21 |
Method for the destruction of unwanted compounds using metal oxides
composites |
US586969 |
1996-01-16 |
US5914436A |
1999-06-22 |
Kenneth J. Klabunde; Abbas Khaleel |
Finely divided composite materials are provided comprising a first metal oxide (e.g., MgO) at least partially coated with an extremely thin layer of a second metal oxide selected from the group consisting of the transition metal oxides such as Fe.sub.2 O.sub.3. The composites are very effective for the destructive adsorption of undesirable fluids in gaseous or liquid form, such as chlorocarbons and chlorofluorocarbons. In use, a fluid stream including undesirable fluids are contacted with the composites of the invention, such as through the use of a filter containing the composite as a part of the filter media thereof. |
22 |
Decrease of abuse potential in the dosage form of abuse materials capable |
JP2010156607 |
2010-07-09 |
JP5248555B2 |
2013-07-31 |
アンダーソン、カーター、アール.; モリス、ラッセル、エル. |
The potential for substance abuse involving residual amounts of abusable substances remaining in used skin-worn patches is reduced by the provision of a system and method for combining the abusable substance with a separate anti-abuse substance agent as part of a removal or disposal procedure. |
23 |
Decrease of abuse potential in the dosage form of abuse materials capable |
JP2006551380 |
2005-01-20 |
JP4642784B2 |
2011-03-02 |
アンダーソン、カーター、アール.; モリス、ラッセル、エル. |
The potential for substance abuse involving residual amounts of abusable substances remaining in used skin-worn patches is reduced by the provision of a system and method for combining the abusable substance with a separate anti-abuse substance agent as part of a removal or disposal procedure. |
24 |
農薬組成物および残留農薬分解剤 |
JP2004515467 |
2002-06-25 |
JPWO2004000018A1 |
2005-10-20 |
正人 若村 |
農薬組成物は、農薬活性成分と、アパタイト結晶構造に含まれる金属原子の一部が光触媒性金属原子である粉末状の金属修飾アパタイトとを含む。好ましくは、金属修飾アパタイトは、実質的に光透過性の有機物膜により被覆されている。 |
25 |
op detoxification sponge to act to distinguish |
JP2000613526 |
2000-04-26 |
JP2002541997A |
2002-12-10 |
ゴードン,リチャード,ケー; サクスナ,アシマ; ドクトル,ブペンドラ,ピー; フェアスター,ショーン,アール; マックスウェル,ドナルド; ラッセル,アラン,ジェイ; ルジュヌ,キース,イー; レンツ,デヴィッド; ロス,ミッシェル |
(57)【要約】 OP化合物のような危険化学物質を除去、除外、又は中和するための発泡支持体と複数の酵素からなる物質が開示される。 この物質は皮膚及び他の敏感な膜のような天然、合成又は生物学的表面を含む多様な表面に用いられる。 更に、この物質のキットを作成する方法、及び酵素活性を再活性化するための種々の方法及び再活性化装置が開示される。 。 |
26 |
Treatment for flue gas desulfurization absorption liquid |
JP8900786 |
1986-04-17 |
JPS62244427A |
1987-10-24 |
AOKI HARUO; KUDO YOSHIHIKO |
PURPOSE: To separate and remove Cl
- contained in gypsum saturated liquid while preventing deposition of gypsum by subjecting gypsum saturated liquid to clarifying treatment and thereafter introducing it into an electrodialysis device consisting of a cation exchange membrane and a monovalent anionic permselective membrane.
CONSTITUTION: An electrodialysis device is constituted of an intermediate chamber M partitioned by monovalent anionic permselective membranes A
1, A
2, a concentration chamber C partitioned by A
2 and a cation exchange membrane K and desalting chambers D partitioned by K and A
1. Gypsum saturated liquid is introduced into the desalting chamber D through a line 1 and Cl
- contained in the liquid is passed through the membranes A
1, A
2 and collected in the concentration chamber C. In this case, SO
4
2- is partially passed through the membrane A
1 but is not passed through the membrane A
2 and cation is passed through the membrane K and transferred to the concentration chamber C but is not passed through the membrane A
2 and therefore the deposition of gypsum is prevented. Treated liquid is discharged through a line 5 and recirculated and Cl
- concentrated liquid is discharged through a line 3 and treated as waste water.
COPYRIGHT: (C)1987,JPO&Japio |
27 |
High-stability light source system and method |
US14546970 |
2014-11-18 |
US09572218B2 |
2017-02-14 |
John P. Downing |
A light source system that generates stable optical power over time and temperature in which a feedback control circuit is operative to receive a temperature signal and a sample signal and in response thereto generate a control signal to a driver circuit to maintain a power level of the light output substantially constant over an operative temperature range defined by Tmin and Tmax. |
28 |
Concentrate treatment system |
US13900548 |
2013-05-23 |
US09283418B2 |
2016-03-15 |
Dennis A. Brunsell; Charles E. Jensen; Larry E. Beets |
One aspect of the invention provides a system for treating wastestream, particularly a liquid or aqueous radwaste, for safe disposal and, in final processing, converting it into one or both forms including an aqueous form for safe discharge to the environment and a solidified form for safe disposal. Another aspect provides the capacity to employ a step where a specific target element strategy can be set up synchronizing sorbent substance choices and multiple recycle options to remove target substances from wastestream as a part of its Sorption or Powder Sorbent Isotopic Reduction step (II). Other steps cooperate with Sorption step (II) including Oxidation (I) to inactivate or destroy existing chelants, Solid-Liquid separation (III), and Selective Ion Exchange (IV) to deliver the wastestream to final processing. Still further aspects of the invention address the recovery and safe handling of substances such as C-14. |
29 |
Abuse Potential Reduction in Abusable Substance Dosage Form |
US14828005 |
2015-08-17 |
US20150352011A1 |
2015-12-10 |
Carter R. Anderson; Russell L. Morris |
The potential for substance abuse involving residual amounts of abusable substances remaining in used skin-worn patches is reduced by the provision of a system and method for combining the abusable substance with a separate anti-abuse substance agent as part of a removal or disposal procedure. |
30 |
HIGH-STABILITY LIGHT SOURCE SYSTEM AND METHOD |
US14546970 |
2014-11-18 |
US20150146751A1 |
2015-05-28 |
John P. Downing |
A light source system that generates stable optical power over time and temperature in which a feedback control circuit is operative to receive a temperature signal and a sample signal and in response thereto generate a control signal to a driver circuit to maintain a power level of the light output substantially constant over an operative temperature range defined by Tmin and Tmax. |
31 |
Abuse potential reduction in abusable substance dosage form |
US12621619 |
2009-11-19 |
US08329212B2 |
2012-12-11 |
Carter R. Anderson; Russell L. Morris |
The potential for substance abuse involving residual amounts of abusable substances remaining in used skin-worn patches is reduced by the provision of a system and method for combining the abusable substance with a separate anti-abuse substance agent as part of a removal or disposal procedure. |
32 |
Agricultural chemical component and decomposer for residual agricultural chemical |
US11012103 |
2004-12-16 |
US08030245B2 |
2011-10-04 |
Masato Wakamura |
An agricultural chemical component includes an active agricultural chemical ingredient and a powder metal-modified apatite which has part of metal atoms in its apatite crystal structure provided by an optically catalytic metal. Preferably, the metal-modified apatite is coated with an organic film. |
33 |
Self-destructing transdermal therapeutic system having improved functionality and efficacy |
US12935085 |
2009-03-26 |
US20110022009A1 |
2011-01-27 |
Stephan Maier; Margit Wirz |
The invention relates to a self-destructing transdermal therapeutic system (TTS), preferably in the form of a transdermal patch, that includes an active ingredient, an agent rendering the active ingredient useless, and a perforation mechanism. The perforation mechanism allows a mobile phase to reach an agent that is capable of rendering the active ingredient useless after removing the TTS after use. The agent then comes into contact with the active ingredient and destroys the active ingredient in the presence of the mobile phase. |
34 |
Abuse Potential Reduction in Abusable Substance Dosage Form |
US12621619 |
2009-11-19 |
US20100068250A1 |
2010-03-18 |
Carter R. Anderson; Russell L. Morris |
The potential for substance abuse involving residual amounts of abusable substances remaining in used skin-worn patches is reduced by the provision of a system and method for combining the abusable substance with a separate anti-abuse substance agent as part of a removal or disposal procedure. |
35 |
Agricultural chemical component and decomposer for residual agricultural chemical |
US11012103 |
2004-12-16 |
US20050159317A1 |
2005-07-21 |
Masato Wakamura |
An agricultural chemical component includes an active agricultural chemical ingredient and a powder metal-modified apatite which has part of metal atoms in its apatite crystal structure provided by an optically catalytic metal. Preferably, the metal-modified apatite is coated with an organic film. |
36 |
Encapsulation of hazardous waste materials |
US09424676 |
2000-02-15 |
US06399848B1 |
2002-06-04 |
Dino Rechichi |
A method of encapsulating hazardous waste materials including heavy metals such as arsenic, mercury, nickel and chromium residues, as well as radioactive materials. The method involves adding the hazardous waste material to a settable composition, forming a slurry, and allowing the slurry to set to encapsulate the waste material. The settable composition is a powdered flowable cement composition containing calcium carbonate and a caustic magnesium oxide. Tests conducted on the encapsulated material indicate that virtually none of the hazardous waste material is leached out of the set composition which has a concrete-like appearance. |
37 |
Solid cyanuric chloride handling improvements with tricalcium phosphate |
US051554 |
1979-06-25 |
US4268408A |
1981-05-19 |
Thomas M. Raspet |
A non-lumping, non-dusting free-flowing cyanuric chloride is provided by adding thereto 0.1 to 5% of finely divided tribasic calcium phosphate. The composition reduces the fumes and dust associated with handling of cyanuric chloride and is compatible with the further synthesis of cyanuric chloride to herbicides and optical brighteners. |
38 |
Self-disintegrating transdermal therapeutic system with improved functionality and efficacy |
JP2011502263 |
2009-03-26 |
JP2011516439A |
2011-05-26 |
シュテファン・マイアー; マールギト・ヴィルツ |
The invention relates to a self-destructing transdermal therapeutic system (TTS), preferably in the form of a transdermal patch, that includes an active ingredient, an agent rendering the active ingredient useless, and a perforation mechanism. The perforation mechanism allows a mobile phase to reach the agent that is capable of rendering the active ingredient useless after removing the TTS after use. The agent then comes into contact with the active ingredient and destroys the active ingredient in the presence of the mobile phase. |
39 |
Abuse potential reduction in abusable substance dosage form |
JP2010156607 |
2010-07-09 |
JP2010248238A |
2010-11-04 |
ANDERSON CARTER R; MORRIS RUSSELL L |
PROBLEM TO BE SOLVED: To provide a skin-pasting transdermal patch device devised so that a powerful synthetic analgesic represented by fentanyl remaining in the used skin-pasting patch is inhibited from abuse and misuse.
SOLUTION: This transdermal patch device is equipped with: (a) an anti-abuse layer containing an anti-abuse substance to the drug, selected from a binder to immobilize the drug, an antagonistic substance to the drug dissolvable in a solvent together with the drug, and their combinations; (b) a drug-containing layer separately disposed from the anti-abuse layer; (c) a separating membrane existing between the anti-abuse layer and the drug-containing layer for inhibiting their contact; and (d) a connection-removing device connected to the separating membrane, having a self-adhesive part self-adhering to a skin when the patch device is applied to the skin. By peeling the patch device from the skin, the separating membrane is extracted from the patch device, thereby the anti-abuse layer and the drug-containing layer come into contact with each other.
COPYRIGHT: (C)2011,JPO&INPIT |
40 |
Pesticide compositions and pesticide residue decomposition agent |
JP2004515467 |
2002-06-25 |
JP4436246B2 |
2010-03-24 |
正人 若村 |
|