CS247350B1 - Method of neutralizing waste hydrochloric acid] from the production of activated hentonite - Google Patents

Method of neutralizing waste hydrochloric acid] from the production of activated hentonite Download PDF

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CS247350B1
CS247350B1 CS547885A CS547885A CS247350B1 CS 247350 B1 CS247350 B1 CS 247350B1 CS 547885 A CS547885 A CS 547885A CS 547885 A CS547885 A CS 547885A CS 247350 B1 CS247350 B1 CS 247350B1
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weight
production
hydrochloric acid
calcium
waste
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CS547885A
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Czech (cs)
Slovak (sk)
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Peter Hauskrecht
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Peter Hauskrecht
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Abstract

Odpadná kyselina chlorovodíková z výroby aktivovaného bentonitu obsahuje ako nečistoty hlinité, železnaté, vápenaté, horečnaté, sodné a draselné ióny. Na neutralizáciu sa použijú odpadně vápenné kaly z výroby 2-merkaptobenztiazolu (kaptaxu), obsahujúce ako nečistoty vápenatá sol’ kaptaxu a živice vznikajúce pri výrobě kaptaxu. Po neutralizácii je hodnota pH 4 až 7, s výhodou 5 až 6,5. Po neutralizácii sa nerozpustné látky oddelia s výhodou sedimentáciou.Waste hydrochloric acid from the production of activated bentonite contains impurities such as aluminum, iron, calcium, magnesium, sodium and potassium ions. Waste lime sludge from the production of 2-mercaptobenzothiazole (captax) is used for neutralization, containing the calcium salt of captax and resins resulting from the production of captax as impurities. After neutralization, the pH value is 4 to 7, preferably 5 to 6.5. After neutralization, insoluble substances are preferably separated by sedimentation.

Description

Vynález sa týká sposobu neutrallzácie odpadnej kyseliny chlorovodíkové], ktorá odpadá pri výrobě aktivovaného bentonitu (bieliacej hlinky).BACKGROUND OF THE INVENTION The present invention relates to a process for the neutralization of waste hydrochloric acid, which is omitted in the production of activated bentonite (bleaching earth).

Bentonit je zložením kremičitan, ktorý obsahuje premenlivé zloženie Fe, AI, K, Na iónov. Najčastejšie sa aktivuje, aby sa zlepšili jeho adsorpčné vlastnosti. Aktivácia može byť alkalická, najčastejšie hydroxidom sodným, alebo kyslá najčastejšie kyselinou chlorovodíkovou, alebo kyselinou sírovou. Pri kyslej aktivácii kyselinou chlorovodíkovou sa z bentonitu rozpúšťajú vápenaté, horečnaté, sodné, draselné, železité a hlinité ióny. Po aktivácii sa aktivovaný bentonit od kyseliny odfiltruje. Odpadná kyselina chlorovodíková obsahuje premenlivé množstvo chloridov sodného, draselného, železitého, hlinitého, vápenatého a horečnatého. Vzhladom na nízký obsah chlorovodíka a na obsah nečistot sá odpadná kyselina vypúšta do odpadných vod, alebo sa neutralizuje s hydroxidom sodným, vápenatým, alebo uhličitanom vápenatým. 2-merkaptobenztiazol (kaptax) sa vyrába kondenzáciou anilínu, síry a sírouhlíka. Pri jeho čistění odpadajú vápenaté kaly, ktoré obsahujú 3 až 50 °/o hmotnosti hydroxidu vápenatého, 0,1 až 5 % hmotnosti vápenatej soli kaptaxu, 1 až 20 % hmotnosti živičnatých látok vznikajúcich pri výrobě kaptaxu ako vedlajšie produkty. Kaly sa obtiažne spracúvajú a najčastejšie sa vyvážajú zahuštěné na skládku chemického odpadu. Nevýhodou je, že odpady obsahujú velké množstvo netoxického hydroxidu vápenatého, ktorý sa nevyužije a uskladňuje sa na skládke chemického odpadu poměrně nákladné.Bentonite is a composition of silicate which contains a variable composition of Fe, Al, K, Na ions. It is most often activated to improve its adsorption properties. Activation may be alkaline, most often sodium hydroxide, or acidic, most commonly hydrochloric acid, or sulfuric acid. For acidic activation with hydrochloric acid, calcium, magnesium, sodium, potassium, ferric and aluminum ions are dissolved from bentonite. After activation, the activated bentonite is filtered from the acid. Waste hydrochloric acid contains varying amounts of sodium, potassium, ferric, aluminum, calcium, and magnesium chlorides. Because of its low hydrogen chloride content and impurity content, the effluent acid is discharged into the effluent or neutralized with sodium hydroxide, calcium hydroxide, or calcium carbonate. 2-mercaptobenzothiazole (kaptax) is produced by condensation of aniline, sulfur and carbon disulfide. In its purification, lime sludges containing 3 to 50 ° C by weight of calcium hydroxide, 0.1 to 5% by weight of calcium salt of captax, fall from 1 to 20% by weight of bituminous substances produced in the production of captax as by-products. Sludges are difficult to process and are most often exported to a chemical waste landfill. The disadvantage is that the wastes contain a large amount of non-toxic calcium hydroxide which is not used and is relatively expensive to store in a chemical waste dump.

Vyššie uvedené nedostatky sú zmiernené spósobom neutralizácie odpadnej kyseliny chlorovodíkovej z výroby aktivovaného bentonitu, podstata ktorého spočívá v tom, že sa odpadná kyselina chlorovodíková neutralizuje odpadným hydroxidom vápenatým obsahujúcim 1 až 50 % hmotnosti hydroxidu vápenatého, 0,1 až 5 % hmotnosti vápenatej soli kaptaxu a 1 až 20 % hmotnosti živičných látok. Odpadná kyselina chlorovodíková obsahuje 0,5 až 10 % hmotnosti chlorovodíka a premenlivé množstvo chloridov železnatého, hlinitého, vápenatého, horečnatého, sodného a draselného, ktorých množstvo závisí od typu surového ben-The aforementioned drawbacks are alleviated by the method of neutralizing waste hydrochloric acid from the production of activated bentonite, wherein the hydrochloric acid waste is neutralized with the waste calcium hydroxide containing 1 to 50% by weight of calcium hydroxide, 0.1 to 5% by weight of calcium salt, and 1 to 20% by weight of bituminous substances. Waste hydrochloric acid contains from 0.5 to 10% by weight of hydrogen chloride and a variable amount of ferrous, aluminum, calcium, magnesium, sodium and potassium chlorides, the amount of which depends on the type of raw ben-

Claims (2)

PREDMET Sposob neutralizácie odpadnej kyseliny chlorovodíkovej z výroby aktivovaného bentonitu, znečistenej sodnými, draselnými, vápenatými, horečnatými, železnatými a hlinitými iónmi, hydroxidom vápenatým, vyznačujúci sa tým, že sa odpadná kyselina chlovodíková neutralizuje odpadným hydroxidom vápenatým z výroby 2-merkaptobenztiazolu obsahujúcim 1 až 50 % hmotnosti hydroxidu vápenatého, 0,1 až 5 % hmot- tonitu, jeho ložiska a příměsí. Hodnota pH po neutralizácii je 4 až 7, s výhodou 5 až 6,5. Z reakčnej zmesi sa nerozpustné nečistoty ako hydroxid hlinitý a železnatý, kaptax, živičné látky oddelia s výhodou sedimentáciou. Výhodou sposobu neutralizácie kyseliny chlorovodíkovej z výroby aktivovaného bentonitu je, že sa na jej neutralizáciu použijú odpadně kaly z výroby kaptaxu. Pri neutralizácii z odpadnej kyseliny chlorovodíkovej sa vyzráža hydroxid hlinitý a železnatý, z odpadných kalov sa vyzráža kaptax a smolovité látky, ktoré sú vo vodě prakticky nerozpustné. Využitím odpadných kalov sa nahradia drahšie neutralizačně činidlá, predovšetkým hydroxid sodný alebo vápenatý. Množstvo kalov po neutralizácii bude omnoho nižšie ako povodných vápenatých kalov, čím sa znížia náklady na ich uskladnenie na skládke chemických odpadov. Příklad 1 Do banky sa dalo 500 ml odpadnej kyseliny chlorovodíkovej, ktorá obsahovala 1,5 percenta hmotnosti HC1, 4,1 % hmotnosti AlCb, 1,1 % hmotnosti FeCh, 2,1 % hmotnosti CaClz, 0,8 % hmotnosti MgCh, 0,6 % hmotnosti NaCl a 0,2 % hmotnosti KC1. Odpadná kyselina sa zneutralizovala vápenatými kalmi z výroby kaptaxu, ktoré obsahovali 2,4 % hmotnosti hydroxidu vápenatého, 0,2 % hmotnosti vápenatej soli kaptaxu a 4,2 % hmotnosti živičných látok. Hodnota pH po reakcii bola 5,1. Nerozpustné látky sa oddělili sedimentáciou. Hodnota pH roztoku bola 5,1. PříkladPREDMET A method of neutralizing waste hydrochloric acid from the production of activated bentonite, contaminated with sodium, potassium, calcium, magnesium, ferrous and aluminum ions, by calcium hydroxide, characterized in that the spent hydrochloric acid is neutralized by the spent calcium hydroxide from the production of 2-mercaptobenzothiazole containing 1 to 50 % by weight of calcium hydroxide, 0.1 to 5% by weight, its bearing and impurities. The pH after neutralization is 4 to 7, preferably 5 to 6.5. The insoluble impurities such as aluminum hydroxide and ferrous hydroxide are separated from the reaction mixture by preference by sedimentation. The advantage of the process of neutralizing hydrochloric acid from the production of activated bentonite is that the sludge from the production of kappa is used to neutralize it. In the neutralization from the waste hydrochloric acid, aluminum and ferrous hydroxide precipitates out, and the waste sludge precipitates the clot and the pitch-like substances which are practically insoluble in water. By using waste sludge, more expensive neutralizing agents are replaced, in particular sodium or calcium hydroxide. The amount of sludge after neutralization will be much lower than that of lime sludge, thereby reducing the cost of storing it at a chemical waste landfill. EXAMPLE 1 500 ml of waste hydrochloric acid containing 1.5 percent by weight of HCl, 4.1 percent by weight of AlCl3, 1.1 percent by weight of FeCl2, 2.1 percent by weight of CaCl2, 0.8 percent by weight of MgCl2, O , 6% by weight NaCl and 0.2% by weight KCl. The waste acid was neutralized with calcium sludge from the production of kappa, which contained 2.4% by weight of calcium hydroxide, 0.2% by weight of calcium salt, and 4.2% by weight of bituminous substances. The pH of the reaction was 5.1. Insoluble matter was separated by sedimentation. The pH of the solution was 5.1. Example 2 Postupovalo sa podlá příkladu 1 s tým rozdielom, že sa na neutralizáciu použili zahuštěné vápenné kaly z výroby kaptaxu obsahujúce 41,4 % hmotnosti hydroxidu vápenatého, 4,2 % hmotnosti vápenatej soli kaptaxu, 13,1 % hmotnosti živičnatých látok. Hodnota pH po reakcii bola 6,7. Nerozpustné látky sa odfiltrovali na Buchnerovom lieviku. Filtrát mal hodnotu pH 6,7. Vynález sa dá použit pri neutralizácii odpadnej kyseliny chlorovodíkovej z výroby aktivovaného bentonitu, čím sa podstatné zníži kyslosť odpadných vod. VYNÁLEZU nosti vápenatej soli 2-merkaptobenztiazolu a až 20 % hmotnosti živíc, vznikajúcich pri výrobě 2-merkaptobenztiazolu ako vedlajšie produkty, na výslednú hodnotu pH suspenzie 4 až 7, s výhodou 5 až 6,5 a z reakčnej zmesi sa nerozpustné látky, predovšetkým 2-merkaptobenztiazol, živice, hydroxid hlinitý a železnatý oddelia, s výhodou, sedimentáciou.2 The procedure of Example 1 was followed, except that thickened lime sludges from the production of cabbage containing 41.4% by weight of calcium hydroxide, 4.2% by weight of calcium salt of captax, 13.1% by weight of bituminous substances were used for neutralization. The pH of the reaction was 6.7. Insoluble matter was filtered off on a Buchner funnel. The filtrate was pH 6.7. The invention can be used to neutralize waste hydrochloric acid from the production of activated bentonite, thereby significantly reducing the acidity of the effluent. BACKGROUND OF THE INVENTION The calcium salt of 2-mercaptobenzothiazole and up to 20% by weight of resins resulting from the production of 2-mercaptobenzothiazole as by-products, to a final pH of the suspension of 4 to 7, preferably 5 to 6.5, and insoluble matter, especially 2- mercaptobenzothiazole, resins, aluminum hydroxide and ferrous hydroxide are separated, preferably by sedimentation.
CS547885A 1985-07-25 1985-07-25 Method of neutralizing waste hydrochloric acid] from the production of activated hentonite CS247350B1 (en)

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