วันอาทิตย์ที่ 12 มกราคม พ.ศ. 2557

Ferric Chloride, เฟอริกคลอไรด์

Ferric Chloride, เฟอริกคลอไรด์, เฟอร์ริคคลอไรด์

ไอเอิร์น(III) คลอไรด์ (อังกฤษ: Iron(III) chloride) เรียกอีกอย่างว่า เฟอร์ริคคลอไรด์ (อังกฤษ: ferric chloride) เป็นขนาดโภคภัณฑ์ในอุตสาหกรรมสารประกอบเคมีที่มีสูตร FeCl3 สีของผลึกไอเอิร์น(III) คลอไรด์ขึ้นอยู่กับมุมมอง โดยเกิดแสงสะท้อนผลึกจะปรากฏเป็นสีเขียวเข้ม แต่ด้วยแสงที่ส่งพวกเขาจะปรากฏเป็นสีม่วงแดง ปราศจากไอเอิร์น(III) คลอไรด์ที่เป็นเดไลควีสเกนต์ กลายเป็นไฮเดรท ไฮโดรเจนคลอไรด์ ละอองในอากาศชื้น มันไม่ค่อยเป็นที่สังเกตในรูปแบบตามธรรมชาติ ใช้บำบัดน้ำเสียโดยการทำให้เกิดตะกอน (precipitation) ซึ่งเป็นวิธีการที่เปลี่ยนสารต่าง ๆ ที่ละลายอยู่ในน้ำให้อยู่ในรูปที่ไม่ละลายน้ำ เป็นการสร้างตะกอน สารนี้จะทำปฏิกิริยากับสารต่าง ๆ ที่ละลายอยู่ในน้ำ เกิดเป็นตะกอนแขวนลอยที่มีขนาดใหญ่ขึ้น จะสามารถตกตะกอนได้

Ferric Chloride is mainly used for the engraving etching of electronic circuit board or purify drink water and treat waste water
Ferric chloride
(1)Product Name:Ferric Chloride
(2)Product Package:HDPE drum or IBC tank.
(3)Product Instroduction:mainly used in circuit printing plate, stainless steel, mold, souvenir badge,waste water disinfection and treatment, sterilization,deodorization, photographic plate making, lumber soaking treatment, rein forced concrete additive and dye industry.

Iron(III) chloride, also called ferric chloride, is an industrial scale commodity chemical compound, with the formula FeCl3. The colour of iron(III) chloride crystals depends on the viewing angle: by reflected light the crystals appear dark green, but by transmitted light they appear purple-red. Anhydrous iron(III) chloride is deliquescent, forming hydrated hydrogen chloride mists in moist air. It is rarely observed in its natural form, mineral molysite, known mainly from some fumaroles. When dissolved in water, iron(III) chloride undergoes hydrolysis and gives off heat in an exothermic reaction. The resulting brown, acidic, and corrosive solution is used as a flocculant in sewage treatment and drinking water production, and as an etchant for copper-based metals in printed circuit boards. Anhydrous iron(III) chloride is a fairly strong Lewis acid, and it is used as a catalyst in organic synthesis.
Uses
Industrial
In industrial application, iron(III) chloride is used in sewage treatment and drinking water production.[13] In this application, FeCl3 in slightly basic water reacts with the hydroxide ion to form a floc of iron(III) hydroxide, or more precisely formulated as FeO(OH), that can remove suspended materials.
 [Fe(H2O)6]3+ + 4 HO [Fe(H2O)2(HO)4] + 4 H2O [Fe(H2O)O(HO)2] + 6 H2O  It is also used as a leaching agent in chloride hydrometallurgy, for example in the production of Si from FeSi. (Silgrain process) Another important application of iron(III) chloride is etching copper in two-step redox reaction to copper(I) chloride and then to copper(II) chloride in the production of printed circuit boards.
 FeCl3 + Cu FeCl2 + CuCl FeCl3 + CuCl FeCl2 + CuCl2
Iron(III) chloride is used as catalyst for the reaction of ethylene with chlorine, forming ethylene dichloride (1,2-dichloroethane), an important commodity chemical, which is mainly used for the industrial production of vinyl chloride, the monomer for making PVC.  H2C=CH2 + Cl2 ClCH2CH2Cl
Laboratory use
In the laboratory iron(III) chloride is commonly employed as a Lewis acid for catalysing reactions such as chlorination of aromatic compounds and Friedel-Crafts reaction of aromatics. It is less powerful than aluminium chloride, but in some cases this mildness leads to higher yields, for example in the alkylation of benzene: The ferric chloride test is a traditional colorimetric test for phenols, which uses a 1% iron(III) chloride solution that has been neutralised with sodium hydroxide until a slight precipitate of FeO(OH) is formed. The mixture is filtered before use. The organic substance is dissolved in water, methanol or ethanol, then the neutralised iron(III) chloride solution is added—a transient or permanent coloration (usually purple, green or blue) indicates the presence of a phenol or enol. This reaction is exploited in the Trinder spot test, which is used to indicate the presence of salicylates, particularly salicylic acid, which contains a phenolic OH group.
Other uses
 Used in anhydrous form as a drying reagent in certain reactions. Used to detect the presence of phenol compounds in organic synthesis e.g.: examining purity of synthesised Aspirin. Used in water and wastewater treatment to precipitate phosphate as iron(III) phosphate. Used by American coin collectors to identify the dates of Buffalo nickels that are so badly worn that the date is no longer visible. Used by knife craftsmen and sword smiths to stain blades, as to give a contrasting effect to the metal, and to view metal layering or imperfections.  Used to etch the widmanstatten pattern in iron meteorites. Necessary for the etching of photogravure plates for printing photographic and fine art images in intaglio and for etching rotogravure cylinders used in the printing industry.  Used to make printed circuit boards (PCBs). Used in veterinary practice to treat overcropping of an animal's claws, particularly when the overcropping results in bleeding.
 Reacts with cyclopentadienylmagnesium bromide in one preparation of ferrocene, a metal-sandwich complex. Sometimes used in a technique of Raku ware firing, the iron coloring a pottery piece shades of pink, brown, and orange. Used to test the pitting and crevice corrosion resistance of stainless steels and other alloys. Used in conjunction with NaI in acetonitrile to mildly reduce organic azides to primary amines. Used in an animal thrombosis model. Iron(III) chloride, also known as ferric chloride, is a chemical compound. Its chemical formula is FeCl3. It has iron and chloride ions in it. The iron is in its +3 oxidation state. Iron(III) chloride is a yellow solid. It dissolves in water to make a colloid of iron(III) oxide, making the water look muddy. When it is dissolved in an acidic solution, it is bright yellow. When it is very concentrated in a solution, it is dark brown. It is corrosive to skin and metals. It reacts with iron to produce iron(II) chloride. It fumes hydrochloric acid in moist air. It is a weak oxidizing agent. It reacts with copper(I) chloride to make copper(II) chloride. It breaks down when heated to make chlorine and iron(II) chloride.  It is used in sewage processing. It reacts with slightly basic water to make a "floc" that can remove things from the water. It used to react with copper in circuit boards; iron(III) nitrate is sometimes used too. It is used as a catalyst in making plastics. It is used in certain tests as a reagent. Ferric chloride is the coagulant of choice for many industrial and sanitary wastewater treatment applications, due to its high efficiency, effectiveness in clarification, and utility as a sludge dewatering agent. The chemical leaves slight residual color, and offers very good turbidity removal.
Typical Applications:•Industrial and sanitary wastewater treatment
•Inks, food, metals, and oily wastes
•Blood removal
•Chelate destruct
•Sludge dewatering
•Metals precipitation
•TSS, FOG, BOD, and COD removal
Properties and Applications
 • Ferric chloride is used in a wide range of applications including surface water clarification, colour removal, heavy metal precipitation, industrial effluent treatment and phosphate precipitation in sewage treatment.
• Ferric chloride generally exhibits an optimum pH band and it is important to determine this for optimum efficiencies.
• The inherent pH depression and alkalinity consumption in its coagulation mechanism generally necessitates a lime dosing facility or similar especially for low alkalinity waters to achieve the optimum pH range for effective coagulation. PH correction for stability is invariably required under these conditions.
• In potable water, ferric chloride is used mainly under low turbidity conditions and while capable of clarifying high turbidity water in combination with lime, an increasing coagulant aid dosage is recommended as higher turbidity levels are encountered.
• A handling and dosing facility suitable for a corrosive liquid is a prerequisite for ferric chloride use. Heavy-duty HDPE tanks are recommended for bulk storage. Compatible fibreglass or rubber lined steel tanks can be used.
• FeC should be metered undiluted through a corrosion resistant positive displacement-dosing pump with subsequent dilution at the dosing point if deemed necessary for rapid dispersion through the water body. The in-line dilution should be a minimum 10% solution strength.

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Thai Poly Chemicals Co., Ltd.
บริษัท ไทยโพลีเคมิคอล จำกัด
ที่อยู่36/5 ม.9  แขวง/ตำบลนาดี  เขต/อำเภอเมืองสมุทรสาคร  จังหวัดสมุทรสาคร รหัสไปรษณีย์74000
Tel.: 034854888, 034496284
Fax.: 034854899, 034496285
Mobile: 0824504888, 0800160016
Website : www.thaipolychemicals.com
Email1 : thaipolychemicals@hotmail.com
Email2 : info@thaipolychemicals.com



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