Vismut (tog'-kon kompaniyasi) - Wismut (mining company)

Vismutning Saksoniya va Turingiyadagi joylari

SAG / SDAG Wismut edi a uran Sharqdagi tog'-kon kompaniyasi Germaniya davrida sovuq urush. U 1947-1990 yillarda jami 230,400 tonna uran ishlab chiqardi va Sharqiy Germaniyani o'sha paytda dunyodagi to'rtinchi yirik uran rudasi ishlab chiqaruvchisi qildi. U uran rudalarini ishlab chiqarishni boshqarishning barcha sohalarida eng yirik yagona bo'lgan SSSR. 1991 yilda Germaniya birlashgandan so'ng u Germaniya Federatsiyasiga qarashli bo'lgan Wismut GmbH kompaniyasiga aylantirildi, endi u sobiq konchilik va frezalashtirilgan maydonlarni qayta tiklash va atrof-muhitni tozalash uchun javobgardir. SDAG Wismut / Wismut GmbH kompaniyasining bosh ofisi joylashgan Chemnitz -Sigmar.

Tarix

Wismut GmbH kompaniyasining Chemnitz-Siegmar shahridagi bosh ofisi

The Ruda tog'lari (Nemis: Erzgebirge; Chex: Krusne xori) Janubiy Sharqiy Germaniyada Chexiya bilan chegarada uranni ekspluatatsiya qilish tarixi bilan chambarchas bog'liq. Metall tog 'tizmasidagi kumush konidan olingan namunada topilgan va uran dastlab qo'shimcha mahsulot sifatida 19-asrning boshlarida, keyinchalik 1890-yillardan boshlab asosiy mahsulot sifatida ishlab chiqarilgan. Kimyogarlar Mari va Per Kyuri elementlarini kashf etdi Radiy va Poloniy yilda pitchblende ushbu tog'larda Chexiya uran konidan chiqindilar. Radioaktiv suvlar bir nechta shaharlarda ishlatilgan sog'liqni davolash.^[1]

Erzgebirge, Tyuringen va Saksen janubi-sharqiy provinsiyalaridagi uran konlari bir qator joylar bo'lgan. NKVD majburiy mehnatga jalb qilingan konchilik lagerlari. Wismut AG - uran konlarini boshqaradigan Sovet kompaniyasi. Stalin ushbu tog'-kon loyihasiga AQSh bilan yadro quroli ishlab chiqarishga bo'lgan raqobatida katta ahamiyat berdi.^[2] 1946 yil 4-aprel kuni Sovet Ittifoqi Vazirlar Kengashi uran qazib chiqarishni NKVD nazorati ostiga olishga qaror qildi. Uranni muntazam ravishda qazib olish 1946 yilning yozida boshlangan. Lavrentii Beriya, Sovet ichki ishlar vaziri, Sovet atom bombasi loyihasi uchun bevosita mas'ul bo'lgan NKVD boshlig'i, NKVD general-mayor Mixail M. Maltsevni faxriy qo'mondon etib tayinladi. GULAG ushbu korxonaga rahbarlik qilish uchun SSSRdagi mehnat lagerlari va eng yuqori sovet nishonlarini olganlar. U Sovet okkupatsiya zonasidagi NKVD / MVD boshlig'i va Beriyaning o'rinbosari general-polkovnik Ivan Serovning bevosita qo'mondonligida edi.

Maltsev GULAG intizomini Vismut operatsiyasining dastlabki kunlarida, masalan, o'z kvotalarini bajarmagan konchilarning oziq-ovqat ratsionini olib qo'yish yoki taxmin qilingan sabotajda ayblangan ishchilar uchun harbiy tribunallardan foydalanish kabi usullarni qo'llagan. Ammo GULAGning Sibirdagi majburiy mehnat lagerlaridan farqli o'laroq, Sharqiy Germaniyaning juda zich joylashgan Erzgebirge hududida ish haqi buzilishini yashirish qiyin edi. Biroq, maxfiylik va xavfsizlikni saqlash uchun 1947 yil boshida konchilik tumanlari yopiq harbiy zonalarga aylanib, hatto Sharqiy Germaniya hukumat partiyasi SEDni ham u erda faoliyat yuritishni taqiqladi. Vismut, NKVD siyosiy nazorati ostida bo'lganligi sababli, kompaniya va uning nemis ishchilari o'rtasidagi barcha muhim masalalarni hal qildi. Boshqa tomondan, Vismutdagi Sovet harbiy xizmatchilari Serov bilan tez-tez to'qnashib turadigan Davlat Xavfsizlik vazirligi, vazir Viktor Abakumov huzurida edilar.^[3]

NKVD Vismut konlarida qattiq xavfsizlik tizimini saqlab qoldi. NKVD / MVD qo'shinlari nafaqat minalarni, balki butun Vismut zonasini ham qo'riqlashdi. u erda 15000 tagacha qo'shin bor. Ushbu qo'shinlar Vismutning NKVD harbiy rahbari qo'mondonligida edi. Uran qazib olinadigan tumanlarda qo'shimcha qurolli harbiy qismlar joylashgan edi. Ushbu zonaga yaqinlashishda harbiy va NKVD nazorat punktlari mavjud edi. Minalar yog'och panjaralar va soat minoralari bilan o'ralgan va ularga kirish faqat qo'riqlanadigan darvoza orqali amalga oshirilgan. O'n to'rtta Vismut konida tuman yoki shahar darajalarida NKVD postlari mavjud edi. Mayk Malygin qo'mondonlik qilgan maxsus NKVD guruhi Vismutning barcha chuqur va o'simliklarida o'z ishida juda muhim edi. Uning oldida barcha josuslik va chalg'itish ishlarini tekshirish vazifasi bo'lgan va to'g'ridan-to'g'ri general Serovga xabar bergan.^[4]

Uran sanoati urushdan keyingi dastlabki yillarda juda tez sur'atlar bilan o'sib, 1950 yilning kuzida 200 mingdan ortiq ishchi bilan eng yuqori ishchilar soniga erishdi. Wismut AG Sovet ishg'ol zonasidagi eng yirik korxonaga aylandi. Majburiy mehnatning dastlabki dasturi, oxir-oqibat, ish haqining oshishi va ish va yashash sharoitlarining yaxshilanishiga javoban ko'ngilli mehnat bilan almashtirildi. Vismut sog'liqni saqlash yozuvlarida kamida 20 ming konchi "nurlanish va chang ta'sirida" o'pka kasalligidan vafot etgani yoki azob chekkanligi ko'rsatilgan.^[5]

1953 yil oxirida kompaniya tugatildi va Sovet-Sharqiy Germaniya Vismut (SDAG Wismut) aktsiyadorlik kompaniyasi yangi tashkil topdi. Sovet Ittifoqi va Germaniya Demokratik Respublikasi har birining egasi 50%. Keyingi yillarda ishchi va texnologik standartlar sezilarli darajada yaxshilandi. Uranni qidirish va qazib olish Ikkinchi Jahon Urushidan keyingi dastlabki yillarda Ruda tog'lari va unga qo'shni Vogtland tog'larining eski konchilik maydonlarida to'plangan. Ko'plab uran hodisalari u erda uzoq vaqtdan beri ma'lum bo'lgan va ularga eskisi yordamida kirish mumkin edi adits va oldingi asrlarda kumush va asosiy metall qazib olishdan qazilgan vallar. 1950 yilda Ronneburgning yirik ruda koni va o'rta o'lchamdagi Kulmitzsh kontsidi (ikkalasi ham Sharqiy Tyuringiyada) va 1965 yilda Königshteyn koni Elbe qumtosh tog'lari. Vismut kompaniyasi tomonidan uran ishlab chiqarishning eng yuqori cho'qqisi 1960-yillarning o'rtalaridan 1970-yillarning boshlariga kelib, yiliga qariyb 7000 tonna uranni tashkil etdi, undan so'ng u so'nggi 1989 ishlab chiqarish yilida 3500 tonnagacha kamaydi.^[6]

Sharqiy Germaniyadagi siyosiy va iqtisodiy o'zgarishlar va keyinchalik Germaniyaning birlashishi 1990 yil dekabrida uran qazib chiqarishni to'xtatishga olib keldi. Germaniya Federativ Respublikasi kompaniyaning Sharqiy Germaniya va Sovet aktsiyalariga egalik qilishni o'z zimmasiga oldi va 1991 yilda kompaniyani Wismut GmbH ga aylantirdi. Ushbu yangi kompaniya hukumat umumiy byudjeti taxminan 6,4 milliard evroni ma'qullagan sobiq kon qazib olish va frezalash joylarini tiklash uchun javobgardir, ammo undan yuqori xarajatlar kutilmoqda.^[7] Ushbu faoliyat er osti bo'shliqlarini mustahkamlash / to'ldirish, chiqindilarni qoplash va chiqindilar, davolash meniki suv kon va binolarni frezalash joylarida olib tashlash / zararsizlantirish. 2011 yilda tiklash dasturi 2022 yilgacha uzaytirildi.

Konchilik

Ruda tog'lari va Vogtland

Ruda tog'lari (nemischa: Erzgebirge) va Vogtland uranni qidirish bo'yicha birinchi maqsad bo'lgan va Vismut tomonidan qazib olingan eng ko'p konlarni egallagan. Ushbu tog 'tizmalaridagi barcha konlar paleozoyning metasimentatsion va magmatik tog' jinslari va variskan yoshidagi granitlardagi gidrotermik tomir uslubidagi mineralizatsiyadir. Depozitlarning aksariyati mintaqada joylashgan g'arbiy ruda tog'lari va qo'shni Vogtland viloyati, holbuki markaziy va Sharqiy Ruda tog'lari faqat bir nechta kichik konlarni o'z ichiga oladi.

Konlar chuqur qobiq shimoli-g'arq yo'naltirilgan yoriqlar tuzilmalari bilan bog'liq bo'lib, eng muhimi Gera-Jachymov yoriq zonasi bo'lib, u tarkibida Chexiyadagi ma'dan tog'lari, Johanngeorgenstadt, Pöhla-Tellerhäuser, Schneeberg- kabi yirik konlarning ko'pi joylashgan. Ruda tog'larining Germaniya qismida joylashgan Shlema-Alberoda va Tyuringiyada Ronneburg qora slanets tipidagi mineralizatsiya. Mineralizatsiyaning kattaligi bir necha yuz kilogramm uran tarkibidagi juda kichik konlardan va bir nechta mineralizatsiyalangan tomirlardan tortib, Shnberg-Shlema-Alberodaning ulkan konigacha 100 ming tonna uran va 2000 ga yaqin mineralizatsiya tomirlarini o'z ichiga oladi. Uranni olib yuradigan uchta asosiy tomir turi mavjud: uran-kvarts-kaltsit tomirlari (270 million yil), dolomit-uran tomirlari (trias yoshi) va BiCoNi -Ag-U tomirlari (Uchinchi yosh). Faqat birinchi turi birlamchi minerallashuvdir, ikkinchisi esa eski tomir turlaridan remobilizatsiya qilingan pitchblendni olib yuradi. BiCoNi-Ag-U mineralizatsiyasi tarkibida kumush, vismut, kobalt va nikel bo'lganligi uchun XV asrdan boshlab qazib olinmoqda. Ushbu tomirlarda tez-tez uchraydigan og'ir qora mineral ilgari konchilar uchun foydasiz bo'lib, rangiga ko'ra "Pechblende" (pitchblende) deb nomlangan. Ushbu so'z hali ham barcha tomir turlarida eng muhim uran mineral ruda uchun ishlatiladi, ammo tobut konlar ham paydo bo'ladi. Konlarning oksidlanish zonalarida ikkilamchi uran minerallarining keng assortimenti mavjud. Tomirlarda uran minerallarining tarqalishi uranning eng yuqori kontsentratsiyasi bilan ular kamaytiruvchi xostni kesib o'tadigan joylarda sezilarli darajada farq qiladi litologiyalar uglerodga boy schist va skarn. Tomirlarning kengligi bir necha santimetrdan bir necha metrgacha, o'rtacha ruda darajasi 0,1% uranga teng. Katta pitchblende linzalari mahalliy miqyosda kengligi 1 m dan oshgan. Eng muhim konlar quyida tavsiflangan.

Schneeberg-Schlema-Alberoda (Ob'ektlar 02/03/09; konchilik bo'limi Aue)

Niderschlema-Alberoda konining sobiq asosiy o'qi bo'lgan Xartenshteyndagi (Ruda tog'lari) 371-val.

Niederschlema-Alberoda tomir tipidagi konidan uran rudasi (dolomitdagi pitchblende)

Bad Schlema-dagi Roter Kamm xatosi: Gematit-kvarts minerallashgan yorig'i Shnberg va Shlema-Alberoda konlari orasidagi geologik chegaradir.

Ushbu ma'dan koni Ruda tog'laridagi eng yirik kon edi. U janubdan 20 km uzoqlikda joylashgan Tsvikau ichida g'arbiy ruda tog'lari. Shnberg XV asrdan beri kumush, kobalt, nikel va vismut ishlab chiqaradigan muhim konchilik markazi va Oberschlema 20-asr boshlarida tabiiy ravishda paydo bo'lgan eng kuchli radioaktiv suvlari bilan mashhur edi. 1914 yilda shaharda radium sog'liqni saqlash markazi tashkil etilgan.

Ikkinchi Jahon Urushidan so'ng, sovet olimlari uran qazib olinadigan eski maydonlarni o'rganishni boshladilar va 1947 yilda SAG Wismut tashkil etilishidan oldin ham 1946 yilda qazib olish ishlari boshlandi. Shneeberg konning janubiy uchida Ob'ekt 03 va Oberschlema Ob'ektiga aylandi. Keyinchalik ko'rlar (hech qanday minerallashuv yuzaga chiqmaydi) ruda konining shimoliy qismi (Niederschlema-Alberoda) topildi va 1949 yilda u erda qazib olish ishlari boshlandi. 09-ob'ekt ma'dan konining Niederschlema-Alberoda qismini qazib olish uchun tashkil etilgan.

Shnbergda qazib olish 1954 yilgacha davom etib, avvalgi kumush va kobalt qazib olishdagi ko'plab vallarni qayta ishlatgan. O'sha vaqtga qadar Shnbergdan 200 tonna uran olinardi. Oberschlema 700 m dan ortiq chuqurlikda qazib olindi. 1960 yilda 7000 tonnadan ortiq uran ishlab chiqarilgandan so'ng qazib olish to'xtatildi. Vena yuzasining yuqori zichligi va 1940-1950-yillarda qazib olishning "yovvoyi" usullari Oberschlemaning to'liq yo'q qilinishiga sabab bo'ldi. Aksariyat uylar shu qadar jiddiy zarar ko'rgan va er osti qatlami shu qadar beqaror ediki, butun shahar 50-yillarda olib tashlangan. Bugungi kunda sobiq konchilik hududida 1990-yillarda qayta tiklangan radon sog'liqni saqlash markazi mavjud. 1960-yillarda kompaniya qayta tuzilgandan so'ng, 09-ob'ekt Bergbaubetriebga aylandi Aue (Aue konchilik bo'limi). U SAG / SDAG Wismut tarkibidagi eng yirik uran ishlab chiqaruvchiga aylandi va 1965 yilda 4000 tonna uran ishlab chiqarishni eng yuqori darajasiga etkazdi. 1989 yilgi oxirgi normal ishlab chiqarish yilida u 550 tonnani ishlab chiqardi. Ushbu kon Vismut konlaridan birinchi bo'lib 1950-yillarning o'rtalarida yirik zamonaviy kon qazish vallari va kuchli shamollatish bilan ta'minlandi. Shaft 38 (Niederschlema), Shaft 366 (Aue-Alberoda) va Shaft 371 (Xartenshteyn) joylashgan eng muhim vallar. Ikkinchisi 1959 yilda ishlab chiqarishga kirgan va 1990 yilda qazib olish oxirigacha konning asosiy shaxtasi bo'lgan. 371-sonli shaxta turli xil ma'dan sinflarini ajratish va umumiy javhar darajasini oshirish uchun ishlatiladigan avtomatlashtirilgan saralash zavodiga ega edi. Yuqori navli ruda to'g'ridan-to'g'ri Sovet Ittifoqiga qo'shimcha ishlovsiz yuborildi, tarkibida 1% dan kam uran bo'lgan ruda Tsvikau yaqinidagi Krossendagi fabrikaga yuborildi. Bu 1980 yilgacha amalga oshirildi; keyinchalik barcha rudalar öğütüldü, qayta ishlash uchun Crossen'ye yuborilishidan oldin, saralash zavodi o'rtacha rudani 0,4% ga ko'tardi. Muvaffaqiyatsiz urinish, shuningdek, asosiy metallar, kumush va selen yon mahsulotlar sifatida. 371-val -540 va -990 m sathiga ulangan edi (chuqurlik Markus Semmler adit bilan konning yuqori qismini Tsvikauer-Mulde daryosiga suvsizlantirish bilan bog'liq). Keyinchalik chuqur sathlar ko'r vallar bilan bog'langan. 1988 yilda ochilgan eng chuqur sath -1800 m sathida, taxminan 2000 m er ostida bo'lib, kon Evropadagi eng chuqurga aylandi. Konlarni qazib olish usuli oldingi asrlarda bo'lgani kabi, zamonaviyroq jihozlangan bo'lsa ham: galereyalar minerallashgan tomirning pastki va yuqori sathida (vertikal masofa 30 dan 45 m gacha) urilgan. Bular pastki o'qdan yuqori darajagacha bo'lgan kichik vallar bilan bog'langan. Keyin tomir burg'ulash va portlatish yordamida yuqoriga qarab qazib olindi. Ruda quyi darajaga etkazilib, temir yo'l vagonlari yordamida asosiy vallarga olib kelindi, stop esa iloji boricha chiqindi jinslar bilan to'ldirildi. Tomir qazib olingandan so'ng, eski stantsiyalardan radon faol qazib olinadigan joylarga kirmasligi uchun kirish joylari muhrlangan. Ushbu usul Ruda tog'larining barcha tomir tipidagi konlarida ishlatilgan. Niederschlema-Alberodadan umumiy ishlab chiqarish 72 ming tonnadan ortiq uranni tashkil etdi. Schneeberg va Oberschlema ishlab chiqarishlari, ishlab chiqarishdagi yo'qotishlar va qazib olinmagan manbalar bilan birgalikda umumiy uran miqdori 96000 tonna uranni tashkil qildi va Shnbergberg-Shlema-Alberodani dunyodagi eng yirik tomir uslubidagi uran koniga aylantirdi.

Siyosiy o'zgarishlardan so'ng 1990 yilda ishlab chiqarish sustlashdi va oxir-oqibat 1990 yil 31 dekabrda to'xtadi. Pxla va uran konining yopilishi bilan birga qalay minalar Altenberg va Erenfridersdorf bu Ruda tog'larida metall qazib olishning 800 yillik tarixini tugatdi. Ishlab chiqarish tugagandan so'ng, yangi tashkil etilgan Wismut GmbH SDAG Vismut vorisi sifatida ushbu hududni tiklashni boshladi. Konni toshqini 1991 yilda boshlangan va 1997 yilda suv 371-o'qning eng yuqori darajasi sifatida -540 m darajaga etgan. Shu paytda kon xalq uchun Evropaning eng chuqur sayyohlik shaxtasi sifatida ochilgan. Oxirgi quvvati 1300 m bo'lgan suv tozalash inshooti barpo etildi³ soatiga, uran, radiy, mishyak va temirni Zvikauer-Mulde daryosiga qo'yishdan oldin ifloslangan kon suvidan chiqarib tashlaydi. Er osti ishlari, ayniqsa Oberschlema-da, yer usti galereyalari va o'qlarini qulashidan himoya qilish va mintaqaning aholi punktlariga nazoratsiz harakatlanishiga yo'l qo'ymaslik uchun radonli minalar havosi uchun xavfsiz havo yo'llarini ta'minlash uchun olib borilmoqda. Katta tosh chiqindixonalari boshqa joyga ko'chirilgan yoki qayta qurilgan va 80 sm loy va 20 sm ustki tuproq bilan qoplangan. 2008 yilda er osti ishlarining katta qismi tugatildi va deyarli barcha vallar muhrlandi. Ko'pgina axlatxonalar yomon tiklangan. 1400 m chuqurlikdagi 382-gachasi val ochiq qoladi (garchi u suv bosgan bo'lsa ham) va radonli havoning shaxtadan chiqishi uchun boshqariladigan yo'lni ta'minlaydi. Qayta tiklash dasturi natijasida hali ham uran yutib olinmoqda; uni uzoq muddatli shartnomalar bilan AQSh sotib olmoqda.

Ko'pgina depozitlar singari g'arbiy ruda tog'lari, Schneeberg-Schlema-Alberoda koni Gera-Jachymov yoriq zonasida joylashgan. Uzunligi bir necha yuz kilometr bo'lgan ushbu yirik geologik tuzilma Chexiya Respublikasining markaziy Bohem massividan Germaniyaning markaziy qismigacha bo'lgan NW-SE-ni uradi. Ruda tog'laridagi ushbu yoriq zonasining asosiy elementi yosh kvarts-gematit minerallashuviga ega bo'lgan Roter Kamm ("Qizil tizma") yorig'idir, ammo uran yo'q. Ushbu yoriq Shnberg va Oberschlema konlari orasidagi chegarani tashkil etadi, ularning vertikal siljishi 400 m ga teng. Depozitning ikkinchi nazorat elementi bu kon asosida yotgan Variskan granitlari. Minerallashgan tomirlar granitning ekzokontaktida, garchi eng qadimgi uran minerallashuvi ushbu granitlarga qaraganda 20 mln yoshroq bo'lsa. Uchinchi boshqaruvchi omil - bu Ordovikning siluriy meta-cho'kindi jinslarga qadar og'ir deformatsiyalangan birligi. Ushbu Loessnitz-Zwoenitz-Trow deb nomlangan yo'l sharqqa qarab kengayib, sharqdan g'arbga qarab harakatlanadi. Ushbu tosh birligi kvartsitlar, meta-qora slanetslar, amfibolitlar va skarnlar tomonidan hosil qilingan. U ruda tog'larining ushbu sohasidagi asosiy jins turini tashkil etuvchi filitlar tarkibiga kiradi. Loessnitz-Zwoenitz-Trough tog 'jinslari "samarali seriyali" deb nomlanadi, chunki ular deyarli barcha minerallashuvlarni o'z ichiga oladi. Vena tuzilmalarini samarali seriyadan filitlar va granitlarga kuzatib borish mumkin bo'lsa ham, uning tashqarisida sezilarli mineralizatsiya kuzatilmagan. Ruda konida 1800 ga yaqin minerallashgan tomir mavjud. Uranli tomirlar Roter Kamm yorig'iga parallel ravishda taxminan shimoli-g'arbiy-sharqdan o'tadi.

Minerallashtirishning eng qadimgi turi kvarts, kalsit, ftorit, pitchblende va kichik gematitdan iborat. Ushbu birlamchi minerallashuvning yoshi taxminan 270 mln.yilni tashkil etadi va bu Oberschlema-ning eng muhim turi edi. Taxminan 100 milliondan keyin ikkinchi uran mineralizatsiyasi paydo bo'ldi. Ushbu turdagi tomirlar tarkibiga dolomit, kalsit, pitchblende, kichik sulfidlar va selenidlar (ayniqsa klaushtalit) kiradi. Ushbu minerallashuv hodisasi konga yangi uran olib kelmadi, ammo eski mineralizatsiyadan uranni reabilitatsiya qildi. Ushbu dolomit-uran tomirlari Niederschlema-Alberoda uranning asosiy shakllanishi edi. Uchinchi uranli tomir turi tarkibida kvarts, kalsit, Ko- va Ni-arsenidlar, mahalliy vismut, kumush va pitchblend mavjud. Dolomit tomirlari singari, yangi uran kiritilmagan, faqat reabilitatsiya qilingan. Bular nafaqat uran uchun, balki Ag va Co-Ni ishlab chiqarish uchun ham Shnbergning eng muhim tomirlari edi. Teleskoplash, shuningdek, tomirning bir qismiga yopishib qolgan turli xil minerallashuv turlari bilan keng tarqalgan xususiyatdir.

Uranli minerallashuv turlaridan tashqari Sn-W, Pb-Zn, ftorit-baritdan kvarts-gematitgacha bo'lgan o'nga yaqin turli xil mineralizatsiya uslublari mavjud. Ular iqtisodiy ahamiyatga ega bo'lmagan, ammo kondan ma'lum bo'lgan bir necha yuzlab minerallarning xilma-xilligiga hissa qo'shgan. Ayniqsa, Schneeberg va Oberschlema oksidlanish zonalarida ko'plab noyob ikkilamchi minerallar uchraydi, ularning ko'plari yangi ochilgan. Masalan, Shnbergda urilgan bitta rudadan olingan namunalarda 1871 yilda beshta yangi uran minerallari topilgan, ya'ni valpurgit, zeunerit, trogerit, uranospinit va uranosferit.

Zobes va Bergen (Ob'ekt 06)

Zobes - Vogtland tog'laridagi kichik qishloq. 1949-1961 yillarda u erda Vismut kompaniyasining ikkinchi yirik venalar koni qazib olindi. Geologiya Shneeberg-Shlema-Alberodaga o'xshash tomirlar va mezbon jinslarga o'xshashdir. Ammo hajmi ancha kichik, uranning umumiy miqdori taxminan 5000 tonnani tashkil qiladi. Ruda tog'lari va Vogtland mintaqasidagi boshqa konlardan farqli o'laroq, Vismut faoliyatidan oldin tarixiy qazib olish ishlari bo'lmagan. Konning kichikligi va aholining nisbatan kam qazib olinishi tufayli bu maydonga ta'sir qilmadi, chunki u Vismut tomonidan qazib olingan boshqa konlarda bo'lgani kabi. Bugungi kunda faqat 362-sonli o'qning tashlangan joyi qoldi, boshqalari qurilish materiali va past darajadagi ma'dan sifatida olib tashlandi. Bergen kichik uran koni atigi bir necha kilometr uzoqlikda qazib olindi va er osti Zobes konlariga ulandi. Zobes koni meta-cho'kindi jinslarda bo'lganida, Bergen intragranitik kon edi. U ikkinchi darajali uran minerallarining ajoyib va katta kristallari bilan dunyo miqyosida tan olingan uranotsirit. Shuningdek, kon nomi bilan atalgan mineral mavjud: bergenit. Bergen konining bir qismi keyinchalik qazib olindi granit katta ochiq kesmada qurilish materiali sifatida.

Johanngeorgenstadt (Ob'ekt 01)

Sobiq Georg Wagsforth koni yonida belgi qo'ying, u yerdan uran topilgan pitchblende namunasi olingan

Johanngeorgenstadt Ruda tog'larining eng g'arbiy qismida to'g'ridan-to'g'ri Chexiya bilan chegarada va Vogtland va Ruda tog'lari chegarasida joylashgan. Bu mashhur, chunki 1789 yilda kimyogar M.H. Klaprot shaharning Georg Vagfort kumush konidan olingan namunada uran elementini topdi. Taxminan 160 yil o'tgach, shahar Vismutning ob'ekti 01 ga aylandi va eski shahar markazi uranni er osti qazib olish ishlari tufayli to'liq vayron bo'ldi. Qadimgi shahar markazidan faqat cherkov shahar tarixining ushbu qismida omon qoldi, qolgan barcha uylar jiddiy zarar tufayli olib tashlanishi kerak edi. 1946 yildan 1958 yilgacha qazib olish ishlari olib borildi va taxminan 3500 tonna uran qazib olindi. Depozit chegaradan oshib ketgan Chexoslovakiya. Chexoslovakiyalik uran kompaniyasi o'z konida o'z razvedkasi va qazib olish ishlarini olib borar ekan, Sharqiy Germaniya va Chexoslovakiya hukumatlari o'rtasida tuzilgan shartnoma asosida Chexiya hududida bitta tomirni Vismut qazib olgan.

Depozit Gera-Jachymov yoriqlar zonasining g'arbiy qismida joylashgan. U konning tagida joylashgan Eibenstock granitining ekzokontaktida joylashgan. Granitning o'zi faqat kichik U-Bi tomirlarini tashiydi; aksariyat minerallashuv mikasistadagi tomirlarda mavjud. Asosiy mineralizatsiya uslublari kvarts-karbonat-pitchblende va kvarts-kalsit-arsenid-Ag-pitchblende tomirlaridir.

Wismut GmbH shirkati 1991 yilda SDAG Vismut tarkibiga kirganida tarkibiga kirmagan tog'-konlarni rekultivatsiya qilish uchun javobgar emas va bu maydonlarni tozalash uchun dastlabki 6,4 milliard evro byudjetga kiritilmagan. Ruda tog'laridagi va Vogtlanddagi kichik konlarning aksariyati 1950 va 1960 yillarda qazib olinganligi va qazib olish to'xtatilgandan so'ng eski qazib olinadigan joylar mahalliy hokimiyat idoralariga o'tkazilganligi sababli, Wismut GmbH kompaniyasining hududlarni asl qayta tiklashda qayta ishlash rejalari bo'lmagan. dastur. Biroq, Saksoniya shtati o'rtasidagi muzokaralardan so'ng Germaniya federal hukumati va Wismut GmbH bilan shartnomalar tuzildi va ushbu eski joylarni, shu jumladan Yoxanngeorgenstadtni tiklash uchun mablag 'ajratildi. Ushbu shaharchada Wismut GmbH kompaniyasining faoliyati asosan konturni o'zgartirish, ko'chirish va chiqindilarni qoplash va xavfli er osti konlari xavfsizligini ta'minlashdan iborat.

Pöhla (Aue konchilik bo'limi)

Sobiq Pöhla uran konining asosiy ahamiyati, bugungi kunda a mehmonlar meniki

Pöhla - Germaniyaning sharqiy qismidagi eng baland tog 'bo'lgan Fixelberg etagidagi g'arbiy Ruda tog'laridagi kichik qishloq. Hududda qazib olish ishlari bir necha asrlar ilgari boshlangan, ammo Ikkinchi Jahon Urushigacha bu sohada konchilik unchalik katta bo'lmagan. Vismut qidiruv ishlarini 1940-yillarda boshlagan va bu hududda bir necha tonna uran bo'lgan kichik mineralizatsiyani qazib olgan. Poxla-Globenshteynda bir val cho'ktirildi, ammo u juda oz miqdordagi uran minerallashuvini topdi. Shu bilan birga, magnetit-skarn minerallashuvi aniqlandi va milga egalik sharqiy Germaniya temir kompaniyasiga qidiruv maqsadida o'tkazildi. O'tgan asrning 60-yillarida kashfiyot paytida burg'ulashlar Poxla janubidagi Xammerlein va Tellerhäuzer nomli joylarda radioaktiv anomaliyalarni ko'rsatdi. Ushbu konlarni 1967 yilda boshlangan reklama yordamida er ostidan o'rganishga qaror qilindi. Reklama portali Pyoxla tashqarisidagi vodiyda joylashgan. Taxminan 3 km masofada Hammerleindagi mineralizatsiya to'xtadi. Bu erda u erda uranning ozgina minerallashuvi borligi ko'rsatilib, u qidiruv bosqichida qazib olinib, 15 tonna uran ishlab chiqarildi. Biroq, skarnlarda va shistlarda kalayning muhim mineralizatsiyasi aniqlandi. Bundan tashqari, skarnlar ham mavjud edi rux, magnetit, indiy va kadmiy. Ushbu mineralizatsiya 1970-yillarda intensiv ravishda o'rganilgan va yirik qalay konini yaratish bo'yicha tadqiqotlar olib borilgan. Biroq, o'sha paytda Sharqiy Germaniyada qazib olinadigan qalay konlariga qaraganda resurslar yuqori bo'lgan va ma'dan navlari yaxshi bo'lgan bo'lsa-da, mineralogiya juda murakkab bo'lib, tasdiqlangan frezeleme texnologiyalaridan foydalanishga to'sqinlik qildi. Vismut murakkab qalay rudasi uchun maxsus frezalash texnologiyasini ishlab chiqdi, ammo u juda qimmatga tushdi va loyiha to'xtatildi.

Xammerleindan asosiy reklama 70-yillarda Tellerxauzerdagi mineralizatsiyani o'rganish uchun olib borilgan bo'lib, u taxminan 7,5 km reklama uzunligida kesilgan. Ushbu uran minerallashuvi Hammerleindagidan ancha kattaroq edi va ikkita ko'r o'qi konlarning chuqur qismlariga cho'ktirildi. 1983 yildan qazib olish ishlari boshlangan va 1990 yilga qadar 1200 tonna uran ishlab chiqarilgan. Hammerlein singari Tellerxayuzer ham magnetit bilan bir qatorda skarnlarda ham kalayning minerallashuvini ko'rsatgan. Magnetitning bir qismi 1980-yillarda Sharqiy Germaniya hukumati tomonidan qurilgan atom elektr stantsiyalari uchun betonga qo'shimcha sifatida qazib olindi. Kam miqdordagi kumush ham qazib olindi, ammo tarkibida kumush rudasining tarkibida mishyak moddasi miqdori qayta ishlashni juda qimmatga tushirdi va kumush ishlab chiqarish 1980 yillarning oxirlarida to'xtatildi. An ruda o'qi katta mahalliy mishyak va kumush bilan 1990 yilda uran qazib olish tugashidan sal oldin qilingan. Bir necha tonna material qazib olindi, ammo qayta ishlash amalga oshirilmadi.

Hammerlein va Tellerxayuzerdagi asosiy metallarga nisbatan ijobiy natijalar Globenshteyndagi qalay, volfram va boshqa resurslarni qayta tekshirishga olib keldi va 1980 yillarda muhim mineralizatsiya aniqlandi. Ammo Xammerlein singari, murakkab mineralogiya hozirgacha boshqa loyihalarni amalga oshirishga xalaqit berdi.

Ishlab chiqarish to'xtatilgandan so'ng, maydon rekultivatsiya qilindi, shu jumladan konni suv bosdi, kon binolarini olib tashladi va chiqindi jinslar maydonini qopladi. Uran, radiy va mishyakni kon suvidan tozalash uchun suv tozalash inshooti tashkil etildi. Kondan suv oqimi kam bo'lganligi sababli dastlabki faol kimyoviy suv tozalash inshootini passiv biologik birlik (botqoqlik) bilan almashtirish mumkin edi. Reklama hanuzgacha depozitning Hammerlein qismiga ochiq va xususiy jamiyat tashrif buyuruvchilar koni sifatida ishlaydi. Wisutec GmbH, Wismut GmbH ning qizi kompaniyasi, hozirda Pöhla-Globenshteyn hududida razvedka litsenziyasiga ega (2013).

Schneckenstein va Gottesberg (Ob'ekt 06)

Vogtland tog'laridagi ushbu ikkita kon SAG / SDAG Wismut-ning 06-ob'ekti tomonidan boshqarilgan. Qalay va kumushni qazib olish ushbu hududda qadimgi an'analarga ega bo'lib, qimmatbaho toshlar ishlab chiqarish bilan shug'ullangan topaz. Vismut ushbu hududda razvedka va qazib olishni boshlaganida, qalay uchun hali ham faol qazib olish ishlari olib borilgan. Vismut yaqin atrofdagi uran mineralizatsiyasini kashf etishidan oldin, u qalay konidan qayta ishlash zavodini egallab olgan edi Tannenbergsthal ustiga Schneckenstein 1948 yilda tog '. Qalay konining o'zi tekshirilgan, ammo uranning mineralizatsiyasi topilmagan. Biroq qalay konidan taxminan 2 km uzoqlikda kompaniya 1950 yildan 1960 yilgacha qazib olingan 1000 tonna uran ishlab chiqaradigan uran minerallashuvini aniqladi. Uran zahiralari tugagandan so'ng, kon qazib olishni boshlagan boshqa konchilik kompaniyasiga o'tkazildi barit uran tomirlariga parallel ravishda yoriq zonasida. 1964 yilda qalay qazib olish, 1991 yilda barit qazib olish to'xtatildi. Vodiyning narigi tomonida yana uran mineralizatsiyalari topilib, Gottesberg deb nomlandi. Metasimentiment jinslar joylashgan Shnkeshteyn minerallashuvidan farqli o'laroq, kichik Gottesberg konidagi tomirlar granitlar ichida joylashgan. Kichik kon 50-yillarda bir necha yil davomida qazib olinib, 70 tonna uran ishlab chiqarilgandi. Gottesberg hududida qalay konlari ham bo'lgan va bugungi kunda Germaniyaning xususiy razvedka kompaniyasi tomonidan razvedka litsenziyasida.

Shvartsenberg (Ob'ekt 08)

Ob'ekt 08 Aue va Johanngeorgenstadt orasidagi g'arbiy Javhar tog'larida Shvartsenberg atrofida o'nlab kichik konlarni qazib oldi. Eng yirik kon - Antonsthaldagi "Weißer Hirsch" koni (235-val), u 1959 yilgacha 700 tonna uran ishlab chiqargan. Qolgan konlarda 2 tonnadan 230 tonnagacha uran hosil bo'lib, natijada mahalliy ishlab chiqarish 1100 tonnani tashkil qildi. "Weißer Hirsch" konining chiqindi materiallari hozirda qurilish materiallari sifatida qayta ishlanmoqda.

Ruda tog'laridagi boshqa konlar

Annaberg-Buxxoltsdagi eng muhim uran konlaridan biri bo'lgan 116 o'qni tashlab qo'yish

Marienbergdagi 139-o'qdan uran-kobalt rudasi

Annaberg-Buchholz Markaziy ruda tog'lari ruda tog'larining kumush qazib olinadigan mashhur tarixiy shaharlaridan biridir. SAG Wismut tomonidan uran qazib olish 1947 yilda boshlangan va 1958 yilgacha bo'lgan. 450 tonna uran ishlab chiqarilgan.

Niederschlag-Bärenstein koni Chexiya bilan chegaraga yaqin markaziy ruda tog'larida joylashgan. 1930-yillarda uran konini ochishga urinish muvaffaqiyatsiz tugadi. SAG Wismut tomonidan uran qazib olish 1947 yilda boshlangan va 1954 yilda tugagan va 140 tonna uran ishlab chiqargan. Minerallashuvning katta qismini o'z ichiga olgan tomir uran minerallashgan qismlaridan pastda florit-barit mineralizatsiyasini o'z ichiga oladi. Xususiy kompaniya ushbu mineralizatsiyani 2010 yilda qazib olishni boshlamoqchi edi.

Marienberg, shuningdek, 16-asrda markaziy Ruda tog'larida tashkil etilgan eski kumush qazib olish shaharchasidir. 1947-1954 yillarda Vismut 120 tonna uran qazib oldi. Ftoritning katta manbai qoldi. Bugungi kunda uran qazib olish davri o'qi isitish uchun termal suv bilan ta'minlaydi.

The Sharqiy Ruda tog'lari Umumiy atigi 50 tonna ishlab chiqaradigan juda kichik uran minerallashuviga ega. Kon qazish Brenhecke, Niederpöbel, Johnsbach va Frayberg. Ikkinchisi ma'dan tog'larining tarixiy jihatdan eng muhim koni bo'lib, 12-asrdan boshlab kumush ishlab chiqargan. Biroq, u SAG Wismut uranini ishlab chiqarishga juda oz hissa qo'shdi. Kamida 6000 tonna kumush ishlab chiqarilgan konda atigi 5 tonna uran bor edi.

Turingiya

Sharqiy Turingiya 1950-yillarda Ronneburgning ulkan ruda koni va Kulmitzshning o'rta koniga mezbonlik qilgan Vismutning yirik konchilik markazlaridan biriga aylandi. Ronneburgdagi minerallashuv Gera-Jachymov yorig'i tomonidan uyushtirilgan bo'lsa-da va ehtimol bu uning shakllanishi xuddi shu tuzilishda o'tirgan Ruda tog'laridagi tomir uslubidagi konlar bilan bog'liq bo'lsa-da, bu mineralizatsiyaning mutlaqo boshqa turidir. Bu qazib olishning birinchi o'n yilligida ko'plab muammolarga olib keldi.

Ronneburg (90-ob'ekt)

1990 yilda Ronneburgdagi toshlar chiqindisi

Ronneburgda rekultivatsiya qilingan konchilik maydoni

Ronneburg BAB 4 ga yaqin kichik shaharcha Avtobahn. U keyingi yirik shaharning taxminan 10 km sharqida joylashgan Gera. Ronneburgda kichik radonli buloq bo'lib o'tdi, ammo u Ruda tog'laridagi kabi mashhur emas edi. Ushbu hududda qidiruv ishlari 1949 yilda boshlangan va birinchi vallar 1950 yilda cho'kib ketgan. Depozit Gera shahridagi bosh ofisi bilan 90-ob'ekt tomonidan boshqarilgan. 1950 yillarda Ronneburgda olib borilgan qidiruv ishlari Vismutning manba bazasiga eng ko'p uran qo'shgan va yangi ochilgan konning ahamiyatini ko'rsatgan. Ammo konni qazib olishda juda ko'p qiyinchiliklar bo'lgan, chunki mineralizatsiyaning o'ziga xos uslubi Sharqiy Germaniya va Sovet kon mutaxassislari uchun noma'lum edi.

Mineralizatsiyani paleozoyik meta-qora slanetslar va meta-bazaltlar egallaydi. Uranning minerallashishi juda o'zgaruvchan kattalikdagi va uran tarkibidagi tartibsiz shakldagi jismlarda sodir bo'ladi (har bir tanaga o'rtacha 70 tonna uran). The uranium minerals (mainly pitchblende) occur as impregnations, thin veinlets or in breccia zones in these bodies. The deposit was formed by remobilsation of uranium already enriched in the black shales by synsedimentary processes. Remobilsation was caused by hydrothermal and supergene processes leading to the further enrichment of uranium. The background uranium content in the black shales is 40 to 60 ppm. Like the major vein-style uranium deposits in the western Ore Mountains, the Ronneburg deposit is located on the Gera-Jachymov fault zone, which is called the Crimmitschau fault zone in this particular area.

The black shales also contain high amounts of sulfides (marcasite, pyrite) and carbon. Wismut tested several different methods to mine this deposit in the 1950s and 1960s. Some seemed to work, but during the 1950s many fires started in the mines. Sabotage was first considered as the cause, but the increasing number of fires showed that there must be another reason, which was found in the sulphur and carbon content of the black shales in combination with wrong mining methods. The initial mining methods led to many fractures in the rocks, which allowed oxygen to enter the rock. The resulting oxidation of sulfides produced enough heat to spontaneously start fires in the carbon-rich material. These fires became such a major problem that whole parts of the underground area had to be sealed off and production was heavily impacted. This also led to the decision to mine part of the deposit using an open pit, which seriously affected the Ronneburg area. However, in the 1960s special mining technology was developed involving backfilling of the stopes using drillings from the surface. Since then, underground fires have not been a major problem.

In the late 1960s the company was restructured and Object 90 was split up into several mining division: Bergbaubetrieb (mining division) Schmirchau (underground), Bergbaubetrieb Paitzdorf (underground), Bergbaubetrieb Reust (underground) and Bergbaubetrieb Lichtenberg (open pit). Open pit mining ended in 1976 when the pit reached a final depth of 300 m. Exploration for new areas of mineralisation led to the formation of two further mining divisions at the northern part of the deposit in 1974 (Bergbaubetrieb Beerwalde) and 1982 (Bergbaubetrieb Drosen). The mineralisation dips downward in a northern direction which resulted in deeper mining depths. The shafts of the northernmost mine Drosen reached nearly 900 m.

The grade of the ore mined was 0.08% uranium on average with a qirqib tashlash of 0.02% uranium. However, restricted zones of high grade mineralisation with more than 1% uranium occurred. An ore treatment plant was tested in Schmirchau to increase the grade before shipping to the mills, but this proved not to be effective. Most of the ore was sent without further treatment to the mills at Seelingstädt and Crossen. Small amounts of uranium were also produced by underground in-situ leaching and heap leaching of low grade ore and even waste rock. The mined resources of the ore field were 113,000 tonnes of uranium, of which about 100,000 tonnes were produced (the difference are production losses). The total resource of the deposit is about 200,000 tonnes of uranium (mined and unmined reserves as well as inferred and speculative resources).

After production ceased in 1990 recultivation work began. The mine dumps were the largest task in this mining area. It was decided to relocate most of the dump material of the southern mining divisions (Schmirchau, Reust, Paitzdorf, Lichtenberg) into the open pit Lichtenberg and to relocate those of the Korbußen mine (part of the Beerwalde mining division) and Drosen to the major dump at Beerwalde. To accomplish this task, Wismut GmbH ordered and operated the largest fleet of Tırtıl mine trucks in Europe. After relocation was finished, the dumps were covered. The southern mining area with the refilled Lichtenberg open pit was part of the 2007 federal garden exhibition Gera-Ronneburg.

Culmitzsch (Object 90)

The Culmitzsch deposit is about 15 km south of Ronneburg. It also belonged to Object 90 in Gera. However, it had a totally different geology than the Ronneburg ore field. Culmitzsch is a sedimentary deposit in Permian sandstone, siltstone and limestone. There are two ore horizons containing disseminated pitchblende and coffinite. An interesting feature is pseudomorphosis of uranium minerals after wood. Specimens still show the cell structure of the wood but are made of pitchblende. The deposit was mined from 1950 to 1967 in three open pits named Culmitzsch, Trünzig and Sorge-Katzendorf. The average ore grade was 0.06% and total production from the three pits was about 11,000 tonnes of uranium. The deposit extends further north from the mined area. This part of the deposit, called Gera-Süd, was explored underground, but difficult geotechnical conditions prevented the mining of this resource. The Culmitzsch and Trünzig open pits were used as tailings management facilities after they were mined out by the Seelingstädt mill, which was established in 1961 near the deposit.

Further deposits in Thuringia

In the southern part of Thuringa called the Thüringer Wald, mining of three small uranium deposits was undertaken in the 1950s. The largest deposit was Dittrichshütte and was mined underground with several small shafts producing about 112 tonnes of uranium from a black-shale-type mineralisation. Steinach was also a small black-shale-type deposit, mined in a small open cut producing about 40 tonnes of uranium. The Schleusingen mineralisation was hosted by Triassic sandstones and was mined underground, producing 14 tonnes of uranium.

Königstein (Königstein mining division)

Königstein is situated about 40 km southeast of Drezden ichida Elbe qumtosh tog'lari. Königstein castle is one of the major attractions in this touristic area. Exploration for uranium started in the early 1960s for sandstone hosted uranium mineralisation similar to the ones discovered further south in the Czech Republic. Finally a major mineralisation was discovered in 1963, hosted by Cretaceous sandstones with disseminated uranium minerals in Rollfront-type ore bodies. However, there are also small veins containing barite and pitchblende and the nature of this deposit is under discussion. Most likely it is a combination of a sedimentary style and hydrothermal mineralisation. Construction of the mine started immediately after the discovery and two main shaft along with several ventilation shafts were sunk to depths up to 300 m. Mining started in 1967 and it developed into one of the main producers of SDAG Wismut in the 1970s, with more than 1,000 tonnes of uranium per year in this decade. The ore mined was transported by a cable way down to the Elbe river valley from where it was transported by rail to the mill at Seelingstädt. Besides conventional mining using drilling, blasting and transport of the ore to the mill, already in 1969 studies were started on unconventional production methods for low grade ore using leaching. The low permeability of the sandstone prevented usual in-situ leaching from drillings. Therefore, different methods were developed to blast the ore underground, seal the blasted blocks, and press sulphuric acid into them. Heap leaching was also carried out as well as uranium extraction from mine water before it was released into the Elbe River. In 1984 conventional ore production ceased and only unconventional methods were used from that year on. Production sunk to about 450 tonnes uranium per year, but the Königstein mining division produced at the lowest costs of all Wismut mining divisions. The uranium bearing solution from leaching was transported by rail to the Seelingstädt mill where the final concentrate was produced. Total production of uranium until 1990 was about 18,000 tonnes, with 12,250 tonnes by conventional mining and 5,750 tonnes by unconventional methods.

In 1990 production ceased, as in the other mining divisions. However, the hydrogeological situation was difficult because of the high amount of uranium-bearing solution in the sandstone units hosting the mineralistion. Above that unit there are three suv qatlamlari supplying water to the cities of Pirna and Dresden. Therefore, large amounts of water had to be treated before the mine could finally be flooded. The uranium extracted in this cleaning process was sold to an American company in solution form. The total production of uranium from the mine water treatment between 1991 and 2008 can be estimated to be 1,000 t.

Freital / Dresden-Gittersee ('Willi Agatz' mining division)

This mining area covers parts of the cities Drezden (part Gittersee) and Freital. Mining for hard coal in the area is known to date from the 16th century. In 1949 Wismut studied radioactive anomalies in parts of the coal field and took over some mines. Mine ownership alternated several times between Wismut and the local hard coal mining company. In the early 1950s, when the coal field belonged to the hard coal mining company, two new main shafts in Dresden-Gittersee were sunk to depths of about 700 m and the mine was renamed 'Willi Agatz', after a leader of the East German communist party. In 1968 production of coal for energy production was eventually stopped and the mine was transferred a last time to SDAG Wismut. From that time on coal was only mined for its uranium content. The deposit was depleted in 1989 after producing about 3,700 tonnes of uranium since 1949 and 40 million tonnes of hard coal since the 16th century. It was the last Saxonian hard coal mine to be shut down. The uranium-bearing coal was milled at small local plants in Freital when Wismut first was active in the area in the 1950s. After 1968 the coal was milled at Crossen.

Restoration of the area after 1991 was carried out by the Königstein division of Wismut GmbH. The deposit is connected by a several kilometer long adit to the Elbe River in Dresden. This adit was built in the 19th century to ship coal directly from the underground part of the mines to the river, although it was never used for this purpose. However, the adit had to be refurbished by Wismut GmbH as one of the major tasks at the deposit in order to provide for secure dewatering of the mining area. Furthermore, the dumps had to be covered, including ash dumps from the firing of uranium-bearing coal in former times.

Yetti ko'mir qatlamlari mavjud Permian (Rotliegend) volcano-sedimentary rocks of the Döhlen basin. Three of these seams carry in restricted parts a uranium mineralisation, which was mined by the Wismut. Uranium was introduced into the coal-forming organic material in early stages by surficial waters. The source for the uranium was most likely local volcanic rock units. At a later stage, some remobilisation took place, producing uranium mineralised veinlets in the host rocks of the coal seams. The average ore grade was 0.11% uranium.^[6]

Unmined deposits

The SAG/SDAG Wismut carried out exploration in the whole German Democratic Republic. Several uranium mineralisations were discovered but finally not mined because of the small amount or high costs. The largest unmined resource was discovered in the late 1970s and early 1980s north of Leypsig, hosted by carboniferous volcano-sedimentary rock units. This uranium occurrence near Delitssh consists of several separate mineralisations. An inferred resource of 6,660 tonnes was taken into the resource base of Wismut and studies were made for underground exploration. However, the high costs prevented realisation. Wismut also discovered a significant supplies of volfram, niobiy, noyob tuproq elementlari va fosfat in the area, which is being reinvestigated by a private company since 2008.

Wismut explored a black shale-type uranium mineralisation below the villages of Hauptmannsgrün va Neumark, Saxony west of Zwickau. It led to 2,500 tonnes of inferred uranium resources being added to the resource base of Wismut, but because of the complex nature and small size of the deposit it was decided to not mine it. Another unmined black-shale-type resource is in Rudolstadt ichida Thüringer Wald area with inferred resources of 1,300 tonnes.

Several small uranium mineralisations were also explored in the Ore Mountains outside the mined deposit areas. Together they account for another 11,200 tonnes of inferred resources, which were added to the SDAG Wismut resource base.

Frezeleme

Tailings of Seelingstädt mill in 1990

In the early years of mining, sorting of ore started in the vein style deposits directly on the stopes. High grade ore containing more than 1% uranium was handpicked and later automatically separated and shipped to the Soviet Union without further processing until 1980. Ore containing less than 1% (Fabrikerz - factory ore) was sent to mills. In the early years of SAG Wismut, it simply took over existing plants for processing its uranium ores. These were the mill of a tungsten mine in Lengefeld (Vogtland), the mill of the Tannenbergsthal (Vogtland) tin mine, a plant processing cobalt ore to produce colours at Oberschlema, a nickel processing plant at Aue, and some industrial areas at Freital. Further, a new mill was erected at Johanngeorgenstadt. These small mills produced different concentrates: mechanical, wet-mechanical and chemical (sariq kek ). A total of 18 million tonnes of ore were processed in these smaller mills, and the last was shut down in 1962. Milling was concentrated at two central milling sites situated between Zwickau and Ronneburg.

The mill at Crossen (a northern suburb of Zwickau) was erected in 1950 using the site of a former paper mill. It was called Object 101 / Factory 38 (later renamed Aufbereitungsbetrieb 101 - milling division 101) and processed ore from all major Wismut deposits. It produced mechanical as well as chemical concentrates and used for the latter one an alcalic-based technology resulting in yellowcake containing more than 70% uranium. The mill processed a total of 74.7 million tonnes of ore, producing 77,000 tonnes of uranium before it was shut down in 1989. Experimental milling was also carried out to process silver and tin ore from the deposits at Niederschlema-Alberoda and Pöhla.

In 1961 the most modern milling plant (called Aufbereitungsbetrieb 102 - milling division 102) started production at Seelingstädt. It was built near the open pits of the Culmitzsch deposit which it used as tailings management facilities. It processed the majority of ore from Ronneburg, ore and solutions from Königstein, and also ore from the Ore Mountains. Depending on the chemistry of the ore it used both acid and soda-alcalic processes to produce yellowcake. It processed in total 108.8 million tonnes of ore producing concentrate containing 86,273 tonnes of uranium.

About 216,000 tonnes of uranium were delivered in chemical and mechanical concentrates from the mills to the Soviet Union and about 15,000 tonnes were shipped in unprocessed high-grade ore directly from the mines.

The restoration of the tailings storage facilities at the milling sites is a major issue for Wismut GmbH. The tailings at both sites have a total volume of 152 million m³ and contain between 50 and 300 g/t uranium and between 50 and 600 g/t arsenic. The activity of radium in the tailings has a total value of 1.5*10¹⁵ Bq.^[6]

Other company branches

Besides the direct mining and milling divisions, Wismut also owned several other company divisions. The Central Geological Service in Grüna near Chemnitz was responsible for exploration work as well as special geological tasks. This service also carried out work for other mining companies in East Germany. In Chemnitz-Siegmar there was a plant for constructing and maintaining the vehicle fleet of the company. Yilda Tsvikau -Caisndorf and Aue there were major factories producing equipment for the milling and mining divisions. They also provided equipment to other mining companies in East Germany and Eastern Europe. Wismut had also its own transport branch responsible for bringing workers to their work places. The construction branch was responsible for all building tasks within the company and also carried out public contracts. The company also operated sand pits, both for its construction needs but mostly to get material to refill stopes at Ronneburg. Some of these divisions were liquidated in 1990 because there was no need for them any more. Other were taken out of the Wismut GmbH because no restoration was required on these sites; these and formed DFA GmbH, which was subsequently privatised.

In 2002 Wismut GmbH founded a subsidiary, Wisutec GmbH. This company is responsible for consulting and marketing the restoration technologies developed by Wismut GmbH. It also owns the exploration rights for the tungsten-tin base metal deposit at Pöhla-Globenstein.

Impact on employees

Although the Ore Mountains had a nearly 700-year-old mining history when uranium mining started after World War II, mining had nearly ceased in the area. Thus, there was neither a qualified work force nor mining equipment which could be used. However, after World War II unemployment was high in Germany, and the Soviet occupation zone administration in East Germany ordered the employment centers across the country to supply them with workers. Within a few years thousands of people from all across Germany and refugees from the formerly German regions now part of Poland and the Soviet Union were drafted to work in the uranium mining centers. People were ordered to start working in the uranium mines otherwise there would be strict sanctions for them. At the end of the 1940s, more than 100,000 people worked for SAG Wismut. This also included women, although they did not work on the stopes but operated machinery (locomotives, hoisting machines) at the mines, worked in the mills, laboratories and administration. In contrast to the Czech Republic and the Soviet Union, no prisoners were forced to work in the mines. But most of these people had never worked in the mining industry before and had no qualifications for this work. This and the lack of mining equipment caused the mines to be operated like centuries previously, with a high number of fatal work accidents. Forced drafting of workers ended in 1949, however security measures on the mine sites remained very strict. Between 1951 and 1953, 73 miners accused of espionage and sabotage were deported to the USSR and executed.^[8]

The low safety and technology standards meant significant health risks for the miners. Drill hammers arriving for use at the mines in the late 1940s did not allow wet drilling, which led to the exposure of thousands of miners to dangerous quartz dust. Furthermore, narrow galleries in combination with a lack of proper ventilation led to high concentrations of radon and its decay products in the mines. The quartz dust and radon were responsible for the two most serious work related diseases, silicosis and lung cancer. By beginning of 1997, 14,592 cases of silicoses and 5,275 of lung cancer were officially recognised as work-related disease for miners at Wismut. It is estimated that there were 200 fatal accidents between 1946 and 1948 and 376 in the years between 1949 and 1964, including 33 miners being killed in a fire at a mine in Schlema in 1955. The total number of fatal accidents including the estimates for the early years is 772.^[6]

During the 1950s the technological equipment and the skill of the Wismut work force improved dramatically. Exposure to radon and quartz dust was significantly reduced by improving mining methods, equipment, ventilation and training the miners. But by then it was already too late for the health of thousands of miners who starting working earlier in the company. During the 1950s, the work force of the company shrank to about 45,000 and stabilised at this level to the end of the 1980s. During these later years, Wismut had one of the best educated work forces of all companies in East Germany, with the highest number of academic degrees per employee.

Miners were organised in the Wismut Industrial Union, which ran sports teams and an orchestra.^[9]

Mining disaster hoax

In November 1949, news stories about a mining disaster on site at Johanngeorgenstadt were run in American and West German media. The reports alleged a death toll in the thousands and mass arrests of German miners and staff by Soviet police.^[10]^[11]^[12] In reality, there indeed was a fire on the day of the reported disaster. 40 miners and troops were treated for smoke poisoning and one miner, a pump operator, had been found dead the day following the incident.^[13]

Resurslar

The following table presents the Wismut resources as of 1 January 1991.^[6] All values are in tonnes uranium (not uranium oxide). Total unmined resources are a combination of known reserves plus inferred resources. The total uranium potential is the total of unmined and mined resources .

After 1990 there was a little mining in Ronneburg, Niederschlema-Alberoda and Pöhla to reduce the contact surface between uranium ore and groundwater after flooding the mines. In Königstein the mine water cleaning process still produces uranium today, which is sold to international customers. The total production after 1990 is about 1,500 tonnes uranium and is not included in the table.

Deposit / Occurrence	Years of production	Turi	Ishlab chiqarish	Mined resources	Reserves C₁ + C₂	Inferred resources	Total unmined resources	Total uranium potential	Boshqa manbalar
uranium field Ronneburg (East Thuringia)	1950 - 1990	black shale	?	112,914.0	51,820.0	35,423.0	87,243.0	200,157.0
Schmirchau / Reust	1952–1990 / 1957–1988	black shale	?	65,264.9	6,622.8	1,512.9	8,144.7	73,409.6
Paytsdorf	1954–1990	black shale	?	22,562.5	6,186.5	0.0	6,186.5	28,749.0
Stolzenberg	1954-1957	black shale	?	175.5	0.0	0.0	0.0	175.5
Lixtenberg	1958–1976	black shale	?	14,115.3	0,0	0,0	0,0	14,115.3
Beerwalde (including Korbußen)	1974-1990	black shale	?	7,658.4	15,912.7	0,0	15,912.7	23,571.1
Drosen	1982–1990	black shale	2,941.1	3,137.7	23,098.0	3,760.4	26,858.4	29,996.1
Paitzdorf Flanken	exploration area	black shale	0.0	0.0	0.0	367.0	367.0	367.0
Zeitz-Baldenhain	exploration area	black shale	0.0	0.0	0.0	16,000.0	16,000.0	16,000.0
Kauern	exploration area	black shale	0.0	0.0	0.0	453.0	453.0	453.0
Prehna	exploration area	black shale	0.0	0.0	0.0	8,531.0	8,531.0	8,531.0
Untitz	exploration area	black shale	0.0	0.0	0.0	2000.0	2000.0	2000.0
Crimmitschau Fault Zone	exploration area	black shale	0.0	0.0	0.0	2,560.0	2,560.0	2,560.0
Lichtenberg-North	exploration area	black shale	0.0	0.0	0.0	230.0	230.0	230.0
uranium field Schlema (western Ore Mountains)	1946–1990	tomir	80,413.5	90,554.4	1,032.0	5,017.0	6,049.0	96,603.4	Ag, Co, Ni, Bi, Pb, Zn, Se, Fe
Niederschlema-Alberoda	1949–1990	tomir	73,105.0	82,609.4	1,032.0	1,017.0	2,049.0	84,658.4	Ag, Co, Ni, Bi, Pb, Zn, Se
Oberschlema	1946–1960	tomir	7,098.9	7,945.0	0.0	0.0	0.0	7,945.0	Cu, Fe
Shnberg	1946–1956	tomir	209.7	>210	0.0	0.0	0.0	>210	Ag, Co, Ni, Bi
Bernsbax	exploration area	tomir	0.0	0.0	0.0	4000.0	4000.0	4000.0
Königstein (Elbe Sandstone Mountains)	1967–1990	sedimentary (sandstone)	17,756.0	19,257.0	4,304.0	4,251.0	8,555.0	27,812.0
uranium field Culmitzsch (eastern Thuringia)	1951–1967	sedimentary (sandstone, siltstone and limestone)	?	11,956.0	0.0	3,350.0	3,350.0	15,306.1
Kulmitz	1955–1967	sedimentary (sandstone, siltstone and limestone)	?	9,216.6	0.0	0.0	0.0	9,216.6
Sorge-Trünzig	1951–1957	sedimentary (sandstone, siltstone and limestone)	?	2,292.4	0.0	0.0	0.0	2,292.4
Gauern	1953–1957	sedimentary (sandstone, siltstone and limestone)	?	427.7	0.0	0.0	0.0	427.7
Gera-Süd	exploration area	sedimentary (sandstone, siltstone and limestone)	?	19.4	0.0	3,350.0	3,350.0	3,369.0
Zobes (Vogtland mountains)	1949–1963	tomir	4,673.1	5,031.0	0.0	0.0	0.0	5,031.0	Cu, W
Freital (Döhlen basin near Dresden)	1947-53; 1952–55; 1968-89	sedimentary (hard coal)	3,691.0	3,977.0	0.0	0.0	0.0	3,977.0	qattiq ko'mir
Johanngeorgenstadt (western Ore Mountains)	1946–1958	tomir	3,585.0	4,100.0	0.0	0.0	0.0	4,100.0	Ag, Bi, Co, Ni
mining area Pöhla	1957–1990	tomir	1,217.0	1,322.0	765.5	4,577.4	5,342.9	7,882.0	magnetite, Sn, Zn, W, In, Cd, Ag, As
Tellerxayuzer	1983–1990	tomir	1,203.6	1,307.5	765.5	4,577.4	5,342.9	7,854.0	magnetite, Sn, Zn, W, In, Cd, Ag, As
Hämmerlein	exploration area	tomir	12.8	14.0	0.0	0.0	0.0	14.0	Sn, Zn, W, In, Cd
Globenstein	1957–1960	tomir	0.6	0.6	0.0	0.0	0.0	0.6	magnetite, Sn, W
mining area Schwarzenberg (western Ore Mountains)	1947–1959	tomir	1,346.5	1,445.8	0.0	0.0	0.0	1,445.8	magnetite, Sn, Zn, W
Antonsthal (Weißer Hirsch)	1949–1959	tomir	747.7	826.8	0.0	0.0	0.0	828.8	magnetite, Sn, Zn, W
Seyfenbax	1947–1955	tomir	230.0	280.0	0.0	0.0	0.0	280.0
Tannenbaum (September)	1948–1955	tomir	90.0	100.0	0.0	0.0	0.0	100.0
Neuoberhaus	1947–1955	tomir	62.0	70.0	0.0	0.0	0.0	70.0
May	1949–1955	tomir	50.0	>50.0	0.0	0.0	0.0	>50.0
Unruhe-Halbe Meile	1950–1953	tomir	47.0	55.0	0.0	0.0	0.0	55.0
Tellerxayzer-Kaffenberg	1950–1954	tomir	42.0	50.0	0.0	0.0	0.0	50.0
Rabenberg (Juni)	1949–1955	tomir	32.0	>32.0	0.0	0.0	0.0	>32.0
Raschau-Grünstaauml	1950–1954	tomir	22.0	25.0	0.0	0.0	0.0	25.0
Rittersgrün (Segen Gottes)	1948–1954	tomir	20.4	24.0	0.0	0.0	0.0	24.0
Erla-Crandorf	1948–1954	tomir	12.3	15.0	0.0	0.0	0.0	15.0
Breitenbrunn (Margarethe)	1946–1951	tomir	7.0	>7.0	0.0	0.0	0.0	>7.0
Bermsgrün	1950-1953; 1956	tomir	2.1	>2.1	0.0	0.0	0.0	>2.1
Schneckenstein (Vogtland mountains)	1949–1959	tomir	953.2	1,136.3	0.0	0.0	0.0	1,136.3
Annaberg-Buchholz (central Ore Mountains)	1947–1958	tomir	450.0	520.0	0.0	0.0	0.0	520.0	Ag, Co, Bi, Ni
Bergen (Vogtland mountains)	1949–1959	tomir	162.4	197.0	0.0	0.0	0.0	197.0
Niederschlag-Bärenstein (central Ore Mountains)	1947–1954	tomir	132.7	155.0	0.0	0.0	0.0	155.0	fluorite, barite
Marienberg (central Ore Mountains)	1947–1954	tomir	121.0	>121.0	0.0	0.0	0.0	>121.0	fluorite, barite, Ag, Co, Ni, Bi
Dittrichshütte (southern Thuringia)	1950–1953	black shale	112.6	163.4	0.0	0.0	0.0	163.4
Gottesberg (Vogtland mountains)	1949–1955	tomir	56.4	68.6	0.0	0.0	0.0	68.6	Sn, W
Steinach (southern Thuringia)	1953–1954	black shale	43.6	59.7	0.0	0.0	0.0	49.7
Niederpöbel (eastern Ore Mountains)	1948–1953	tomir	30.3	>30.3	0.0	0.0	0.0	30.3
Bärenhecke (eastern Ore Mountains)	1949–1954	tomir	?	44.2	0.0	0.0	0.0	44.2
Schleusingen (southern Thuringia)	1950–1953	sedimentary (sandstone)	14.0	27.0	0.0	0.0	0.0	27.0
Freiberg (eastern Ore Mountains)	1948–1950	tomir	?	5.4	0.0	0.0	0.0	5.4
NW Saxony	exploration area	vulkanik	0.0	0.0	0.0	6,660.0	6,660.0	6,660.0	W, REE, Nb, Ta, phosphate
Kyhna-Schenkenberg	exploration area	vulkanik	0.0	0.0	0.0	2,500.0	2,500.0	2,500.0
Verben	exploration area	vulkanik	0.0	0.0	0.0	2,500.0	2,500.0	2,500.0
Serbits	exploration area	vulkanik	0.0	0.0	0.0	1,000.0	1,000.0	1,000.0
"southern mineralisation"	exploration area	vulkanik	0.0	0.0	0.0	660.0	660.0	660.0
Hauptmannsgrün-Neumark (Vogtland mountains)	exploration area	black shale	0.0	0.0	0.0	2,270.0	2,270.0	2,270.0
Erzgebirge and Vogtland mountains	exploration area	tomir	0.0	0.0	0.0	11,200.0	11,200.0	11,200.0
NW Pöhla	exploration area	tomir	0.0	0.0	0.0	6,050.0	6,050.0	6,050.0
central Ore Mountains	exploration area	tomir	0.0	0.0	0.0	2,384.0	2,384.0	2,384.0
western Erzgebirge (excluding Schlema and Pöhla)	exploration area	tomir	0.0	0.0	0.0	1,471.0	1,471.0	1,471.0
eastern Erzgebirge	exploration area	tomir	0.0	0.0	0.0	1,295.0	1,295.0	1,295.0
Rudolstadt (southern Thuringia)	exploration area	black shale	0.0	0.0	0.0	1,300.0	1,300.0	1,300.0
Wismut total to 1990	1947–1990	/	taxminan 230,000	251,510.0	57,922.0	74,078.0	132,000.0	383,510.0	Sn, W, Zn, Fe, Cu, Bi, Co, Ni, Ag, As, In, Cd, REE; Nb; Ta, phosphate, barite, fluorite

Adabiyotda

Roman Rummelplatz, tomonidan Werner Bräunig, deals with work in the Soviet owned uranium mines of the Wismut AG and covers the time span from the foundation of the GDR in 1949 to the uprising in East Germany on June 17, 1953.

Shuningdek qarang

Adabiyotlar

^ different authors: Uranbergbau im Erzgebirge und Kalter Krieg. Ausgewählte Beiträge des RADIZ-Workshops vom 10. und 11. Oktober 1997 in Schlema, RADIZ-Information 16/98, RADIZ e. V., Schlema.
^ Ulrich Merten,"The Gulag in East Germany:Soviet Special Camps 1945-1950",Teneo Press/Cambria Press, 2018, p.224
^ Ulrich Merten, p.225
^ Ulrich Merten, p.227
^ Ulrich Merten,p.242
^ ^a ^b ^v ^d ^e Chronik der Wismut. CD-ROM. Wismut GmbH, 1999.
^ "Ostdeutsche Uran-Gebiete fast saniert Wismut wird aber noch Milliarden kosten".
^ Gründungsgeschichte der Wismut erstrahlt in neuem Licht - press release Technical University Chemnitz, 01.09.2009
^ "IG Wismut (1950-90)". FDGB-Lexikon. Freidrix Ebert nomidagi fond. Olingan 14 iyul 2020.
^ "Explosion, Fire Sweep Uranium Mine, Kill 2,000 in Soviet Zone of Germany". The Cornell Daily. 29 November 1949.
^ "Uranium mine fire confirmed by Reds: no deaths, they say". Miluoki jurnali. 29 November 1949.
^ "Uranium mine fire - Toll put at 3700". Spokane Daily Chronicle. 5 December 1949.
^ Zeman, Zbyněk A. B.; Karlsch, Rainer (2008). "Part 4: Wismut AG: a State Within a State". Uranium matters Central European uranium in international politics, 1900-1960. Nyu-York: Markaziy Evropa universiteti matbuoti. p. 246. ISBN 978-963-9776-00-5.

Tashqi havolalar

Wismut GmbH

[radiz-1] rent authors: Uranbergbau im Erzgebirge und Kalter Krieg. Ausgewählte Beiträge des RADIZ-Workshops vom 10. und 11. Oktober 1997 in Schlema, RADIZ-Information 16/98, RADIZ e. V., Schlema.

[2] Ulrich Merten,"The Gulag in East Germany:Soviet Special Camps 1945-1950",Teneo Press/Cambria Press, 2018, p.224

[3] Ulrich Merten, p.225

[4] Ulrich Merten, p.227

[5] Ulrich Merten,p.242

[Chronik-6] v ^d ^e Chronik der Wismut. CD-ROM. Wismut GmbH, 1999.

[7] "Ostdeutsche Uran-Gebiete fast saniert Wismut wird aber noch Milliarden kosten".

[tuchemnitz-8] Gründungsgeschichte der Wismut erstrahlt in neuem Licht - press release Technical University Chemnitz, 01.09.2009

[fes-9] "IG Wismut (1950-90)". FDGB-Lexikon. Freidrix Ebert nomidagi fond. Olingan 14 iyul 2020.

[10] "Explosion, Fire Sweep Uranium Mine, Kill 2,000 in Soviet Zone of Germany". The Cornell Daily. 29 November 1949.

[11] "Uranium mine fire confirmed by Reds: no deaths, they say". Miluoki jurnali. 29 November 1949.

[12] "Uranium mine fire - Toll put at 3700". Spokane Daily Chronicle. 5 December 1949.

[13] Zeman, Zbyněk A. B.; Karlsch, Rainer (2008). "Part 4: Wismut AG: a State Within a State". Uranium matters Central European uranium in international politics, 1900-1960. Nyu-York: Markaziy Evropa universiteti matbuoti. p. 246. ISBN 978-963-9776-00-5.

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