SU8403A1 - The method of electrolytic release of iodine - Google Patents

The method of electrolytic release of iodine

Info

Publication number: SU8403A1
Authority: SU; USSR - Soviet Union
Prior art keywords: iodine; copper; electrolytic release; solution; ions
Prior art date: 1926-11-13

Application number

SU12483A

Other languages

Russian (ru)

Inventor

С.В. Константов

Original Assignee

С.В. Константов

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

1926-11-13

Filing date

1926-11-13

Publication date

1929-03-30

1926-11-13 Application filed by С.В. Константов filed Critical С.В. Константов

1926-11-13 Priority to SU12483A priority Critical patent/SU8403A1/en

1929-03-30 Application granted granted Critical

1929-03-30 Publication of SU8403A1 publication Critical patent/SU8403A1/en

Landscapes

Electrolytic Production Of Metals (AREA)

Description

Предлагаемое изобретение касаетс способа выделени иода в виде нерастворимого осадка из иодосодержащих рассолов любого качественного солевого состава.The present invention relates to a method for separating iodine as an insoluble precipitate from iodine-containing brines of any qualitative salt composition.

Выделение иода из слабых растворов его солей предлагаетс производить при помощи диффузионноконцентрационного элемента с медными электродами, в которых электролитами служат слегка подкисленный иодосодержащий солевой рассол, подлежащий электролизу, и раствор медного купороса соответствующей концентрации, разделенные пористой перегородкой.It is proposed to produce iodine from weak solutions of its salts using a diffusion-concentration element with copper electrodes, in which electrolytes are slightly acidified iodine-containing brine to be electrolyzed and a solution of copper sulfate of the corresponding concentration separated by a porous partition.

Сущность процессов, происход щих в элементе, заключаетс в следующем . При погружении металла в рассол, на границе соприкосновени металла и электролита возникают положительно зар женные ионы меди, при чем электролит зар жаетс положительно, а электрод-отрицательно . Возникающий электростатический зар д разр жаетс путем соединени положительно зар женных ионов меди с отрицательно зар женными ионами иода слабого (ионизированного)The essence of the processes occurring in an element is as follows. When a metal is immersed in a brine, at the interface between the metal and the electrolyte, positively charged copper ions appear, at which the electrolyte is positively charged, and the electrode is negative. The resulting electrostatic charge is discharged by combining the positively charged copper ions with the negatively charged iodine ions of the weak (ionized)

раствора йодистых соединений.. Одновременно ионы меди из пространства с раствором медного купороса через пористую перегородку перенос тс в пространство с ионами иода и дают молекулу йодистой меди. Замыка элемент на себ , мы можем вести процесс до полного выделени иода из раствора .solution of iodide compounds. At the same time, copper ions from the space with a solution of copper sulfate through a porous wall are transferred into the space with iodine ions and give a copper iodide molecule. Closing the element on itself, we can carry on the process until complete iodine is released from the solution.

Предмет патента.The subject of the patent.

Способ электролитического выделени иода в виде нерастворимого осадка из иодосодержащих рассолов , независимо от их качественного солевого состава, отличающийс тем, что служащий дл получени необходимого дл электро лиза тока диффузионно-концентрационный элемент составл ют, с одной стороны, из подлежащего электролизу, слегка подкисленного солевого рассола, содержащего иод, а с другой-из растёора медного купороса соответствующей концентрации с пористой перегородкой между растворами и медными электродами, погруженными в каждый раствор.The method of electrolytic separation of iodine in the form of an insoluble precipitate from iodine-containing brines, regardless of their qualitative salt composition, characterized in that the diffusion-concentration element required for electrolysis of a current is, on the one hand, a slightly acidified salt brine to be electrolyzed containing iodine, and on the other, from a rasper of copper sulfate of the corresponding concentration with a porous partition between solutions and copper electrodes immersed in each p solution

Тип. «Печатный ТрудType of. "Printed Labor

SU12483A 1926-11-13 1926-11-13 The method of electrolytic release of iodine SU8403A1 (en)

Priority Applications (1)

Application Number	Priority Date	Filing Date	Title
SU12483A SU8403A1 (en)	1926-11-13	1926-11-13	The method of electrolytic release of iodine

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
SU12483A SU8403A1 (en)	1926-11-13	1926-11-13	The method of electrolytic release of iodine

Publications (1)

Publication Number	Publication Date
SU8403A1 true SU8403A1 (en)	1929-03-30

Family

ID=48330838

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
SU12483A SU8403A1 (en)	1926-11-13	1926-11-13	The method of electrolytic release of iodine

Country Status (1)

Country	Link
SU (1)	SU8403A1 (en)

1926
- 1926-11-13 SU SU12483A patent/SU8403A1/en active

Similar Documents

Publication	Publication Date	Title
Cherif et al.	1988	Sulfuric acid concentration with an electro-electrodialysis process
CN103695961B (en)	2017-02-22	Method for recovering rhenium, arsenic and copper from sulfuric acid wastewater of copper smelting flue gas purification system
SU8403A1 (en)	1929-03-30	The method of electrolytic release of iodine
US1954316A (en)	1934-04-10	Method for the recovery of silver from used photographic fixing solutions by electrolysis
SU843705A3 (en)	1981-06-30	Method of isotopic chemical concentrating of uranium
US3414494A (en)	1968-12-03	Method of manufacturing pure nickel hydroxide
US1857224A (en)	1932-05-10	Electrolytic process for the purification of acetic acid solutions
SU39979A1 (en)	1934-11-30	Method for electrolytic production of metals
US1754125A (en)	1930-04-08	Electrolytic recovery of metals
US1740165A (en)	1929-12-17	Method for removing chlorine ions from electrolytic solutions
US2316750A (en)	1943-04-20	Purification of manganese electrolyte solutions
JP2017002376A (en)	2017-01-05	Recycling method of lead electrolyte
US1429330A (en)	1922-09-19	Process of recovering zing from complex ores
SU45408A1 (en)	1935-12-31	Method for producing mercury from ores by electrolysis
RU2505613C2 (en)	2014-01-27	Method for electrochemical extraction of lead from lead/acid wastes of accumulator batteries
SU61975A1 (en)	1941-11-30	Method of processing manganese ores
SU5305A1 (en)	1928-05-31	The method of electrolytic separation of iodine from solutions
AT152309B (en)	1938-01-25	Process for the flocculation of impurities from liquids.
US1210017A (en)	1916-12-26	Electrolytic recovery of zinc from ores and other zinc-bearing materials.
SU62343A1 (en)	1942-11-30	Electrolytic Tin Refining Method
SU36656A1 (en)	1934-05-31	The method of electrolytic removal of tin tin
Smith	1903	The Use of a Mercury Cathode in Electrochemical Analysis.
SU60626A1 (en)	1941-11-30	The method of purification of chromic electrolyte from iron
SU876792A1 (en)	1981-10-30	Method of regenerating copper electrolyte
Weroński et al.	1975	The effect of different compounds on the rate of potassium deposition on mercury electrode