DEP0002127DA - Process for obtaining nitric acid by absorbing nitrous gases - Google Patents

Description

Dr. Lofterhos
DrJng.oonKreisier ρ 2127 VTh / lZi from 1.10 * 1948 COLOGNE, D _Clt mt ^ Tt ^ g

Rühreh © TBJe Akti®Bg © e®llaohaft ₉ 0berhaua @ n ~ BQlt8B

Process for the production of saltpeter by ilfrsor ptign nitrqaar gases «

For the production of nitrous acid® from nitrous oases, it is generated by catalytic ammonia oxidation, an oxidation and absorption of the gases is necessary w @ rd @ H. From the nitrogen dipoxide, nitric acid is then produced by absorption in water, which is due to the equilibrium 3 HO «+ HgO β 2 HHO, + KO nitrogen oxide aurüok forms *

B @ id @ r nitric acid production w @ rd @ aur oxidation mad absorption of nitrous ßase previously used absorption tower © ₅ in which di® B @ ri @ s @ luBgsflü @ sigk © it all® Torhanden®n filler casing from the top of the tower starting sequentially gleiehmäseig durohXäuftg around at the foot of! Parma in a container s au strains hiar in _δ tone aas is SI® äuroh a pump © naoh d®m passage duroh a cooler gum Surmkopf aurtickbefördert "DI® SAS® be aur in ßegenstroia Beriss © - Lung liquid introduced at the foot of the absorption tower and sucked off at the head of the d @ s! Puna @ s Nitric acid can be withdrawn "

Di® ÖxyäatiQB d © r nitros®n dus® is a consistently slow process ₈ while the HOg absorption takes place aitmlioli sehnall * B @ id @ r absorption * ie bti d®r HSOj-Bilduag f. «» Rschlecht «T see duroh IQ-Abgabe © the degree of oxidation of Gas @ _e Di® at the head of the furntea exiting Sas® contain 1® T @ rgl @ ioh sum 10a more IQ al® at the Puss at the β AbscTptioasturm © a _f si® we i son also @ ln®n significantly lower degree of oxydation on «Di © im £ rii§slauf dmrah & @ n ganaen Abserptioasturm guided® sprinkling liquid comes into contact with gas and clay with a high degree of oxidation at the tower base, the low degree of oxidation @r am lurakopf austrst®ad @ n (Jas® yerhladert abw trotadea dit ErrsichuHg higher ΞΗΘ * «» Eoasentration @ n _a Because di @ in the surrounding Bari © selungsfiasasiglEait finally achievable® acidity is next to

the absolute height of the Hitrose-dehaltee gruftds ^ talich yos & ®m. on the head of the furiaes IQg- »S0 ~ 7 © rhaltnls dependent? Bi @ in "bis-hearing WEIS® running through the whole absorption tower Serifselungsflüssigkeit can erreiah only © acid concentration <$ n ₅ dl © the equivalent in the upper ^furwh! 41ft © ruling Qzydationsv © rhältnissan © pile With the usual high Saur * is to © besonder® in the first © »Absorptionsstafen between furmkopf and SlurmbodeB © in such large difference in IO" / iO-Verhältni © _f that DI® at the bottom of Surmes abfliesaendt Säur® was far nioht di @ HMO-j-Konsentratioaea erreieht ^ the Wait for the degree of oxidation of the entering nitros @ n gas © to run down

Ua wurd © _s found that b @ i sound absorption nitrogen the @ n © rhöht® Salpet @ raäure-Eon3sntration®n achieved wana di © over sina vein in Abaorptionsturm lying Piillkörperaehieht® "jed © themselves or grupptnweis® susammengefasst with separate recycling and cooling of the dissolving fluid work, 4 on the «e« ^ f®is® result an absorption section® of such a low H8h @ _? since there is only a slight change in the UO ^ / KO quotient in them, Ba aioh these? @ rhaltnigse in every full body layer wi @ d @ rholga, is in the individual absorption sections and thus across the corridor © tower height Sufficient consentration rate © intensive absorption of the erosive gas® available *

In the accompanying drawing, the invention is shown in the form of an exemplary embodiment. The absorption tower 1 is equipped with four packed bodies S ₁ 3s 4 and 5 .

Below the filler opening 2, di © lerieseluagsfltigsigk © it is provided by a. Pampe 8 removed and, after passing through a cooler 9, carried out to a partitioning device 10 _? τ © η the si® on the Fttllkörpersohioirte 2 downflisesat. Below the 3 a bell bottom 11 is attached «on which sioh die flüasigkeii smaiaelt? ' the aue of üllkörpersohioht! "3 drips" Burah a pump © 12 si "over &'s Ellhler 13 and di © TerteilungB-rorrich" tung 14 siurüökbefördert the I'iillkörperschicht 3 #

Ia i @ r are the same WEIS® DL® Füllkörperaohiohten 4 and § durish Jumpen 15 uad 17 continuous with the hearing gug @ @ "sprinkling © - beaufsahlagt _t in the WärmsaustausohYQrriohtung @ n 16

Claims (1)

and 18 are cooled. Clay Each Slook®n1j © d®D IX flieast d <sr IlasslgkeitaiifcerschUBS thruqh eia Üte © rlaufr © hr 19 on dl® ä & runt @ r lying © FÜllkÖrparsohicht and schlissalicii of the tower in & @ n floor space a _o From hler, hoeHkoa2®iitri @ rt® nitric acid can be withdrawn as the end product through pipeline 20 w @ rd®n # At Stella a ausamm @ nhäng @ nd @ n layer of packing multiple overlaying lisgende Mnjselsohiohten can Tsrwendet w © ra n @ _s are gstrenat by large © gaps and Yermittlung a B @ r @ s®lungskreislauf "blld @ _ne PatgntanaprüGh® Ie) T @ @ n rfahr aur (^ ewinnuaf τοη Salpetersäur © äuroh Afesorptloa nitrous Saa in ©> sorptionstürmen with Füllkörp®rschiohten At provided _f by Kenna g @ © ichn®t <that the fiillkörperachichten each separately or in groups with aueamiaengtfasst g ®sond @ rt @ r circulation and cooling of the sprinkling liquid S ₀ ) Tarfahren according to claim I ₈ characterized in that the liquid silver soiiuas resulting in each sprinkling circuit is "transferred" to the firing circuit dwelling below. 3 ») Gate direction for the execution of the method according to claims 1 and 2f characterized by filling columns (2 _s 3 ₈ 4s5) lying one above the other in a column (1) in the form of a column Ever aagebracht liquid distribution devices ₍₉ 1O 14) _s and below each Füllkörp © © rachioht belonging circulation pump (S _{1 12?} 13? 17) and Wärmeaustausehvorrichtungen (9 ₈ 13 _t 16 18) ·