region. | ||||||
| 5 | Method and apparatus for removing organic contaminants | US924739 | 1992-08-04 | US5308507A | 1994-05-03 | William M. Robson |
| A method and apparatus for destroying organic compounds is described. The apparatus utilizes a mixture of oxidants to "burn" the organic compound. The oxidants can be generated in a separate apparatus and then added to the organic compound. If the organic compound is present in the form of an aqueous solution, the oxidants can be generated in the aqueous solution itself. | ||||||
| 6 | Method of making harmful compounds harmless | JP2007286374 | 2007-11-02 | JP2009112403A | 2009-05-28 | NAKAMURA KOICHIRO |
| PROBLEM TO BE SOLVED: To provide a method useful in efficiently making harmful compounds including arsenic, etc. harmless. SOLUTION: The method to make harmful compounds harmless of this invention is characterized by making methyl radical and/or carboxyl methyl radical come in contact with one of the harmful compounds that contains at least a kind of element selected from the group of arsenic, antimony and selenium. The preferable practice of the method of this invention to make harmful compounds harmless is characterized by generating these radicals by irradiating them with light, and also by selecting at least a kind of the source of these radicals from the group of acetic acid, methanol, ethanol, acetic anhydride, propionic acid, butane acid and formic acid. COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 7 | Method of decomposing target and decomposition apparatus | US11920125 | 2006-05-09 | US20090229968A1 | 2009-09-17 | Yoshihiro Takeda; Fumitaka Mafune; Tamotsu Kondou |
| It is intended to provide a method whereby a target to be analyzed can be easily decomposed in a micro region and a decomposition apparatus. In the decomposition method of decomposing the target to be analyzed and the decomposition apparatus, the target is allowed to coexist with a microparticle and then the microparticle is put into the high-energy state. Then, the target located in the vicinity of the surface of the microparticle is decomposed due to the energy transfer from the high-energy microparticle toward the target. Thus, the target can be easily decomposed in a micro region. | ||||||
| 8 | Binding and in situ destruction of chemical agents and other contaminants | US11007612 | 2004-12-07 | US20060122451A1 | 2006-06-08 | Viktor Petrik |
| A graphene-containing composition is employed to bind a contaminant, which is then destroyed in situ using microwave irradiation. In preferred aspects of the inventive subject matter, the microwave irradiation has a frequency and energy sufficient to cause electron emission from the graphene. | ||||||
| 9 | Photo-oxidation method using MoS2 nanocluster materials | US09459059 | 1999-12-10 | US06245200B1 | 2001-06-12 | Jess P. Wilcoxon |
| A method of photo-oxidizing a hydrocarbon compound is provided by dispersing MoS2 nanoclusters in a solvent containing a hydrocarbon compound contaminant to form a stable solution mixture and irradiating the mixture to photo-oxide the hydrocarbon compound. Hydrocarbon compounds of interest include aromatic hydrocarbon and chlorinated hydrocarbons. MoS2 nanoclusters with an average diameter less than approximately 10 nanometers are shown to be effective in decomposing potentially toxic aromatic and chlorinated hydrocarbons, such as phenol, pentachlorophenol, chlorinated biphenols, and chloroform, into relatively non-toxic compounds. The irradiation can occur by exposing the MoS2 nanoclusters and hydrocarbon compound mixture with visible light. The MoS2 nanoclusters can be introduced to the toxic hydrocarbons as either a MoS2 solution or deposited on a support material. | ||||||
| 10 | Oxidation of organic materials by electrified microheterogeneous catalysis | US822782 | 1992-01-21 | US5288371A | 1994-02-22 | Debra R. Rolison; Joseph Z. Stemple |
| In a system and method for enhancing organic oxidation reactions, an orga reactant is brought in contact with a stable, non-soluble, porous, electronically non-conductive, inorganic solid (reaction enhancer) in a fluidic medium to form a reaction mixture of low ionic strength. The reaction mixture so formed is then subjected to an electrifying force thereby enhancing the chemical reaction. Oxidation reaction products are then collected. | ||||||
| 11 | Decomposition method and apparatus for decomposing targets | JP2005136262 | 2005-05-09 | JP4911915B2 | 2012-04-04 | 佳宏 武田; 文隆 真船; 保 近藤 |
| 12 | Decomposition method and decomposition apparatus of targeted substance | JP2005136262 | 2005-05-09 | JP2006312147A | 2006-11-16 | TAKEDA YOSHIHIRO; MAFUNE FUMITAKA; KONDO TAMOTSU |
| PROBLEM TO BE SOLVED: To provide a decomposition method and a decomposition apparatus of a targeted substance which can easily decompose, in a fine area, a targeted substance to be decomposed. SOLUTION: The decomposition method and the decomposition apparatus of the targeted substance to be decomposed decomposes the targeted substance to be decomposed, wherein the targeted substance and a particulate are made to coexist, then the particulate turns highly energetic, and the targeted substance existing near the surface of the particulate is decomposed by energy transfer from the particulate turned highly energetic to the targeted substance. Therefore, the targeted substance can be easily decomposed in the fine area. COPYRIGHT: (C)2007,JPO&INPIT | ||||||
| 13 | The method of detoxifying a harmful compound | JP2007286374 | 2007-11-02 | JP4934569B2 | 2012-05-16 | 浩一郎 中村 |
| 14 | アスベストの溶融方法及びそのための装置 | JP2008549237 | 2007-11-27 | JPWO2008072467A1 | 2010-03-25 | 池田 伸一; 伸一 池田; 規男 梅山 |
| アスベストの処理にかかるコストを大幅に減らし、かつ、アスベストを除去する際の安全性も十分であるアスベストの無害化方法を提供することを目的とするものであって、アスベスト又はアスベストを含む部材に、赤外線を放射する発光源からの光を集光させて、アスベスト、アスベスト含有部材又はアスベスト含有部材中のアスベストを、所定の温度に、局所的に加熱することによって、アスベストを加熱溶融して無害化するものであり、そのために装置として、発光源と、該発光源から放射された光をアスベスト又はアスベスト含有部材に集光させる手段を有するアスベストの溶融装置を用いる。 | ||||||
| 15 | TOXIC COMPOUND DETOXIFICATION METHOD | EP08843562.3 | 2008-10-29 | EP2213338A1 | 2010-08-04 | NAKAMURA, Koichiro |
It is an object of the present invention to provide a beneficial method for detoxifying a harmful compound to detoxify the harmful compound containing arsenic etc., effectively. The method of detoxifying a harmful compound according to the present invention is characterized in that a methyl radical and / or a carboxymethyl radical is (are) contacted with a harmful compound comprising at least one element selected from the group comprising arsenic, antimony and selenium to detoxify the harmful compound. Furthermore, in a preferred embodiment of the method of detoxifying a harmful compound according to the present invention, the method is characterized in that the radical is generated by the exposure to light. Furthermore, in a preferred embodiment of the method of detoxifying a harmful compound according to the present invention, the method is characterized in that the resource of the radical is at least one selected from the group comprising acetic acid, methanol, ethanol, acetic anhydride, propionic acid, butanoic acid or formic acid. |
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| 16 | METHOD AND APPARATUS FOR DISSOCIATING MATERIALS | EP97947836.0 | 1997-11-05 | EP0948399A1 | 1999-10-13 | BABINGTON, Peter, D.; GREEN, Daniel, T.; LAFORET, Maurice |
| An apparatus (10) and method of use for dissociating materials include a power supply (SPS), high energy capacitor (3), high energy trigger device (5) and a probe (7, 25, 25', 42) and reactor (9, 20, 23, 23', 23'', 40) arrangement for treating both solid and medium/media materials (13). A near instantaneous discharge of the electrical charge stored in the capacitor (3) via the probe (7, 25, 25', 42) can be used to dissociate the material, either medium/media or solid, for a desired result. Hazardous materials can be treated to be rendered non-hazardous, rocks or other solid material can be treated for reduction in size, plant seeds can be treated to enhance plant growth surfaces of granular material can be scored or thermally polished and milk, juices and blood could be treated for sterilization. | ||||||
| 17 | SULFUR PRODUCTION | US15955170 | 2018-04-17 | US20180297004A1 | 2018-10-18 | Kamal Jaffrey |
| A system includes a first chamber, a second chamber, an ultraviolet light source and a microwave source. The first chamber includes an inlet. The second chamber is adjacent the first chamber and includes an outlet and a waveguide. The ultraviolet light source resides within the waveguide of the second chamber. Related apparatus, systems, techniques and articles are also described. | ||||||
| 18 | Method of detoxifying a harmful compound | US12740480 | 2008-10-29 | US08658850B2 | 2014-02-25 | Koichiro Nakamura |
| It is an object of the present invention to provide a beneficial method for detoxifying a harmful compound to detoxify the harmful compound containing arsenic etc., effectively.The method of detoxifying a harmful compound according to the present invention is characterized in that a methyl radical and/or a carboxymethyl radical is (are) contacted with a harmful compound comprising at least one element selected from the group comprising arsenic, antimony and selenium to detoxify the harmful compound. Furthermore, in a preferred embodiment of the method of detoxifying a harmful compound according to the present invention, the method is characterized in that the radical is generated by the exposure to light. Furthermore, in a preferred embodiment of the method of detoxifying a harmful compound according to the present invention, the method is characterized in that the resource of the radical is at least one selected from the group comprising acetic acid, methanol, ethanol, acetic anhydride, propionic acid, butanoic acid or formic acid. | ||||||
| 19 | METHOD OF DETOXIFYING A HARMFUL COMPOUND | US12740480 | 2008-10-29 | US20100305386A1 | 2010-12-02 | Koichiro Nakamura |
| It is an object of the present invention to provide a beneficial method for detoxifying a harmful compound to detoxify the harmful compound containing arsenic etc., effectively.The method of detoxifying a harmful compound according to the present invention is characterized in that a methyl radical and/or a carboxymethyl radical is (are) contacted with a harmful compound comprising at least one element selected from the group comprising arsenic, antimony and selenium to detoxify the harmful compound. Furthermore, in a preferred embodiment of the method of detoxifying a harmful compound according to the present invention, the method is characterized in that the radical is generated by the exposure to light. Furthermore, in a preferred embodiment of the method of detoxifying a harmful compound according to the present invention, the method is characterized in that the resource of the radical is at least one selected from the group comprising acetic acid, methanol, ethanol, acetic anhydride, propionic acid, butanoic acid or formic acid. | ||||||
| 20 | Method for dissociating materials | US09227337 | 1999-01-08 | US06254764B1 | 2001-07-03 | Peter D. Babington; Daniel T. Green; Maurice Laforet |
| An apparatus and method of use for dissociating materials includes a power supply, high energy capacitor, high energy trigger device and an probe and reactor arrangement for treating both solid and medium/media materials. A near instantaneous discharge of the electrical charge stored in the capacitor via the probe can be used to dissociate the material, either medium/media or solid, for a desired result. Hazardous materials can be treated to be rendered non-hazardous, rocks or other solid material can be treated for reduction in size, plant seeds can be treated to enhance plant growth surfaces of granular material can be scored or thermally polished and milk, juices and blood could be treated for sterilization. | ||||||
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