BE739873A - Increasing the filling capacity of tobacco - Google Patents

Abstract

Filling capacity of tobacco is increased by contacting the tobacco with a quantity of a volatile organic liquid sufficient to completely impregnate the tobacco, and then passing a gas in contact with the tobacco, this gas being at a temp. at least 17 C above the b.p. of the organic liquid, so that the tobacco becomes expanded and the liquid, is separated in the vapour state. Specifically the organic liquid is pref. trichloromonofluoromethane, and the gas is pref. steam. The tobacco may be moist. The impregnated tobacco is contacted with the gas at 121 C- 204C in a vertical c1 column, the gas passing upwards through the column. The hot gas may entrain the tobacco, and the expanded tobacco is separated in a separator 40-250 pts. organic liquid are used per 100 pts. wt. tobacco. Impregnation with the organic liquid is carried out at an elevated temp. below 76 C. The volatile organic liquid separated from the tobacco is recovered.

Description

  

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    Proceeded to prepare? tobacco.

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  This intention relates to a process which will increase its stuffing capacity.



  The tobacco leaves, once harvested, contain a consummate amount of water, and during the roasting of tobacco this water is removed by the # dewatering, which jrDôiG % ae a contraction of the females Darts the usual p-co.a of tobacco preparation po; .1 l 'e # 1%; epsiag "e ai: 1s faJ> # - icas; Lon subsequent cigars or cigarettes 3 1s ta7c ---- c resumes.> at little, if not at any cost., the contraction resuJ.2year ': of eeoE = aç.ei so that 1 .: occurs U, e pext.z; apprêcia'ble 6'3 1. ± capacity G 'stuffing of .tobacco; lizasi, 7th tobacco a specific mass which exceeds that necessarily required for the cla
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 satisfactory cigars or cigarettes.
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  Several methods have been proposed d5.Rs la .teoEims.grre ai # térieixe for Eccs'ot-re the capacity Ce 1Q1: a :: e? A ta; 3. ' roasted Ct1 selected. Some of these processes ± c # ùsi # "e # 5 ### t <Ses cF ± # a- tioixr Ce dnns which the as7 ,: so'esdLs to lëlpat't '= water under 11êu't : e pressure then to -as re3.àdRéLM, 2L2 12 ± SEgtli3 <3rd pressure.

   It has been proposed to dacsyoStse the czépn- = iol of 1; jurrage of tobacco, due to reduce its; aES3 s: t: 3Qil'iÇtl! E apparent in ei% osai; 2 the particles of 'i: à1: ï'2.C a: VËpers; l'vn: liÇf # ide organizes either to W1 organic liquid then to na Séizaj. to JL J 3ix at the testpê? atnE '<a oi.'diaaix'e. cep; nd3n.ts c? s # iiài = liades astêE'ias # 'es does not feel absolutely satisfactory because -z ;; N9 a) ellos is not effective for diel.cxJàJx = 7a capacity c'has souxTags in:; ; #ce grande rn.esure6 or (b) they provoaeat to eas p # <icuZes of tobacco, so that there is a gc - ntit-l coasidês's'bla es
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 wastes due to the formation of fines.
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  The present invention provides a process for increasing the packing capacity of ta: cac, which comprises contacting the tobacco with a sufficient amount of a volatile organic liquid to completely pre-pervade the tobacco, and then passing dmn eaz in contact with said said gas being heated to a temperature of at least 17 ° C above the point of eb-ü1.1ition udit Liquid at the contact pressure, so that said tobacco is
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 expanded and that said liquid is separated therefrom in the vapor state.
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  The process of this can be applied to roasted tobacco in the form of leaves (y- c # nE, risn 3rvm; es and tails), Strips (leaves cuttings) or chaff "minced (strips in Mars).
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 .waters for making cigarettes) - Using leaves

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 or thongs, one can choose? Jis -z7-lîr-ao OD the g; m13rµs of fr-n-bac for which the prccadê is the most efficient e qas. per # and to obtain results close to the KZi7ìW @ ù tt0? ù, in j: .. 1.1'eI! &! lt the + Zàix of treatment to a rtdninï11! ûG <If we must - ;; :: a1ëer. ! .a whole alaB- then we prefer # io # e ia load hagaizè¯ In one of the ps'êfârê aspects of cstt-3 1,? iz> .enzµ,;> i es ntilig <s
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 a damp roasted tobacco
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 We use for a g;: "" 1Q:

  3 .7 "" iet of organic liquids q'àà, can be absorbed by soratica iBais preferably the crg'aiique liquida is uix ligaide 2.3, ra.11 \ l: poµ¯n ± of ébu-llition Ànferà> etG ce2. ,: 14- de "car: w We use 03] ¯ce li.qi <ie inert organism contributes aon z * ule # znt to expaRsing the zàr * ctàwe Gu taba63 but a1 .." ':. if to fix the az1lJOElÇù in Uàz 3t5 & xpans. ne 1JL # 1ide organic must not a liquid splits d.-B irrê'y.er.siM.e faces to is appreciable degree avss Is #daj <j es dZ, .j; sr # born rt-- must not be altered? the qualities a3, rônm jmz, = z == di; jgz 'its degree 1, n <às $ -rable, oest # à # ie qpà2i; ¯ oit tË''3 àngrg En, 1 liquid a ± ï ± 3% it2ielzt has #:

   Gatêgo'ies & es h ± 1% 7o = cz = g] 7yyr <gg alipIËtiqs-as des 1? YàitcarlaÙrc? as'CBatiqueSj: aÎCOZ * Oi # '3os àJµto ex, aliphatic .asters, eas hzrGrcgTiJ ## cz sz, bz, t4.za = p'aE' cas' halc- 3énôEs and le't! rs malajiges . 1 "s'aut E! Ie'u: -s t: 8Z" er with Mmr.7 at low point d i éJ: Hl1: tition de s'3S eatêgc'ri'ag. It is zn, endmi 9 "at low elJul l5."; Ion "s 'appl, 1 <z <e au :: lIçp.1: tGes: qui csit': m boiling point less than about 1.1 .03 il Ce et de pragérē = - infriaor to about 6îō 5 c.



  Representative inert organic liquids of oegon.3; = benzene and toluene; 1.Ii / ctcne "la a = àt] iù + lL thy !. ctone" methyl isopropyl ketone, di.'tl1Y1. ketone 1.:t Ac; 5tYl: to1e methyl ethyl ether "diethyl etiter 1- <Sipropyl eHe3-: diisopropyl ether, ra4tliyl butyl theru lU &1t11; Y1. btyl ether, dimethyl ether det11ylene glycol, and le 1: l-thanol, ethanol., propaESl. 1 iji i6Cp ::: opao: tq 1.11 a1.cool. sec-butyl, tert-butyl alcohol, tart alcohol -sylignate and allyl alcohol, butane, pentane, and the corresponding unsaturated hydrocarbons; and zrcloùJutanT- cycIcpeB # tane, cyclohexane and syel <ëheëse.



  Hydrocarbons substituted with halogens can be: aliphatic, cycloalip'ha: tic Gu Un or plural aliphs.tique cycisaliphaticoa arcisatisa- la #
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 if their halogen atoms can be found without each molecule
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 3. 'halohydrocarbon Two or more different halogens can

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 have found in a! & 8mo .c-1 of halahydrocarbon.

   Representative halohydro- carbides a are Gsthy3 chloride, propyl chloride, aopropyl chloride, stylidaa chloride, n-but: yla bromide, aobutyl chloride, aobutyl chloride, aopropyl chloride. sec-butyl, tort-butyl chloride, tort-butyl bromide, methylm chloride, ix, s: e do: 1:; thylene, chloroform3 "carbon ttrachloride, dichloride d 'étliz71àn, chloride (ethylene, acetylon dichlorura, b: 1chloro <t.hyU; na and ucarue.



  0 Dos cnt6g'ories prdf6rdc3 of organic liquidai inortca are Ica 1tydrocarburGa alip11atlquos having do 3 to 6 atei2r3 Goe c, 2xbonz and alkanes substituted by halo - ;. enc3 nialo-alc, 2rar;) having- 1 or 2 ntom ' J8 do carbon, and Ion haIccysloalsaRoa having 3 or 4 atoz29 carbon. We utter partic: uliàrcment the cè! Poo4s which S01i't ..: 9Gn & "n- Icsant known under the name sa fluorocQrburaa!? R6cn. Either rcpx6Gcnt- tives in liquids Freon prefer rú8 la: r a.re::3iw: ; m La d.:airig3ua;sr'a:r., la ïsonQbrca: 3ts'ifluo? C! s $ ta & 3t la ahia-> o, .U.fluorc-; t5t! Kmc, la tric1 '! lcn: otrifluc :::: o1thnl'l3, 1.0 dic'h.lcz: ot; (jga- tluoro5thano, l foctnfluorocyclobu \: 1: lI1a t3 & le \: ZQci11; n: C ':: lif.:::.:1.7: :; 'C: -, 6t1uma.



  We adjust the ligt.ïido ratio oqcniq0 1not ù'i9rü- tion to obtain the '..E' t3 3F.3 .. 'xr in rule TI1 & "al0 ùl1 G1::' ¯.:. Wd '.' 'entered 15 ... ""' we weight do li <: 1 <1ido po #. 10;),;> t.! crJ in weight da ttibss and at pst! PZZ, 13 the f'Z'opo4iC "' i1 ['":} :; l; :: 1.o d'i. ?? 6goa- tica (lu liquida. La 8"' .ï ks â --r¯ 3 t1! lf. ".?: rgn :: tiLl ast la? XO- portion F: ^ '2> .s:' "'r qui pf2ut OttO abo: id; -1Q p:) 1.' the uih2! "J" :: J1.1 q5:;: al la ô4. '"" i..â.é'id of liquida 4idi.'. g .., sGi'a "utilic5a 0C wâxa .., .w cnv: .ron er.-tre 25 ct 350 parts sn weight psu? 10'C partQa ça weight do 'b2C. We observe a o..Gâïl .: 63 mt'? ô :: 'Go' i. ' : y.m.3 '; g'glé, t, &? in handling the rc.' ,. 1 # ==: r-Eù # ± do f.; 3 2 <: wt * J
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 proportions of liquid.
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  When we 0,, rbra avoo libidos or9liüa9 p0fW9 it will i :: .. 1 use about between 0 and 250 r3rt! B that weight p 100 parts by weight of tobacco.



  The conditions of 6.:> '. c3 and from Prussian il .x. "''." r '; r'¯ c', 3 the tc is ttis one contact la:., c't3 organiçpi-3 3 zont px3 er5entLelles, ot en r5gl'a n1zêlC !, the tG; - :; EJ:! 1: il '(;: ;; C' :; and the proc-aicas ordiaairas --ont a],). ':; Qlt17-2i1't Gt.ifai [ j <2ntC'r .. 'I ..' \\: - = :! 1 r -: ': 16ri1 -z -'- is n6cog $ ar çcur 1r69n8Y la' l '¯ ,:' .: fs 'dm liquida cm2re,' c3â2. that î, .nerte, and 18 in'tpr6grm.tion can be carried out in t ..:; ut typa

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 suitable for tub, drum or other container. however, in the case of liquids having a low or high boiling point
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 vapor pressure, the imprecation must be carried out at reduced tessperation or under high pressure so that the liquid does not vaporize during the equilibration stage.

   It is preferably carried out at a temperature below about 760 ° C. in order to avoid spoilage of the tobacco product.



  After the tobacco has been impregnated with the organic liquida, it is better to let the tobacco come into equilibrium, that is to say, come into contact with the liquid during certain perloca da tempo. Here again at the ID.,? 1J will depend on the physical state of the tobacco and the particular liquid which may be chosen for taxation.



  In the case of 3 leaves, côcha or back 1, = Lêre3, the contact time can be longer than that with treated.m3at of particles of tabsc more finely toivic60s ccxa clial-, ga chopped. D3S ggéa4 e- deG ranging s quGiqccs mi1núts to pas matas <E3 24! 'I8'i.0S cont satis'- faicantos. La ter ,, na n1CeG8irc rour? <PrGgnzr ëo fc.ço sca-sibiGiaost lu m3cce du tahc = cd @ hd aD8i do la: 6tvol le t-SEo d'i! R;? S6g: ïaiion Q6L'n.d f 'urJoi <"if) the pruned of piw.t: J, o:; J, e tit! tc.b: a.



  The more. size of is wzrn <2a plus īo. 3 csl long.



  1..3 t - =: z: IJJ s'epôsentatiSs leo nG> rc # aim and thongs hL; ùad-does xc.; Xt at O, 5 at!, - cura 65'C; 12-24 heTIOS at 3CoC; Ò to MO i # e; oegi = j to 34C.



  ±: gqi; ha qpài '+ & ah # - <i ait G'1; cc #> x> loE'cc = é #> nt; la.z> r ± gnE du liqaid3 cg0r5-, f.!,), we have 61i # = 1,1; e ra1t4.;? z: *: zc lo Xiqu: L6J;> rgé.àqiez. C5 # C # is rcJéiliiJ & by making passas- zn 3 s'ha'ed to tss & 's le> b1bc 1> =;> t # ignÉ y3: <there ## 5.D.ac:; ajpiG # m2 lG dispute qu in ps '<= tc-rSi, c'ost' "* 'dixQ Ga; - + Oipc e'-2 roycs'a <2e Q1! 91f.lC () :. 1 a, ù * nfl # s, psr orù- plo dio 11ill $ d'on'yircR 4 caco * ié¯ *, s f & a d vJ; r; :: a11 .. & 1 nvq = zamta.ô; ioié Qc vol; 3 <; o # fi> aitGo du tasa and dH: em e.l '$ ra-ioa do la ca- life e'o i7, eot ç;:; ri: SJ? *? .J éro # iùint iù, ira = ii: a = g <to: c .; d if li!;: iJ1.::1: 'C' ..- 'f 16'3 1-iqùflù'i 0-e: C "' U '.'? ','. $% ' Uéà.ÎiGiYà-É, Gll d fU1 3'tlZ c'r.ci FQ'3 t031% Jàti% tl @ 2 GàgÔYÉ.i ± '3 éi12e 121 ot 2C ±, "C ëlisia.s ± 5" c :: ::::: ht. le], ig ;; 1 <;> d 1J i.¯: <: gz!: tan t!: Ù3 Z: ¯yi <2Z ::;: - jEL1 G * SQrè3; .. 1 e tl (:? tiC2tt .:

   (, 11 U \ ;;; Q. ;; tc: t 0 ± bUc% C71Z el? #Q] I ± 'i ùGYË CY? G ..? I ta: ;;. T' L '"C' ' tC "'Yt fim .t% k # -; T c> #i çJ # i:; r # 1.é; ire; çm' - fi.it. =. # = * ù.v. ;; # f on; raµ.i = i 1.a 1;: ce.ryo? * 'po: >> *' T '' * c '' * "'' S '- *"' '"' '" S "" : ta # tuuiJS = r3- p :: Pt "t1. [::. \: j; 8f; ..% no s0r-2.3,". :: "./ '; 2; G' # s ±> yns = 1 '±: oeài: it Czs r; .c :: ..:.: T;:;! I ±; Íi.11 Ca çnzi ccri ;;';!: 3 il t: 1t1: 3: i: :: .la ca # te; Lf:; 1 & Ioe 7; 'C ::; :: ç - .. ge t 1 = rµ-' Liora also the qualities i? = tc :: J. ;; \: iOl 3 to, m di = # rg # c <Eli # i # ittmtàcn of

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 liquid oaaiqe c7e- préÊ ± Remzea zazribi zant la prec3ion .atstospiqso ïsaia elle psaë efiàooe- # v # er a :: born p #> ecaia = -aJ 8up3r-atmh6ries when a-n used a very liquid?: as xxik of ebulliticn.

   L3 ga is wherep # owed to 'ne # enpµ # ats> s> ce * u # ± to * 4 == mwr- of at least esviyon 17 Ct and <30 pfës'enee ù'émn care 10aC, aj; i = -t of boiling of the liquida org: nicz: e 01 '} t} t1ir l'iàzprÉg # .tlc; -o teiapyaurd "6u gas dIIP3.nLI aài3Gi du poiat dlmllitoa da liqu4d <n organic el 1 ilE.é9' na: tioZ! o Il vast iùiewt edits' d'nti.lises' es' & 'sâ =' raturos On gas dêp3Gsas & cni-oa do gagon à êvitex 'sua a't <Zra- tien il, 3' l'QR 'C: Ë3 of the eccopoiition da 1; cJ: @ ..: t <# - i -Gs: - # -a3 # zl. Nm ëo pref6rensa to una tG:;.;? &:' AtU1: oa o1i3 & - de '1? ezwilrono E:' 3 zal est, ..: "'<"' .; ..t4. ps'ês'ense pss 'apetSE' "1, .., t. pns' '\ J!' 9 \ "" ", '' Ti;: '\ 1"' is - "" "'V <-> \ l' = 'fC ..."'.,} ... - i # r = # fsren * e pù; r 1 -.% \ JJ., oV "" 'of ea? i 2n:> * m rfi> 1, nn => ge of erc "" Cir; d8â and of v - zoii = J ;;

   casmis oa i # 1 = toet use csa Frofli.ô d? o = -u4eo hot gases eee.3 gss example the area azo '(; QII!; m1.hyÙZ'! c sasI: cM, (a i + n 'iqpa16s osgaaigK'B 0 = a # tz;> iéo or des ï'lac'a do ess gas, cu ercoro tout r (D j 3 q? 2i cot Êscs't # ViD-à-viG du> 2zhna and 1iuidc d'hppr-lçqua.2 + on 'ss'aaiae -alaiS .. ià7rtz nz..53; r 61idn1 c? <tn! 3as the? liquid ocgazxà.q = * ze à'i- = iptÔ- gn - <> tJ.cfi, jtI3? é <> é # jzl.Ifa'càon, cA p9iii; s'Rpsx'eN 'coe 3-à> q * 1.ùe otga # ùiq?; e, 3 .e co; d.5m # o # <.. 2 la reo # 1.e? * r poiw le s'éati.lises * <I: a î; z1% z = is eiicui '!; <3 #. = laj * = t; 1 to! t-siz- * ur ea ann wanted pos * z'z; 2à> 1.Ô e? <on si-Kla partial3.c.

   Psy y-SajEstc-Esnt f oa antead ëe la '& eae: N;' that Ir "zr! i = .1 ditô en? # :? i; c cJzianr5 -zt aµ ?? sizé # to one Tm?> eiw vo: tl1el1 - = top ç <.; = e: z ± n. to # '<; 12 1S% ± z5-vx la OEiai # ge Zit = OEi% e destisse à la fGù.ricsl ± 1 #; des cicysR'ctGs Ssloa ë: -1 ea ràa3, iz-xéioi; <30th setta S # r # en2iosoe, that ei "µ = 1 ± = àJ na t1ùùEAO ô20 5Wtùùi'à and M'sddo tl ± 16> 'î'ô' 1. @ 'ëesss? in G2..ù qai ud? #i: .J'-rùn 10 to 3.CD au pais ea psu ## / ISO g> Riéd es in iz # 'cDz de t:,: bc,; à = z < in.year ?; li :: '? éB = itioa pcis' le l Lçvidrà <aigzanJ> q <; eai Da pi =; µf.ù- rcnc <: t la tei: s! n * t1 Ot: lt1 c1tl ta1: J': JJ } e: ccx; iz> t3ur # in litGy.ralle from 13 il 50 V'S'Gi0g for:

   160 gsxiies of iSQi, os eaeore: alemi <3.KS 1'µ; #E; ù% .-. AlJ.e d3 3, # to 30 p2.1: ticD 116ur 100 p2Z'è; CS c tz # lJ #he, -s S '* p: r: c: aiog \ fJ1C *' * '' '&. CS, 1c "= Jm # c ce g: 0e to ati. 5: ifli # c 3Ct 3'3S < By cn; ex: = 1., Un .tà? Ar = c .tG> r # t <ùiô having UE: 'B 2ùn * ce asturelle in .water of W, 3i5 eGt ecxsiëE'.isi cT; m #, e con.te; zani: CMN'iM. 14 jl water psytias, poT 1CO!? 2.rtie3 of '& a'!? s3 The. limit iafés'ie! .s '<s'? himi <ii = 'l du t =; b' <m li treat is pauw i.'ct # << n. ;; iei iixp-t3; 3.? la iirzàg4?, i'c "... tobacco. 9a t2-1 '{} P ses tead to sa et? Rcis' '' 3 of the f ln-as.

   The çpGa # 1?; S: t4 to% cau esiloyê-a s.3Bt 3- & 2re as ses gre # ;: ie poc- will par- put to 'c?; = Ct'ëtE'e eelètmst dL.trc; iGµM 4-1 vlrt better avoid 'using 1 in pyoportioss such oz-ù * 1f = -' b'lC

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 either very l1tîI! 'ii "-e because of the difficulties of mixing in the use of masses of tobacco also heavy. ï-a I: The-te u1ir iric pi- tiea of humidity p <? ur 100 parts de 'i ::. r: 2b2.C ecnsùiE UJIT.9 lim'; t: e cp6oe> will be preferred and practical. Leo: -ara: t: 2.011 illll! 1Ufc! Ie; 1ific &: t: ion u't 5 be tested & are Wian: # O! At <éompµra.ti; ee Gl- # vÔ-ùx end usually prefers to keep the tobacco as-aessos from around 76 <62 in order to avoid tra: ti "ll1 ric.

   GOR as'8! ES, Sa gµxµra? I '&. Ust3.cEi fication is carried out at tc-w' Perne- -1z a a & masperia for example at 16 c-3t- "c, We can add] L" aaa to '& aT% s seica 5'! Na tcclY- 0 if any that. permoet G@ob.=onLr ue mass lzàified appreciably bc:,.: ogGine, by # :: r ::.:; r.:ple paz ', -1' \ i..zi8: 2: tio & 1 0 '1], trczqpayoe- When the tenatir in 1; wuiâi.t * dt * b * c is found in ls.taral-' the desired one, we then put the tobacco in cÇ &;!'a'Ï; ûc't a '1YGC zmz <a mïaR'bs.: Ê ss2fi # health of an orynni liquid = volatile z-ue, pe === k te, -m3 s # fxi.sas. & To achieve' an istprêgnation -1ç% = ipllte du '-moEi * e * The proaêgg of 1.' iit <Nen '- = àon esr ;:

   pluz, ea w7, C * reference to Gessin, whose unique figure> ei = -réscnl; a sc <us òuNr3 schês; global a * tique <; n mcd3 of r-alisatioa of the pyccâdâ of ll13 + ez- = ion> Ltmaidifa.eatet of tobacco a snité poul- aosE 'the water of line 2 at the expense of .7> roasted of 3-lgne 3.



  1 can add the asa by pu7vàz.isa.lrJ.on, es by passing d ± 1nc puddle of 0 <". U" le n {; esgai ;;: @ -à2ant pn # écJn c-or SKprimeE 'excess water> for a bet of time at':; OR1rO 's? a.é <ielle the water diffuses, 1 years -la Essse ëe' s.bss <. so asTu ', iia-W s tobacco the consiituaRts col'es da # m 3, + au- tost''a l * ea'a 1 is oim- priicsa of ïssaid tobacco is: cec: yclf. Eit.1 1oYÎ2m <Ë-3 la 'igz <# 2, C: 3 qui pertnab d8 & "eà.te = an e # xuJaetio; set'c' e the Eîatiere soisbie a. Tsae In some cases 16 tobacco pa-nt already have ur-e content ex = iiwmdd3: t = i equal to the \: l1e in desired water <2u tabsc hsside.

   Dams- this sas the & s # midifiCat * -, C- "1 would be (by means of line 3 &) The taba is cn - .. rO'l.lé" by means of the ligaa S conveyor 4, at the îù; prég.; zi-teur. 6 which is not '0-tLea a cyiLin5re c'os provided with a' is for ucl; e 1; er le tahac hUftlide "1 ... a tabnc Ziwaide is inz? regn-l àn liquidida erç> znàqme de la 7i.gne 70 les 1i ;; r2id organic can be added altogether in such a way that l * 'saa in the h * n- = ldificateYr 1.

   All the liquid eùnp # i- <6 of the isrêgnateor 6 is etjalemaat recycled (via the ligp-ae 7A) to the line 73 in order to reduce the p8rtea da components Iii al> c 301 Ubles in the liquid The impregnator 6 is designed for tri & e = Fl-le = '- temperature Eo5âr <before high, for example at 601> C, and usually under autogenous pressure:'

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 That;? F.> Ut use the pressures applied to xseilitate the Etain- tien du liq-, 1st "± sCb :: at 1; - 5 state binders and pOïC 2.ug, ::.:;: Nter the speed of h-1p # ôgn * tion; Bar exesïplef on paut will introduce in 9 speed di.! npZ'69n: atio By e paut int: ccélui:!; .- e, in 'ira- 3' ^. '"t3 61317 kilogrr = 3 of cb, zlrgà of tab3C 1; azi; µ =, S2 Icg of an at S4. kg this Freon z3 ,, the t? u? a> c yests-at Qa1S l 'k; prégna # tU "for about 30 nisates.



  W ar "S ^. Huside and impregnated is then sent aa ncyen from the li'gr'B Oj to line 9 for Gtre i ';: darrz 1'; #> zznns-ur. 13 from t '':. ^ ':: 1 .. cn ;; :: 1.ar..ge gas, of Freon and Ey, 6F die?;:! By ejeE "1plell.



  'el'17o} "é or reheater that this gas., at Eoyea' 5 1 <:). lines 91 d ;; U19 1. '0:.:]? s: r: n: rr 13 where the hot gas at la 'Cab ;;: ci ;;: ;; n: 6gl1! f: Yts-: i <3e are soi- * à <".: s = w..m..i3e.'. 4 '. =: 5.'. '.. o an uses um C'.3. da gas 3t1 ±: r: is ;: poor prO = - 8: psy 6-vRpyatioa. ' G2ai.ß '- .. bc liquid iÍég9 su <tobacco at one speed We e: wl <1 = - a fan 12 to circulate the wc ... v'P. ;;; l'.i;:; .'t, d dans l'Â ": pall.seï.: 1.r 13. Par e :::? l ;;;." Z, c '' .. 8.v on t!.: ;; p:; r .: S0 317 kg '-3.0 11 = Jhae .ii2:? regn1 and htsaiga by 110tl'C0, one introduces dan.s; 13e: spreader z ": .Il - '' - ^, v, d ga3eu: t of 127..COO 1-zg of Freon 7? And e 17 <550 1 {g of sz ':. D:' .. it .. by neural to URe "è'm3g,> ..". 3X ,. ta'Ce 'of enviroa 170 C and with'. <2 ".7ite ::.; linear sc of to p3u near 3 , 25 thread / S.

   Av53 il. '"1e imitated from e: 1; pan- cio <23 25.6 meters high, tobacco iupggn1 # iàe is put in L..> F> PVC-2 hot gas for about 3 , 1 seconds. Ca: ', ca3 &' e: R3ion 13 the 2ab # c is e: r2ns (its capacity <3ù?; Nri; .g == i is m3i "e: r'1 pa? The gas cha1 .11g which G: r:;. L (; ùo ;: 63 ,, ;; :::.;, :::; c2 :: ma lo c {fpi2rato! 1.JC 14th 3 s <Spss'a & eu ' 14:; '; 1Xt;.' '' '' G 'â: .de ;.



  : ï: CO :: l ': ,,: mtic, ± m11e do EU - <': Y! f3 eyoloaa by esample. r, tnims o :: pan.G6 cat product collected from c'Sp3E'ate! X? 14 su: ft1vyen of 3 16 and is sent, if desired to return the treaty- fJ :: nli: plti'3 6con03!. That, to an operation lisiKatioa da residual liquid Jans the unit 17. It is Conmcde de îcitre the In-Oz-ze s :: paasê in ccnt-Est with water vapor intradu13ue by the 1-lil in guaa # tit6 Duffieanta to vaporize all the residual OTglic liq-aida.



  The Vt3p'3! Tr conen = Qe of the deélt1on deélt1on du liquida s'êsidsel have esvoyCa by means of line 19 to a unii <S do 2: -C - heart, -ratîon in sight ..: la la ? Ecup3ratica da this organic liquid content. saâ.rc.d tobacco: d & han: éHJo6 do liquida oJ: 9 '<. 4 "' Aique leaving: from unit '17 c'ir'.a3. of liquida residue is zaju8té to mua to; #ur en water suitable for storage or for u = - aga 1- / Mediat. If it is desired to offer a readjustment, the tobacco is sprayed with liquid in operation 21, where it is swept away. desired bumidit4 content, by its zéchage operations

 <Desc / Clms Page number 9>

 or humidification well known in the tobacco industry.

   The expanded and readjusted tobacco composition (product) is sent in-
 EMI9.1
 after rewinding or subsequent use by line 22. ' The heating gas, the flow of organic liquid and the flow! afraid of water, collected from the damp impregnated tobacco, are recycled from the separator '4, via line 28, to the r: âheatingev.r There of gas, and from there to the expander 13 via line 9. Excess gas of the recirculation circuit are purged by means of line 23 and esveyés to operation 24 for recovering the liquid. Water and liquid are coxi & an - 6s.



  The water is collected by means of line 26 and the organic liquid is recycled to the impregaatour 6 by means of line 27. When an organic liquid is used its miscible with water, it is used for. separation a simple decantation. Distillation is used to recover organic liquids which are miscible with water.



   By the process of this invention it is possible to increase the stuffing capacity of roasted tobacco from as much as 20 to
 EMI9.2
 lQOE3l or even more. This tobacco produced having a lesser learned specific mass is useful for manufacturing purposes in addition to cigarettes, cigarettes and pipe tobacco. The apparent specific mass has been reduced, considerable savings are made in terms of consumption. the price of 'tobacco in the manufacture of these smoking products without sacrificing their quality.
 EMI9.3
 



  In order to measure the capacity of 1xnJ..rrage of a tobacco produced in charge as described in the au: Lv & xecs, a compressimeter is used which consists of a cylinder 9.5 cm in diameter bearing a graduated scale on the side.



  A 9.4 cm diameter piston slides in the cylinder. We apply
 EMI9.4
 that a pressure on the piston and one determines the V "olU1! 1.e in ml of a given weight of tobacco # is 100 grams. The experiments showed" that this apparatus determined with precision the volume (capacity of stuffing) of a given quantity of tobacco 1-to-21, with good reproducibility.

   The pressure applied by the piston to the tobacco in all the examples was 0.16 µg / C'1D.2, applied for 5 seconds, when the volasse reading was taken. This pressure corresponds exactly to the pressure normally applied by the wrapping paper six tobacco in cigarettes. The moisture content of tobacco affects the values of the tamping capacity
 EMI9.5
 as determined by this method, therefore, comparable packing capacities were obtained for similar moisture contents.

 <Desc / Clms Page number 10>

 
 EMI10.1
 vs. w- -Four allow more complete rm ccmpr8hensioJiA of this' rwS'1s tion, we will now refer to several examples. which in z-zn2
 EMI10.2
 representative:

   Example
 EMI10.3
 A chopped el = roasted cigaret tobacco containing moisture and having a stuffing capacity of 453 rul determined by the method already indicated was mixed; to a quantity of sno ± 2isanF = e of ethanol (boiling point 70 ° C is envisaged) to impregnate cc-mplê # teaest the tobacco - the tobacco treated at: "s; .7 .i in usa container1 "t closed for about 20 l1suresQ time su Loui which was passed 'd <â .. :: 3' è '# ..," a., ta'c.âd'u.'. of steam. of water having a temperature of ICOOC in alcohol treated tobacco for a period of 5%. At the end of this time the tobacco had swelled and the alcohol had been completely removed by vaporization. The content of tobacco at> 9% by weight.

   The tobacco obtained was suitable for use in the manufacture of cige1ze'i: tes and had an = ap * .3 ". Stuffing of 517 m which represents on the original tobacco a progress of about 1209 > µ by volume "The ïdtv 'â7v of Example 1 was repayed using water> e1tr; and the results are. reported in Table X.

 <Desc / Clms Page number 11>

 
 EMI11.1
 iAJlnxJxu 1
 EMI11.2
 Time d? EJr- Capacity Pourceàitage Content position at stuffing Qvolimnically adjusted the steam rage in d8increased in iilimi- 5 of water in zmillion of ca- ditin atinutes very pasi'ca of% weight # SxsB- borrrage rai pie Organic liquid ¯¯¯¯¯¯¯¯¯¯ - ¯¯¯¯¯¯¯¯¯ ¯¯¯
 EMI11.3
 
<tb> 2 <SEP> Acetone <SEP> 3 <SEP> 533 <SEP> 19.7 <SEP> Il, 1
<tb>
<tb> (e.g. <SEP> 57C)
<tb>
<tb> 3 <SEP> Ethyl <SEP> ether <SEP> 2 <SEP> 614 <SEP> 34.1 <SEP> 9.7
<tb>
<tb> (e.g.

   <SEP> 34.5 C)
<tb>
<tb>
<tb> 4 <SEP> Benzene <SEP> 5 <SEP> 522 <SEP> 14.0 <SEP> 12.0
<tb>
 
 EMI11.4
 (poe, 80 "C) 5 Eexana 5 576 25.8 to L2.1
 EMI11.5
 
<tb> (p. <SEP> e. <SEP> 69 C)
<tb>
<tb> 6 <SEP> pentane <SEP> 2 <SEP> 704 <SEP> 53.7 <SEP> 13.1
<tb>
 
 EMI11.6
 (e.g. 35 * e)
 EMI11.7
 
<tb> 7 <SEP> Pentane <SEP> 1 <SEP> 921 <SEP> 101.0 <SEP> 9.6
<tb> thane <SEP> 1.25 <SEP> 605 <SEP> 32.2 <SEP> 10.0
<tb>
 
 EMI11.8
 (p, e. 4D'C) 9 Freon-Il 2 682 46 j 8 10.1 (tricnlorcmonofluo- x'oethBne)
 EMI11.9
 
<tb> (e.g. <SEP> 24 C)
<tb>
<tb>
<tb> under <SEP> pressure <SEP> light
<tb>
<tb>
<tb> rement <SEP> superatmos-
<tb>
<tb>
<tb> spherical
<tb>
 
 EMI11.10
 200 grams of roasted and shredded tvbac ribs were treated with 250 µl of pentane and the equation was carried out by hanging overnight in a closed container.

   The treated tobacco was then exposed
 EMI11.11
 t6 to ICOOC steam for nae minute and air dried. The moisture content of the resulting tobacco was 13.5% and its stuffing capacity was 921 ml. A control sample which had not been treated with pentane had a moisture content of 14.0% and a stuffing capacity of 466 ml. Thus, the packing capacity, due to the pentane treatment followed by steam treatment, had increased by approximately 98.6%.



   Example 11
The experiment of Example 10 was repeated except that ethyl ether was used as the organic liquid. The moisture content of the final ta- ac was 14.0% and its stuffing capacity was 563 ml.

 <Desc / Clms Page number 12>

 
 EMI12.1
 co which roprdsonte a progr1.J of to pou prea 21% on the witness. z We repeated the previous do 10 in ti? ia dao <:: 31 :: 103 do; 1C Burloy <! 6cbiquoeB with pcntD.î13 CQ! r: il ':) liquida o - ,: gc. "' li. ..



  5 qu .. The final product nwnit a .tcr..cur on hw; id / -t6 da 12.5; 4 ot uno. do jam do. ml. The '^ which had p33 Cît6 SOU. ";! iB au' treatment au ax: zr await uno t cn htH; oidit6 da 13415 ct uria cp: lcit6 7.:>ow:r.:?lga d: 1 743 al. Thus,. RL.ii treated with pentane and pK6cnt.ait steam with e.:3. A proù-r2ta b do c '<:: l1' :: cit6 doe stuffing at: eu pr3 39.4%.



  : Go.R: 2! 1; 3.



  We repeated 10 procedures in the BJm :: .., 10 12 on 'ln :: il1.o; nt d: 3j c = l2oJ in t2Jh: ..- :. c JSurley and do l "H: 11: J> 1 6 \: hor Cc '.; C;,;.; Liq:> 1ido {i;: - 9 <, miqt :. The final contento on hUliÛ.ait6 was 13, 15 "J't la Cp ::: 1 <'"cît5 {a 6tait do e21 r.1, co) qui J :: cpGcQntc,. Dc 10, Si' aur le te-wîn. Lla 14 C.1 a i3 in 6, -Iuillbt -c a 6chG11on do 2 & 633 9 o: ai30 da tJ torr6ì6 with 48500 '! E:' ... '? pnttift ùa 0iicE 13: aR ::: 4.

   On - oru: n.1i.to C> â; o6 to In la 'ï., "'; .P0: ': t: l i'1 l \'} f) C do, t! Tot'J fourncs (lCO gj!; ", :::. 0C or r.:;:ialisinl) du t: lk; '2' ;; :: 3.it4 {t1 î.; 31. '" d2n3 a .-. ";.: é." 'c¯rlllae, 4, G :: î'3 il 6' CCC ';; ::: 1 ::! 0: I; i "se. as loo a,;': jCi : ;; '::: 3 2'. 1. 'D.ir on ad, schiq:'.:!.;) T1 de la. :: m3. (JgQ cO ",, ç '. :) t! ::: 1'5121! C sW., .L'Çm netA zig. Ypx ¯wu, .F .-> ra lea! Lèo oS10D obtGuc and 43..1L. "Â uilicj 3o ùa, 3 = r: c à7n #> 1- quc-r :: JtJ ron we prop: u: 6 dGD ig'2.3'i; o;}) Gi..2 ;; dE: 'J û':.: ': J 18nia untreatedéc3g and lei- c2ract6islq2G h75i; û ciga.- - rcttr:;:. J f <: lite! 3 avoa 1s tahac3 t.or: -: f: 16G OJ ;; PEl} [:. 1: J ç; nc), ±} (; '- rnit; Da are CC3r6C3 d3n 10 Tabloau IX CUiV4t .:
 EMI12.2
 TABL1 :: l.U IX ml '. 2 D: .. f .- ,,; - '"1.:!} ::' \ 0", -:.? :: 1! zani rcMa cn 9 1.036 # 769 w.F.-d :: a to "cW s :: cm 5.33 5.74 Riq5.dit;

   ! 1'U 1/10 ïm'fi S, C3 9, 58.: 3: '; âa at t: t.i2 2533 2527 ztt,: "2aâ' '8 sa% 12.08 12SO
 EMI12.3
 . ::: nJtats' based: ..; on \ ma r.oy@Ji7tna from 50 ds ;; :: etto3 (70 r;: 1) 2cig ('ixattes intrepo # ét3 to 63; il hu <d.ç1it a' '.. .12é' f .; 4 .'1't .. "" :. '". Xa' '', 31: 3 Z Water was sprayed with 8W: ..5 {}: O g da curg> i.! MGt3 for cigarettes; àlangécs noumales, contQnt 1211% d = hidltâ

 <Desc / Clms Page number 13>

 
 EMI13.1
 (14.5 parts of water to 100 parts of tobacco), and p :::: n: .b., T11: une 1'eura was allowed to swell. Oa immersed the ta1: k'1C 1 "! T,." 1 <lido in Freon-1.llt liquid using a total of 8 lit'ea of the lioniola 13E parts of sr6an-M9 for lt. parts of taLas).

   We have e & 1f <SZ'm6 the t.7 - no # 'aB3. a pressure cns.3 & nto which it heated6 by 75 1i'i1L "'lu'i: .c by water at 56 ci the internal pressure was 2.1 1 * g / ca at 1'ütlno- 'Cltr'3, L \ In fia da la pilricde do; ei-a. Os a rCÍ "1: o1.di enc-Jànte by water lA 10' * C pcnc1;, 'uît 15 min # itsa, and we have purged from enclosure 2.60 if <Sa rx'êon-îE? liquida in oeices, leaving U3.3 im: 7é9U: 1tion nsH: -3 Ci 201 pzetic -., 3 ëo ': ôt'3 û L' E-7 ,,: =, 100 parts of t.! 21, .2.c. We then denied the tal-71c, dan3 a? eolc-ïma e ... 1, one sonnet intina Z'i3 '' t zlsj3.go <3? gas e1Ílua.: J, .r "'. ïs" s: CûE' ^ c '6s 1 fair, do la V .. "', c4 C ': -1 tcu. ai; du F ;;: ûm1.- li1? ìè1ZQt.ü :, à ts-3 t. # mp-at.te d lqat: t'6e da gaz da 16 S "'3 ct 5 # mùJàiz m'1 <î; c,;! J do ecntaet d '<? a''yiE'oa 2 B'.:> CQn1.0'J :: 3 ..

   We have r6 :: ju: -, \ '; (3 la tnb2c,? 5s Gn ceataet awoec leo gas c; 1m'!. D .. Ü the help of a; * Vul ",;. 1; d .ca5.on a s02.U, and that left it ': 11o': flGr posdaat unw ax; S #! l # let it rest 'ëoss uns pregnant elosa il3! t une 3Ii'. '' ... 6 (! Uili'i!: O :::: V! '; É.: ;; oJ.H..t5) ..
 EMI13.2
 they Capacity ea bor - e- tiori dtùttrnidit9 gc ml / 100 g cflo the eocit '<3e ¯¯¯¯¯¯¯¯ ¯¯¯¯ ¯¯¯ ..,.,. ¯. ? srra ': 7a iPéin 12.7 422 Pr <:: ai ":" a.té 12, .l 596 41
 EMI13.3
 Cî # = 2 ±; we c-mT? o 3.3 z ± t? 1e3fie <2 1, 'Zi:; i; àple 1 5 r; f; 11 :: Î, oi I? *' ''. 5 '* "*' 3. <3s 1 6 to 25 j ot len, réCt! .1. '\; D c'3? Y &, "r% yj -, - tQQ Ct9 11'3 ses.

 <Desc / Clms Page number 14>

 
 EMI14.1
 
<tb>



  TABLE <SEP> III
<tb> Exem-
<tb>
<tb> ple <SEP> 16 <SEP> 17 <SEP> the <SEP> 19 <SEP> 20 <SEP> 21 <SEP> 22 <SEP> 23 <SEP> 24 <SEP> 25
<tb>
 
 EMI14.2
 ai ai a2 a3 a4 a 'ai ai a2 a2
 EMI14.3
 
<tb> b <SEP> 4500 <SEP> 4500 <SEP> 5700 <SEP> 3920 <SEP> 5700 <SEP> 5700 <SEP> 5700 <SEP> 5700 <SEP> 5700 <SEP> 5700
<tb>
 
 EMI14.4
 c 12.7 12.1 11.3 11.6 11.6 10.75 3.35 18.1 17.3 17.4 d 450 225 570 392 570 e pen- pen- lu pen- lh - - - - -
 EMI14.5
 
<tb> dant <SEP> dant <SEP> dant
<tb>
<tb>
<tb> a <SEP> a <SEP> a
<tb>
<tb>
<tb> night <SEP> night <SEP> night
<tb>
<tb>
<tb>
<tb>
<tb>
<tb> 26 <SEP> 19.3 <SEP> 24 <SEP> 24.4 <SEP> 24,

  4
<tb>
<tb>
<tb>
<tb>
<tb> g <SEP> 8 <SEP> 8 <SEP> 12 <SEP> 7 <SEP> 11 <SEP> 10 <SEP> 8 <SEP> 8 <SEP> 10 <SEP> 6
<tb>
<tb>
<tb>
<tb>
<tb> h <SEP> 300 <SEP> 298 <SEP> 350 <SEP> 322 <SEP> 318 <SEP> 225 <SEP> 313
<tb>
<tb>
<tb>
<tb>
<tb>
<tb> i <SEP> 90 <SEP> 90 <SEP> 90 <SEP> 90 <SEP> 90 <SEP> 45 <SEP> 60 <SEP> 60 <SEP> 60 <SEP> 60
<tb>
<tb>
<tb>
<tb>
<tb>
<tb> j <SEP> 56 <SEP> 56 <SEP> 57 <SEP> 53 <SEP> 53 <SEP> 65 <SEP> 65 <SEP> 66 <SEP> 64 <SEP> 63
<tb>
 
 EMI14.6
 k 2.17 2.17 2.17 1.82 1.09 2, GO 2.73 2.73 2.80 2,

  31 1 there 10 10 10 10 10 read 10 10 read
 EMI14.7
 
<tb> m <SEP> 20 <SEP> 40 <SEP> 12 <SEP> 20 <SEP> 12 <SEP> 20 <SEP> 8 <SEP> 11 <SEP> 16 <SEP> 10
<tb>
<tb> n <SEP> 3150 <SEP> 4200 <SEP> 3100 <SEP> 2700 <SEP> 4500 <SEP> 4950 <SEP> 4300 <SEP> 2400 <SEP> 4000 <SEP> 2000
<tb>
<tb> o <SEP> 182 <SEP> 142 <SEP> 259 <SEP> 190 <SEP> 161 <SEP> 118 <SEP> 188
<tb>
<tb> p <SEP> 165 <SEP> 172 <SEP> 173 <SEP> 163 <SEP> 170 <SEP> 175 <SEP> 175 <SEP> 175 <SEP> 173 <SEP> 173.5
<tb>
 
 EMI14.8
 q l 0.75 0.7 0.7 0.7 0.7 0.7 0.7 0.65 0.65
 EMI14.9
 
<tb> r <SEP> 20 <SEP> 17 <SEP> 7 <SEP> 13 <SEP> 16 <SEP> 13 <SEP> 12.25 <SEP> 12.75 <SEP> 9.75
<tb>
 
 EMI14.10
 12.7 12.1 11.3 11.6 11.6? -2.7 12.1- 12.1 11.3 11.3 t 422 430 .63 427 415 '122 430 430 4g3 463 a 12.2 11,:;

   1I., 6 12.1 12.0 12.5 12111 1200 12.0 12.0
 EMI14.11
 
<tb> v <SEP> 595 <SEP> 612 <SEP> 731 <SEP> 496 <SEP> 567 <SEP> 613 <SEP> 628 <SEP> 620 <SEP> 725 <SEP> 720
<tb> 41 <SEP> 42 <SEP> 58 <SEP> 16 <SEP> 37 <SEP> 43 <SEP> 46 <SEP> 44 <SEP> 57 <SEP> 56
<tb>
<tb>
<tb>: <SEP> Type <SEP> of <SEP> tobacco <SEP> used
<tb>
 
 EMI14.12
  '- OE> z- # ge nch1e psoe bookmark-bas màlangà? I noram; ies i C'ha? Ga h la & e <: credited 3 - OEIJ # rge. ,, - "1 Chxgs hashée Bley l4 Ch ele T1 .: .-zqu.ie c "c.nti :: <s de '? 3.3 en gracia Fomr <n> znt * ye p3-3ërsl à'iii # mitià; t 5il1ilitss deeu plSrisêa T6i:

  Ty, "J d'3 gosfier'eat at the eaa
 EMI14.13
 
<tb> Parts <SEP> in <SEP> weight <SEP> of water <SEP> for <SEP> 100 <SEP> parts <SEP> of <SEP> in <SEP> on
<tb>
 
 EMI14.14
 ctlaat to J> 'eôtia

 <Desc / Clms Page number 15>

 g Liters of liquid Freon-MF, including that purged from a previous pass h Parts by weight of Freon-MF per 100 parts of tobacco i Heating time of the pressure chamber, in minutes 5 d Temperature in C of l 'water used to heat the pressure chamber k Internal pressure of the chamber in kg / cm2, at the manometer
Enclosure cooling water temperature in C m Enclosure cooling time in minutes)

  n Milliliters of Freon-14? excess liquid purged from the enclosure o Net impregnation of parts by weight of Freon-MF for
100. tobacco parts p Gas inlet temperature in C for air, water vapor, and gas
Contact time in seconds r Duration in minutes of regular tobacco loading s - Percentage by weight of moisture in the witness t Stuffing capacity of the witness in m1 / 100 gu - Percentage by weight of moisture in the product treated according to Example v Stuffing capacity of the treated product in m1 / 100 g
 EMI15.1
 w perc $ ntügo volume of increase in the stuffing capacity of the treated product
Example 26 5.700 g of load ha- were placed in a pressure chamber.
 EMI15.2
 roasted cheese *, containing 17.6% moisture,

   and 8 liters of liquid Freon-KB 'were poured onto the tobacco, including that purged from a previous pass, and 2,000 ml of excess liquid Freon-1-IF were purged from the enclosure. The enclosure was then closed and heated.
 EMI15.3
 for a few hours use water at 66 ° C; the internal pressure was 2.17 ', t: ecrl2, au at the end of the heating period.



  We then cooled with ± 'water Si 10' * 'C for 6 En, and we remove: irg ± from the enclosure a further 1,200 ml of Frêon-1-E' liquid in 0 - ia then: put the tgmac ; by passing it through use co- ior-i = e <; erj, = a7 =, in contact with a due gas. hot circulating copiprenan2 of air, water vapor and Freon-! 1P gazemc , at a te; 1râ :: m: ad enb: gas of 1700th and during a contact time of tobacco with hot cases of about 0.65 seconds. Tobacco loading was steady over a 10 minute period. We readjusted the batac, after its contact with the gas

 <Desc / Clms Page number 16>

 
 EMI16.1
 .. :: ha.:1s it using a water spray, and one]. will let it swell
 EMI16.2
 overnight.
 EMI16.3
 



  Capacity of --- â c; # 'rage, m1.! LOO g rùe la eag: acibà da ¯¯¯¯¯¯¯¯' 'jam -'! '!'! 1; :) in 11.3 463 r: = treated product 12.3 104 52
 EMI16.4
 27 We placed in a pressure chamber 5.700 g, 5 ± shaz-ge ha.ï & 3 b: .. refi6e, and we have. worms on tobacco 28 liixes of a r.::1la.nga: a'.¯., d rw ëe 3 parts da FZ60n - :, SF and a t3; .t ... '. d3isCF ::? Qln en '. "::;, 2 :: ;; i .. We then fe 5 1'ens'ainie and we 13 (1 c11auf2.aé.' C; ';; :: 8, llt lU ::. 2 Y: 3K'e avic water iaude <60-m; the pressure in # ;: ù3 -3'ë was da. 1.2 kgJ.; :: l, at 7J.lbO : LlGL! ". E, at the end of p5 # icit.3 Ce e;: -: 'l1i:, ui; fE: ge $ <ì relieved the pressure by purging .9ââ' .." do to. ¯â..a.ô: .Yn l..1 Vo: o -...



  . ;;; j :: 3nt thus an abrupt relaxation of vap3t! s "? in a, S." G ':: ë (? i.1li 32 ...; A.2-s: = ,. ": : r of the liquid. We ensoro tâé33G sS'f; m'é: f-. awie '5a 1.'eau d- ::. iâ: i.2 "kx .-- t and we have:? 1.1rgé c1 $ the ensaints p ß '. $' v '"9w supp? eg =: n2> iré = c de ..:.": jL, .- irU ".W in C: YC @ 3 .. We have sr'4aw0'vR.sw .. nia 3.e Rutw3.d .. 'a.yr treated in Goatact inti- h :::; aa: ß.e'- ..' i11 mixture of hot gases in ci. rcu! .ti! Oi1.7 :: cQ:; 1pJ: Gtl3 ';; de ee water vapor, v - ap-3ur PlcQP: o: oJ.: 2: mol ...'. 3t had 1Jz-éo: i!; - 1 ± T;, iâ.: ", S - '.' T, .s' We readjusted the '' '.'" After con, 'a2 .;'. "o ,, 1. <,] ':' :(; Cd3 gas. using tina pulvjrization dle-ati, and the zr laiscê inflate panëajit time night.
 EMI16.5
 



  , capacity tl Bour-% d 'a1lg: -; :: 1: n - ;; t: .on humidity rage, ml / 100 g é <z la cc.p: 2citâ du - T30trra'? a Téreoln - : 3 û7 Troduct treated 12, t3 (including these 654 59
 EMI16.6
 took alcohol)
 EMI16.7
 The Frêos-1'S? 'used in the Esssplas; V: v is from tci- e-.s: aâ.z: a. having a point d 1 Gbul1.i tion of enviroa 2? vs.



  The pEO'sêdâ of the previous liriention can be applied to roasted tac son forvra da leaves (including nGrvut'e9 ta: ± 3 da lanièras (feuillGa éc8t6c) or load 118C1166 (laniôs-Gs dµàlqçe- têea for the manufacture of cigarettes). By using foils or strips, one can choose the types or qualities of tobacco for which the process is most effective to obtain. results close to ma: dm \ 14 "t \ while rnaintcnû.'I14't las frl1i3 processing to a minimum.

   When the trait ae3 c6 & oa not gss

 <Desc / Clms Page number 17>

 If necessary, the strips are preferred to the leaves, and in all these the ribs can be treated separately. If the entire mixture is to be treated, then a chopped load is preferably used.



   The advantages of the invention are readily apparent from the above. By the method of this invention, the tamping capacity of tobacco can be significantly increased, which is an economic advantage. The vaporization and removal of the organic liquid from the impregnated tobacco at high temperature and in a short time enables the advantages of the invention to be obtained using minimum size equipment and high production rates.



   Amendments and equivalences which relate to the spirit of the invention and to the scope of the annular claims, should be regarded as forming part of the invention.

 

Claims (1)

EMI18.1 08 & I. 0 $ 1 '-9. ; â.t ".. n: 1-'É r #i A prssadë to increase the capacity G3 ..". ',? "." . '".ar' '.6. du' r '.." Vp 1 L: o.T¯sï'i3CÎ the ease in sastact to -tobacco with a sufficient quantity of a liq; 3lde: i # ëE volatile pcor iprgli9r cospletemsnt a t3.1? sea 'then the passage of den'a ga - a in contact u'T, 9c led.:i3: â:,:,. g Issit gas being J? O "-" # at a teapi: a2ure 5 \ 1periaD..1: e Pau ïnoiBS 17 c Eu:; OL1t of boiling said liquid at the contact pressure so that said tobacco is expanded and that said liquid is separated from it in the vapor state. EMI18.2 2. The pneeeê of the 'C.' '' Bat: E..c ': .03 1 "in which said gas is the 1," s of water. 3. The â :. '? da la 'é ..' '. w'? 3 in or 2, in which the liquid is Ul1 lyfu'0ca.rb1.1Ie 07.1 ua llY # C :: ;;: Ibï: '.- re i3 ..: 5. 4. Lo presses of the rs' / endica'ion Ij 2 or 3j in which the tobacco is Loe p: c5âé GS3 K'evendica'cioîts previous 1 $ 2j 3 os 4 ,, in- leq21 said gas is ca 1a teupssature ccaprise approximately are 1? 1 c and 2ce, 4 * "C. 6. The process of w e ',. Lg prêedenbBs 1. 2 3. 4 cm 5g d! 1Js vk j.3 la t3. & As ixaprégnf e # t iris en g''s "ôc.s: B dsins tuas colol1E1e ve: .2ical, e, EV'3f .: the gas which circu.1e from bottom to top: .. 7. The a poclà1 of the preceding claims 1, 2q 3g 4., 5 or 6 in the ::.: I, -1.o1: The hand gas entrains the tobacco in a sepBS'ate # r where. tobacco exp2a '.: ë is se-ru-.5 da the v5peur of the volatile organic liquid. 8. The p-cca & e5 preceding claims 1, 2, 3, 4g 5, 6 or 7, in which the organic liquida vol2.til is G; lp! Ée in which 3'dté represented between about 25 parts and 350 parts for 100 pieces of tobacco (dry pastry). 9. The process of claim 8, wherein the amount of volatile organic liquid is between about 40 parts and @ EMI18.3 250 parts for here parts of tobacco (weighed at its). LO. The process of the preceding claims 1, 2, 3, 4, 5, 6, 7, 3 or 9, wherein the volatile organic liquid is trichloro- EMI18.4 I1Ononuorthane. LI. The process of claims 1, 2, 3, 4, 5, 6, 7, bzz or bzz, wherein the volatile organic liquid separated from the expanded tobacco is recovered. L2. The method of the preceding claims 1, 2, 3, 4, 5, 6, 7, EMI18.5 3. 9, 10 or Il. in which the impregnation with the organicrae rolatil liquid is carried out at an elevated temperature below 76 C <Desc / Clms Page number 19> 13. The process of claims 5, 6, 7, 8, 9, 10, 11 or 12, wherein contact of the impregnated tobacco with the hot gases causes said expansion of the tobacco in a little less than about 4 seconds. 14. The process of claims 5, 6, 7, 9, 10, 11, 12 or 13, wherein the moisture content of the tobacco: is maintained prior to impregnation in the range of 10 to 100 parts by weight of. water afraid 100 parts of tobacco (dry weighed). 15. The process of claim 14, wherein the moisture content of the tobacco is maintained prior to impregnation in the range of 13 to 30 parts by weight of water per 100 parts of tobacco (dry weighed). 15. The method of claims 5, 6, 7, 8, 9,! 0, 11, 12, 13, 14 or 15, in which the recovered expanded tobacco is steam treated to remove residual organic liquid therefrom, and the moisture content of the tobacco thus treated is then adjusted to a level suitable for the manufacture of cigarettes. . 17. The process of claims 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 or 15, wherein the gas sent into contact with the impregnated tobacco is brought to a temperature above at: at least 110 C approximately at the boiling point of said liquid at contact pressure but below 204 C. 13. A method of increasing tobacco stuffing capacity, as substantially described herein.