Yong'in - Incineration

Energiya ishlab chiqaradigan chiqindi zavodining boshqa shakllari uchun qarang energiya uchun chiqindilar.
Bu erga yo'naltirishlar "yoqish". Shudring-xushbo'y albom uchun qarang Yondirish (albom).

Yilda Spittelau yoqish zavodi Vena, Avstriya tomonidan ishlab chiqilgan Fridensreich Xundertvasser
SYSAV yoqish zavodi Malmö, Shvetsiya, 25 bilan ishlashga qodir tonna (28 qisqa tonna ) maishiy chiqindilarning soatiga. Asosiy to'plamning chap tomonida yangi bir xil pech liniyasi qurilmoqda (2007 yil mart).

Yong'in a chiqindilarni qayta ishlash jarayoni bu o'z ichiga oladi yonish ning organik chiqindilar tarkibidagi moddalar.[1] Chiqindilarni yoqish va boshqa yuqori haroratli tozalash tizimlari "deb ta'riflangantermik ishlov berish ". Chiqindilarni yoqish chiqindilarga aylanadi kul, chiqindi gaz va issiqlik. Kul asosan noorganik chiqindilarning tarkibiy qismlari va qattiq topaklar shaklida bo'lishi mumkin zarrachalar chiqindi gaz bilan olib boriladi. Tuman gazlari tarqalguncha gaz va zarracha zararli moddalardan tozalanishi kerak atmosfera. Ba'zi hollarda yoqish natijasida hosil bo'ladigan issiqlik hosil bo'lishi uchun ishlatilishi mumkin elektr energiyasi.

Bilan yoqish energiyani tiklash bir nechta energiya uchun chiqindilar kabi texnologiyalar gazlashtirish, piroliz va anaerob hazm qilish. Yoqish va gazlashtirish texnologiyalari printsipial jihatdan o'xshash bo'lsa-da, yoqishdan olinadigan energiya yuqori haroratli issiqlikdir, yonuvchan gaz esa ko'pincha gazlashtirishning asosiy energiya mahsulotidir. Yoqish va gazlashtirish energiya va materiallarni qayta tiklamasdan ham amalga oshirilishi mumkin.

Bir qator mamlakatlarda hali ham mutaxassislar va mahalliy hamjamiyat tomonidan yoqib yuborish zavodlarining atrof-muhitga ta'siri to'g'risida xavotirlar mavjud (qarang) yoqishga qarshi dalillar ).

Ba'zi mamlakatlarda bir necha o'n yillar oldin qurilgan yoqish zavodlarida ko'pincha a mavjud emas edi materiallarni ajratish xavfli olib tashlash uchun, katta yoki qayta ishlanadigan yonishdan oldin materiallar. Ushbu ob'ektlar gazni tozalash va yonish jarayonini nazorat qilishning etarli darajada emasligi sababli zavod ishchilarining sog'lig'i va mahalliy atrof-muhitga xavf tug'dirdi. Ushbu ob'ektlarning aksariyati elektr energiyasini ishlab chiqarmagan.

Yondirish moslamalari asl chiqindilarning qattiq massasini 80% -85% gacha kamaytiradi va ularning hajmini (allaqachon siqilgan holda) axlat tashiydigan mashinalar ) tarkibida va qayta ishlash uchun kul kabi metallar kabi materiallarning tiklanish darajasiga qarab 95% -96% gacha.[2] Bu shuni anglatadiki, yoqish to'liq o'rnini bosmaydi poligonni to'ldirish, bu utilizatsiya qilish uchun zarur hajmni sezilarli darajada kamaytiradi. Axlat tashiydigan mashinalar tez-tez yoqib yuborilgunga qadar o'rnatilgan kompressordagi chiqindilar hajmini kamaytiring. Shu bilan bir qatorda, axlatxonalarda siqilmagan axlat hajmi taxminan 70% ga kamayishi mumkin[iqtibos kerak ] muhim energiya sarfiga ega bo'lsa ham, statsionar po'lat kompressordan foydalangan holda. Ko'pgina mamlakatlarda oddiyroq chiqindilarni zichlash poligonlarda siqish uchun odatiy amaliyotdir.

Yong'inga qarshi vositalarni davolash uchun ayniqsa kuchli foyda keltiradi chiqindilar turlari yilda joy kabi sohalar klinik chiqindilar va aniq xavfli chiqindilar qayerda patogenlar va toksinlar yuqori harorat ta'sirida vayron bo'lishi mumkin. Bunga odatdagi chiqindi suv tozalash inshootiga yo'naltirib bo'lmaydigan turli xil toksik yoki juda zaharli oqava suv oqimlari bo'lgan kimyoviy ko'p mahsulotli o'simliklar kiradi.

Chiqindilarni yoqish, ayniqsa, yer kam bo'lgan Yaponiya, Singapur va Niderlandiya kabi mamlakatlarda mashhur. Daniya va Shvetsiya bir asrdan ko'proq vaqt davomida yoqish natijasida hosil bo'lgan energiyani mahalliy sharoitda ishlatib, etakchilar birgalikda issiqlik va quvvat qo'llab-quvvatlovchi inshootlar markazlashtirilgan isitish sxemalar.[3] 2005 yilda chiqindilarni yoqish natijasida Daniyada elektr energiyasining 4,8% va ichki issiqlik iste'molining 13,7% ishlab chiqarildi.[4] Evropaning bir qator boshqa mamlakatlari, asosan, maishiy chiqindilar bilan ishlash uchun asosan yoqishga tayanadi Lyuksemburg, Gollandiya, Germaniya va Frantsiya.[2]

Tarix

Manlove, Alliott & Co.Ltd. 1894 yilda buzadigan pech Kembrij texnologiya muzeyi

Chiqindilarni yo'q qilish uchun Buyuk Britaniyaning birinchi yoqish zavodlari qurildi Nottingem tomonidan Manlove, Alliott & Co.Ltd. 1874 yilda Alfred Frayer tomonidan patentlangan dizaynga. Ular dastlab sifatida tanilgan destruktorlar.[5]

Birinchi AQSh kuydirgich 1885 yilda qurilgan Gubernatorlar oroli Nyu-Yorkda, Nyu-York.[6] Chexiya Respublikasidagi birinchi inshoot 1905 yilda qurilgan Brno.[7]

Texnologiya

Yondirgich - bu o'choq yonish uchun chiqindilar. Kabi zamonaviy yoqish pechlariga ifloslanishni yumshatish uskunalari kiradi baca gazni tozalash. Yondirish moslamasini loyihalashtirishning har xil turlari mavjud: harakatlanuvchi panjara, qo'zg'almas panjara, aylanadigan pech va suyuq yotoq.[iqtibos kerak ]

Qoziqni yoqing

The qoziqni yoqish chiqindilarni yo'q qilishning eng sodda va eng qadimgi shakllaridan biri bo'lib, mohiyati ochiq erga to'plangan va olovga qo'yilgan yonuvchan materiallardan iborat uyumdan iborat.

Bog'dagi odatdagi kichkina kuyish qozig'i.

Yonayotgan qoziqlar nazoratsiz yong'inlarni tarqatishi mumkin va tarqalishi mumkin, masalan, shamol yonayotgan materialni qoziqdan atrofdagi yonuvchan o'tlarga yoki binolarga urib yuborsa. Qoziqning ichki tuzilmalari iste'mol qilinganligi sababli, qoziq siljishi va qulashi, kuyish joyini yoyishi mumkin. Hech qanday shamol bo'lmagan sharoitda ham engil yong'inli kichik cho'g'lar orqali qoziqni ko'tarib chiqishi mumkin konvektsiya va havodan o'tlar yoki binolarga o'tib, ularni yoqib yuboradi.[iqtibos kerak ] Kuyikish qoziqlari ko'pincha chiqindilarning to'liq yonishiga olib kelmaydi va shu sababli zarracha ifloslanishini keltirib chiqaradi.[iqtibos kerak ]

Barrelni yoqing

Kuydiriladigan bochka - bu metall bochkaning ichidagi yonish materialini o'z ichiga olgan va chiqindi ustidagi metall panjarani o'z ichiga olgan xususiy chiqindilarni yoqishning biroz ko'proq boshqariladigan shakli. Barrel yonayotgan materialning shamolli sharoitda tarqalishini oldini oladi va yonuvchan moddalar kamayganligi sababli ular faqat bochkaga joylashishi mumkin. Egzoz panjarasi yonayotgan kuylarning tarqalishini oldini olishga yordam beradi. Odatda 55 AQSh gallonli (210 L) po'lat barabanlar kuyikish bochkalari sifatida ishlatiladi, havo olish uchun poydevor atrofida shamollatuvchi teshiklari kesilgan yoki burg'ulangan.[8] Vaqt o'tishi bilan juda yuqori yoqish issiqligi metalning oksidlanishiga va zanglanishiga olib keladi va oxir-oqibat bochkaning o'zi issiqlik bilan iste'mol qilinadi va uni almashtirish kerak.

Quruq sellyuloza / qog'oz mahsulotlarini xususiy ravishda yoqish umuman toza bo'lib, ko'rinadigan tutun chiqarmaydi, ammo maishiy chiqindilardagi plastmassalar xususiy kuyish natijasida jamoat bezovtaligini keltirib chiqarishi mumkin, bu esa o'tkir hidlar va tutunlarni keltirib chiqaradi. Aksariyat shahar jamoalari kuyish bochkalarini taqiqlashadi va ba'zi qishloq jamoalarida ochiq yoqish taqiqlari bo'lishi mumkin, ayniqsa, bu odatiy qishloq amaliyoti bilan tanish bo'lmagan ko'plab aholining uylari.[iqtibos kerak ]

2006 yildan boshlab Qo'shma Shtatlarda xususiy qishloq xo'jaligi yoki qishloq xo'jaligi chiqindilarini oz miqdorda yoqish, odatda, boshqalarga noqulaylik tug'dirmasa, quruq sharoitda bo'lgani kabi yong'in xavfini tug'dirmasa va yong'in zich chiqmasa, ruxsat berilgan. zararli tutun. Nyu-York, Minnesota va Viskonsin singari bir nechta shtatlarda sog'liq va noqulaylik tufayli ochiq kuyishni taqiqlovchi yoki qat'iy tartibga soluvchi qonunlar yoki qoidalar mavjud.[9] Chiqindilarni yoqish niyatida bo'lgan odamlar oldindan mavjud bo'lgan yong'in xavfi va sharoitlarini tekshirish va sodir bo'ladigan boshqariladigan yong'in haqida rasmiylarni ogohlantirish uchun davlat idorasiga murojaat qilishlari talab qilinishi mumkin.[10]

Harakatlanuvchi panjara

Ikkita qozon liniyasini boshqaradigan odatiy harakatlanadigan panjara yoqish moslamasining boshqaruv xonasi

Uchun odatiy yoqish zavodi qattiq maishiy chiqindilar harakatlanuvchi panjara yoqish moslamasi. Harakatlanuvchi panjara chiqindilarni yonish kamerasi orqali harakatlanishini yanada samarali va to'liq yonishini ta'minlash uchun optimallashtirishga imkon beradi. Bitta harakatlanuvchi panjara qozoni soatiga 35 metrik tonnagacha (39 qisqa tonna) chiqindilarni qayta ishlashga qodir va yiliga 8000 soat ishlay oladi va tekshirish va texnik xizmat ko'rsatish uchun bir martagacha to'xtab turishi mumkin. Ba'zan harakatlanadigan panjara yoqish moslamalari deyiladi Qattiq chiqindilarni yoqish punktlari (MSWI).

Chiqindilar a tomonidan kiritiladi chiqindi kran panjaraning bir uchida joylashgan "tomoq" orqali, u erdan ikkinchi uchidagi kul chuquriga tushayotgan panjara bo'ylab pastga siljiydi. Bu erda kul suv qulfi orqali tozalanadi.

Soatiga 15 metrik tonna (17 qisqa tonna) chiqindilarni qayta ishlashga qodir bo'lgan harakatlanuvchi panjara yoqib yuboradigan pechning qattiq maishiy chiqindilari. Birlamchi yonish havosini etkazib beradigan panjaradagi teshiklar ko'rinadi.

Yonish havosining bir qismi (birlamchi yonish havosi) pastdan panjara orqali ta'minlanadi. Ushbu havo oqimi, shuningdek, panjarani o'zi sovutish maqsadiga ega. Sovutish panjaraning mexanik kuchi uchun muhimdir va ko'plab harakatlanuvchi panjaralar ichki suv bilan ham sovutiladi.

Ikkilamchi yonish havosi qozonga panjara ustidagi nozullar orqali yuqori tezlikda beriladi. Tuman gazlarini kiritish orqali to'liq yonishini osonlashtiradi turbulentlik yaxshi aralashtirish va kislorodning ortiqcha miqdorini ta'minlash orqali. Ko'p / pog'onali o'choq yoqish moslamalarida ikkilamchi yonish havosi birlamchi yonish kamerasining pastki qismida joylashgan alohida kameraga kiritiladi.

Evropaning fikriga ko'ra Chiqindilarni yoqish bo'yicha ko'rsatma, yoqish zavodlari tutun gazlari toksik organik moddalarning to'g'ri parchalanishini ta'minlash uchun kamida 850 ° C (1,560 ° F) haroratga 2 soniya davomida yetib boring. Bunga doimo rioya qilish uchun zaxira yordamchi burnerlarni o'rnatish kerak (ko'pincha moy bilan yonilg'i quyiladi), agar ular qozonga tushsa isitish qiymati chiqindilarning miqdori shunchaki shu haroratga etishish uchun juda past bo'ladi.

The tutun gazlari keyin sovutiladi superheaterlar, bu erda issiqlik bug'ga o'tkaziladi, bug'ni 40 bosim ostida odatda 400 ° C (752 ° F) ga qadar isitadi panjaralar (580 psi ) elektr energiyasini ishlab chiqarish uchun turbin. Ushbu nuqtada, chiqindi gazning harorati 200 ° C (392 ° F) atrofida bo'lib, unga uzatiladi chiqindi gazlarni tozalash tizimi.

Yilda Skandinaviya, rejalashtirilgan parvarishlash har doim yozda, talabga javob beradigan joyda amalga oshiriladi markazlashtirilgan isitish past. Ko'pincha, yoqish inshootlari bir nechta alohida "qozonxonalar" (qozonxonalar va tutun gazlarini tozalash inshootlari) dan iborat bo'lib, chiqindilarni bitta qozon liniyasida qabul qilish davom etishi mumkin, boshqalari esa ta'mirlash, ta'mirlash yoki yangilash jarayonida.

Ruxsat etilgan panjara

Eski va oddiyroq yoqish moslamasi g'isht bilan o'ralgan, quyi kul chuqurchasi ustidagi mahkamlangan temir panjarali xujayrasi bo'lib, yuk ko'tarish uchun tepada yoki yon tomonda, yonmaydigan qattiq moddalarni olib tashlash uchun yon tomonda boshqa teshik bor edi. klinkerlar. Ilgari ko'p qavatli uylarda topilgan ko'plab kichik yoqish moslamalari endi almashtirildi chiqindilarni zichlagichlar.[11][to'liq iqtibos kerak ]

Aylanadigan pech

The qaytib o'choq yoqish moslamasi[12] munitsipalitetlar va yirik sanoat korxonalari tomonidan ishlatiladi, bu yoqish moslamasining dizayni ikkita kameradan iborat: birlamchi va ikkilamchi kamera. Aylanadigan pechni yoqish moslamasidagi birlamchi kamera moyil refrakter astarli silindrsimon trubadan iborat. Ichki refrakter astar o'choq tuzilishini himoya qilish uchun qurbonlik qatlami bo'lib xizmat qiladi. Ushbu refrakter qatlamni vaqti-vaqti bilan almashtirish kerak.[13] Silindrning o'z o'qi bo'ylab harakatlanishi chiqindilarning harakatlanishini osonlashtiradi. Birlamchi xonada qattiq fraktsiyani gazlarga aylantirish, uchuvchanlik, distillash va qisman yonish reaktsiyalari orqali sodir bo'ladi. Ikkilamchi kamera gaz fazasining yonish reaktsiyalarini bajarish uchun zarur.

Klinkerlar silindrning uchiga to'kiladi. Baland tutunli gaz to'plami, ventilyator yoki bug 'oqimi kerakli narsalarni etkazib beradi qoralama. Panjara orqali kul tushadi, lekin ko'plab zarralar issiq gazlar bilan birga olib boriladi. Zarrachalar va har qanday yonuvchan gazlar "yonish" da yoqilishi mumkin.[14]

Suyuq yotoq

Kuchli havo oqimi qumtepadan majburan o'tkaziladi. Qum zarralari ajralib chiqadigan va aralashtirish va chayqalish sodir bo'ladigan joyga etib borguncha havo qumdan o'tib ketadi, shunday qilib suyuq yotoq yaratilgan va yoqilg'i va chiqindilar endi kiritilishi mumkin. Oldindan qayta ishlangan chiqindilar va / yoki yoqilg'isi bo'lgan qum pompalanadigan havo oqimlarida to'xtatiladi va suyuqlikka o'xshash xususiyatga ega bo'ladi. Yotoq shiddat bilan aralashtiriladi va qo'zg'aladi, mayda inert zarralar va havoni suyuqlik holatida ushlab turadi. Bu chiqindilar, yoqilg'i va qumning barcha massalarini o'choq orqali to'liq aylanishiga imkon beradi.[iqtibos kerak ]

Ixtisoslashgan yoqish moslamasi

Mebel fabrikasi talaşlarni yoqish moslamalari katta e'tiborga muhtoj, chunki ular qatronlar kukuni va ko'plab yonuvchan moddalarga ishlov berishlari kerak. Nazorat ostida yonish, kuyishning oldini olish tizimlari juda zarur, chunki to'xtatilgan chang har qanday suyuq neft gazining yong'inga qarshi hodisasiga o'xshaydi.

Issiqlikdan foydalanish

Yondirgich ishlab chiqaradigan issiqlik bug 'hosil qilish uchun ishlatilishi mumkin, keyin uni haydash uchun ishlatilishi mumkin turbin elektr energiyasini ishlab chiqarish maqsadida. Bir tonna maishiy chiqindilar uchun ishlab chiqarilishi mumkin bo'lgan aniq energiya miqdori taxminan 2/3 MVt / soat elektr energiyasi va 2 MVt / soat markazlashtirilgan isitishdir.[2] Shunday qilib, kuniga 600 metr (660 qisqa tonna) chiqindilarni yoqish kuniga 400 MVt / soat elektr energiyasini ishlab chiqaradi (17MW 24 soat davomida uzluksiz elektr energiyasi) va har kuni 1200 MVt soat issiqlik energiyasi.

Ifloslanish

Yong'inda kul va atmosferaga emissiya kabi bir qator chiqishlar mavjud chiqindi gaz. Oldin chiqindi gazlarni tozalash tizimi, agar o'rnatilgan bo'lsa, tutun gazlari bo'lishi mumkin zarrachalar, og'ir metallar, dioksinlar, furanlar, oltingugurt dioksidi va xlorid kislota. Agar o'simliklarda tutun gazini etarli darajada tozalash talab etilmasa, bu chiqindilar chiqindilarni yig'ish uchun muhim ifloslanish komponentini qo'shishi mumkin.

1997 yilda olib borilgan tadqiqotlar natijasida Delaver shtatidagi qattiq chiqindilarni boshqarish idorasi shuni aniqladiki, ishlab chiqarilgan bir xil miqdordagi energiya uchun yoqish inshootlari kamroq zarralar, uglevodorodlar va kamroq SO chiqardi.2, HCl, CO va NOx ko'mir yoqadigan elektr stantsiyalariga qaraganda, lekin tabiiy gaz bilan ishlaydigan elektr stantsiyalariga qaraganda ko'proq.[15] Ga binoan Germaniya atrof-muhit vazirligi, chiqindilarni yoqish moslamalari ko'mir yoqilg'ida ishlaydigan korxonalar ishlab chiqaradigan quvvatni chiqindilar bilan ishlaydigan zavodlarning quvvatiga almashtirish orqali ba'zi atmosfera ifloslantiruvchi moddalarining miqdorini kamaytiradi.[16]

Gaz chiqindilari

Dioksin va furanlar

Qattiq maishiy chiqindilarni yoqish bo'yicha eng ko'p tashvishlanayotgan narsa, bu uning katta miqdordagi chiqindilardan qo'rqishini o'z ichiga oladi dioksin va furan emissiya.[17] Dioksinlar va furanlar ko'pchilik tomonidan sog'liq uchun xavfli deb hisoblanadi. EPA 2012 yilda odamlarning og'iz orqali iste'mol qilishining xavfsiz chegarasi tana vazniga kilogramm uchun 0,7 pikogramma Toksik ekvivalentligi (TEQ), deb e'lon qildi.[18] bu yiliga 150 funt odam uchun grammning 17 milliarddan biriga to'g'ri keladi.

2005 yilda Germaniya Atrof-muhitni muhofaza qilish vazirligi, o'sha paytda 66 ta yoqish punkti bo'lgan, "... 1990 yilda Germaniyadagi barcha dioksin chiqindilarining uchdan bir qismi yoqish zavodlaridan kelib chiqqan bo'lsa, 2000 yil uchun bu ko'rsatkich kamroq edi 1% dan yuqori. Bacalar va faqat xususiy uy xo'jaliklarida plitka bilan ishlangan pechlar atrof-muhitga yoqish zavodlariga qaraganda taxminan 20 barobar ko'proq dioksin tashlaydi. "[16]

Ga ko'ra Qo'shma Shtatlar atrof-muhitni muhofaza qilish agentligi,[9] har bir yoqish turi uchun AQShdagi barcha ma'lum va taxmin qilingan manbalardan (nafaqat yoqish) umumiy dioksin va furan zaxiralarining yonish foizlari quyidagicha: 35,1% hovli bochkalari; 26,6% tibbiy chiqindilar; 6,3% shahar chiqindi suvlarni tozalash uchun loy; 5,9% maishiy chiqindilarni yoqish; 2.9% sanoat yog'ochni yoqish. Shunday qilib, chiqindilarning boshqariladigan yonishi umumiy dioksin zaxirasining 41,7 foizini tashkil etdi.

1987 yilda, hukumat tomonidan chiqariladigan emissiya nazorati qo'llanilishini talab qilgunga qadar, jami 8,905,1 gramm (314,12 oz) AQSh kommunal chiqindilarining yonish moslamalaridan chiqadigan dioksin chiqindilarining zaharli ekvivalenti (TEQ) mavjud edi. Bugungi kunda o'simliklarning umumiy chiqindilari yiliga 83,8 gramm (2,96 oz) TEQ ni tashkil etadi va bu 99% ga kamayadi.

Uy hovlisidagi bochkaning yonishi va bog 'chiqindilari, hali ham ba'zi qishloq joylarda ruxsat berilgan, har yili 580 gramm (20 oz) dioksin ishlab chiqaradi. US-EPA tomonidan olib borilgan tadqiqotlar[19] 1997 yilda kuniga 200 metrik tonna (220 qisqa tonna) chiqindilarni tashlaydigan yoqish zavodiga qaraganda, kuygan bochkadan foydalangan bir oila ko'proq chiqindilar ishlab chiqarganini va 2007 yilga kelib maishiy axlat chiqindilarida kimyoviy moddalar ko'paygani va shahar chiqindilaridagi chiqindilar kamayganligi sababli namoyish qildi. yaxshi texnologiyalardan foydalanish.[20]

Xuddi shu tadqiqotchilar kuygan bochka uchun dastlabki taxminlari yuqori bo'lganligini va taqqoslash uchun ishlatilgan yoqish zavodi mavjud bo'lgan har qanday inshootni emas, balki nazariy "toza" zavodni anglatishini aniqladilar. Ularning keyingi tadqiqotlari[21] kuyish bochkalari har bir funt uchun har bir funt uchun 24,95 nanogram TEQ miqdorida medyan hosil qilganligini aniqladi, shuning uchun kuniga 5 funt yoki yiliga 1825 funt yoqib yuboradigan oila yiliga jami 0,0455 mg TEQ ishlab chiqaradi va unga teng keladigan miqdor 2000 yilda AQShda EPA tomonidan ixtiro qilingan 251 ta shahar chiqindilarining 83,8 gramm (2,96 oz) uchun bochkalarni yoqish,[9] 1 841 700 ni tashkil etadi, yoki o'rtacha 7337 ta oilaviy yoqilg'i bochkalari bitta shahar chiqindilarini yoqish uchun.

AQSh dioksini chiqindilarining yaxshilanishining aksariyati yirik maishiy chiqindilarni yoqish zavodlariga to'g'ri keldi. 2000 yil holatiga ko'ra, kichik ko'lamli yoqish zavodlarida (kunlik quvvati 250 tonnadan kam bo'lganlar) yoqilgan umumiy chiqindilarning atigi 9% qayta ishlangan bo'lsa-da, ular shahar chiqindilari yonishi natijasida chiqadigan dioksin va furanlarning 83 foizini ishlab chiqardi.[9]

Dioksinning yorilish usullari va cheklovlari

Dioksinning parchalanishi molekulyar halqani etarlicha yuqori haroratga ta'sir qilishni talab qiladi, shuning uchun uni ushlab turadigan kuchli molekulyar bog'lanishlarning termal buzilishi boshlanadi. Uchuvchi kulning mayda bo'laklari biroz qalinroq bo'lishi mumkin va yuqori harorat ta'sirida qisqa vaqt ichida kul yuzasida dioksin buzilishi mumkin. Katta hajmli havo kamerasi uchun juda qisqa vaqt ta'sir qilish, chiqindi gazlarning faqat bir qismini to'liq parchalanish haroratiga etishishiga olib kelishi mumkin. Shu sababli, uchish kuli qalinligi va chiqindi gazlar hajmi orqali to'liq isitilishini ta'minlash uchun harorat ta'sirida vaqt elementi mavjud.

Haroratni yoki ta'sir qilish vaqtini oshirish o'rtasida kelishmovchiliklar mavjud. Odatda, molekulyar parchalanish harorati yuqori bo'lgan joyda, isitish uchun ta'sir qilish vaqti qisqaroq bo'lishi mumkin, ammo haddan tashqari yuqori harorat ham yoqish uskunasining aşınmasına va zararlanishiga olib kelishi mumkin. Xuddi shunday, buzilish harorati ham biron darajaga tushirilishi mumkin, ammo keyin chiqindi gazlar bir necha daqiqaga cho'zilib ketishi kerak, bu esa tozalash inshootlarining katta maydonini egallaydigan katta / uzoq tozalash xonalarini talab qiladi.

Dioksinning kuchli molekulyar aloqalarini uzilishining yon ta'siri azot gazining aloqalarini uzish potentsialidir (N2 ) va kislorodli gaz (O2 ) etkazib berish havosida. Egzoz oqimi soviganida, bu juda reaktiv ajratilgan atomlar o'z-o'zidan bog'lanishlarni reaktiv oksidlarga aylantiradi. YOQx tutun hosil bo'lishiga olib kelishi mumkin bo'lgan tutun gazida kislotali yomg'ir agar ular to'g'ridan-to'g'ri mahalliy muhitga chiqarilgan bo'lsa. Ushbu reaktiv oksidlarni qo'shimcha ravishda neytrallash kerak selektiv katalitik reduksiya (SCR) yoki selektiv katalitik bo'lmagan reduksiya (pastga qarang).

Amaliyotda dioksin yorilishi

Dioksinni parchalash uchun zarur bo'lgan haroratga, yuqorida aytib o'tilganidek, yuqori darajada dioksin chiqindilarini keltirib chiqaradigan plastmassalarni yoqib yuborilgan bochka yoki axlat chuqurida ochiq havoda yoqish paytida erishilmaydi. Plastmassa odatda ochiq havoda yonib tursa, dioksinlar yonishdan keyin qoladi yoki atmosferaga suzib kiradi yoki kul uyumiga yomg'ir tushganda er osti suvlariga tushishi mumkin bo'lgan kulda qolishi mumkin. Yaxshiyamki, dioksin va furan birikmalari qattiq yuzalar bilan juda qattiq bog'lanib, suvda erimaydi, shuning uchun yuvinish jarayonlari birinchi bir necha millimetr ostidagi kul uyumi bilan chegaralanadi. Gaz-faza dioksinlari katalizatorlar yordamida sezilarli darajada yo'q qilinishi mumkin, ularning ba'zilari mato filtri torbasi tarkibida mavjud bo'lishi mumkin.

Zamonaviy shahar yoqish inshootlari yuqori haroratli zonani o'z ichiga oladi, bu erda chiqindi gaz sovutilguncha kamida 2 soniya davomida 850 ° C dan yuqori haroratda saqlanadi. Buni har doim ta'minlash uchun ular yordamchi isitgichlar bilan jihozlangan. Ular ko'pincha neft yoki tabiiy gaz bilan ta'minlanadi va odatda vaqtning juda oz qismi uchun faol bo'ladi. Bundan tashqari, zamonaviy kuydirgichlarning aksariyati qattiq zarrachalarda yoki ularda mavjud bo'lgan dioksinlarni ushlab turadigan mato filtrlaridan foydalanadi (ko'pincha mikronli subkron zarralarini ko'paytirish uchun teflon membranalari bilan).

Juda kichik shahar yoqish moslamalari uchun yuqori haroratli elektr isitish elementi va dioksinning issiqlik bilan parchalanishi uchun kerakli haroratga erishish mumkin selektiv katalitik reduksiya bosqich.

Dioksinlar va furanlar yonish natijasida vayron bo'lishi mumkin bo'lsa-da, ularni "de novo sintezi" deb nomlanuvchi jarayon bilan isloh qilish, emissiya gazlari soviganida, uzoq yashash sharoitida saqlanadigan yuqori yonish harorati bo'lgan o'simliklarning emissiya stakalarida o'lchanadigan dioksinlarning ehtimoliy manbai hisoblanadi. marta.[9]

CO2

Boshqa to'liq yonish jarayonlariga kelsak, chiqindilar tarkibidagi uglerodning deyarli barchasi CO sifatida ajralib chiqadi2 atmosferaga. MSW tarkibida uglerodning CO bilan bir xil massa ulushi mavjud2 o'zi (27%), shuning uchun 1 tonna MSW yoqilganda taxminan 1 tonna CO hosil bo'ladi2.

Agar chiqindilar bo'lsa ko'milgan, 1 tonna MSW taxminan 62 kubometr (2200 kub fut) ishlab chiqaradi. metan orqali anaerob parchalanishi biologik parchalanadigan chiqindilarning bir qismi. Beri global isish salohiyati metan 34 va 25 daraja metan 62 kub metr vazni Tselsiy 40,7 kg, bu CO 1,38 tonna tengdir2, bu CO ning 1 tonnasidan ko'p2 yoqish orqali ishlab chiqarilgan bo'lar edi. Ba'zi mamlakatlarda katta miqdordagi chiqindixonadagi gaz yig'iladi. Hali ham atmosferaga chiqadigan chiqindi gazining global isishi salohiyati katta. AQShda 1999 yilda chiqindi gaz chiqindilarining global isishi potentsiali CO miqdoridan taxminan 32% yuqori bo'lganligi taxmin qilingan.2 bu yoqish orqali chiqarilgan bo'lar edi.[22] Ushbu tadqiqotdan beri metan uchun global isish potentsiali bahosi 21 dan 35 gacha oshirildi, bu faqat bitta chiqindilarni yoqish bilan taqqoslaganda GWP ta'sirini deyarli uch baravar oshirishi mumkin edi.

Bundan tashqari, deyarli barcha biologik parchalanadigan chiqindilar biologik kelib chiqishga ega. Ushbu material atmosfera CO ishlatadigan o'simliklar tomonidan hosil qilingan2 odatda oxirgi vegetatsiya davrida. Agar bu o'simliklar qayta tiklanadigan CO bo'lsa2 ularning yonishidan chiqadigan atmosferadan yana bir marta chiqariladi.[iqtibos kerak ]

Bunday mulohazalar bir nechta mamlakatlarning biologik parchalanadigan chiqindilarni yoqib yuborishini boshqaradigan asosiy sababdir qayta tiklanadigan energiya.[23] Qolganlari - asosan plastmassa va boshqa neft va gazdan olinadigan mahsulotlar - odatda shunday qabul qilinadi qayta tiklanmaydigan.

CO uchun turli xil natijalar2 turli xil taxminlar bilan yoqish iziga erishish mumkin. Mahalliy sharoitlar (masalan, mahalliy isitishning cheklangan talablari, qazib olinadigan yoqilg'ining o'rnini bosadigan elektr energiyasi yo'qligi yoki chiqindi oqimidagi alyuminiyning yuqori darajasi)2 Metodologiya va boshqa taxminlar natijalarga sezilarli ta'sir ko'rsatishi mumkin. Masalan, keyinroq paydo bo'ladigan chiqindixonalardan chiqadigan metan chiqindilariga e'tibor berilmasligi yoki ozroq vazn berilishi yoki biologik parchalanadigan chiqindilar CO hisoblanmasligi mumkin2 neytral. Eunomia Research and Consulting tomonidan 2008 yilda Londonda chiqindilarni qayta ishlashning potentsial texnologiyalari bo'yicha o'tkazilgan tadqiqotlar shuni ko'rsatdiki, ulardan bir nechtasini (mualliflarning fikriga ko'ra) odatiy bo'lmagan taxminlarni qo'llash orqali CO mavjud bo'lgan o'rtacha yoqish zavodlari yomon ishlashga muvaffaq bo'ldi.2 boshqa paydo bo'layotgan chiqindilarni tozalash texnologiyalarining nazariy salohiyati bilan taqqoslaganda.[24]

Boshqa chiqindilar

Yondirgich pechlaridan chiqadigan chiqindi gazidagi boshqa gazsimon chiqindilar kiradi azot oksidlari, oltingugurt dioksidi, xlorid kislota, og'ir metallar va mayda zarralar. Og'ir metallardan simob uning toksikligi va yuqori o'zgaruvchanligi sababli katta tashvish tug'diradi, chunki chiqindilar nazorati ostida olib tashlanmasa, asosan shahar chiqindilaridagi barcha simob chiqindilar tarkibida chiqishi mumkin.[25]

The bug ' baca ichidagi tarkib stekdan ko'rinadigan tutun hosil qilishi mumkin, bu esa a deb qabul qilinishi mumkin vizual ifloslanish. Bug'ni kamaytirish orqali bunga yo'l qo'ymaslik mumkin chiqindi gaz kondensatsiyasi va qayta isitish, yoki chiqindi gazining chiqish haroratini uning shudring nuqtasidan ancha yuqori bo'lishi bilan. Baca gazining kondensatsiyasi suvning bug'lanishining yashirin issiqligini tiklashga imkon beradi va keyinchalik bu o'simlikning issiqlik samaradorligini oshiradi.[iqtibos kerak ]

Baca gazini tozalash

Ichidagi elektrodlar elektr cho'ktiruvchi

Yoqish zavodlaridan chiqadigan chiqindi gazidagi ifloslantiruvchi moddalar miqdori o'simlikka qarab bir necha jarayonlar bilan kamayishi yoki kamaytirilishi mumkin.

Zarrachalar tomonidan yig'iladi zarrachalarni filtrlash, ko'pincha elektrostatik cho'kmalar (ESP) va / yoki baghouse filtrlari. Ikkinchisi odatda yig'ish uchun juda samarali mayda zarralar. Tomonidan olib borilgan tergovda Daniya atrof-muhit vazirligi 2006 yilda Daniyaning 16 ta yoqish zavodidan yoqib yuborilgan chiqindilarning energiya tarkibiga o'rtacha zarracha chiqindilari 2,02 g / GJ dan kam bo'lgan (yoqilgan chiqindilarning energiya tarkibiga gramm). O'lchamlari 2,5 dan past bo'lgan mayda zarrachalarni batafsil o'lchovlarimikrometrlar (Bosh vazir2.5 ) uchta yoqish moslamasida amalga oshirildi: zarralarni filtrlash uchun ESP bilan jihozlangan bitta yoqish moslamasi, 5,3 g / GJ mayda zarrachalar chiqardi, shu bilan birga 0,002 va 0,013 g / GJ PM nurli filtrlar bilan jihozlangan ikkita yoqish moslamalari.2.5. Ultra mayda zarralar uchun (PM)1.0), raqamlar 4.889 g / GJ PM ni tashkil etdi1.0 ESP zavodidan, chiqindi gaz esa 0,000 va 0,008 g / GJ PM1.0 baghouse filtrlari bilan jihozlangan o'simliklardan o'lchandi.[26][27]

Kislota gazi skrubberlar olib tashlash uchun ishlatiladi xlorid kislota, azot kislotasi, gidroflorik kislota, simob, qo'rg'oshin va boshqalar og'ir metallar. Chiqarish samaradorligi o'ziga xos uskunalar, chiqindilarning kimyoviy tarkibi, zavod dizayni, reagentlar kimyosi va muhandislarning ushbu sharoitlarni optimallashtirish qobiliyatiga bog'liq bo'ladi, bu esa har xil ifloslantiruvchi moddalar uchun ziddiyatga olib kelishi mumkin. Masalan, nam skrubberlar yordamida simobni olib tashlash tasodifiy hisoblanadi va 50% dan kam bo'lishi mumkin.[25] Asosiy tozalash vositalarini olib tashlash oltingugurt dioksidi, shakllantirish gips bilan reaksiya orqali Laym.[28]

Yuvib chiqadigan chiqindi suv keyinchalik chiqindi suv tozalash inshootidan o'tishi kerak.[iqtibos kerak ]

Oltingugurt dioksidi quruq holda ham tozalanishi mumkin desulfurizatsiya in'ektsiya yo'li bilan ohaktosh atala zarrachalarni filtrlashidan oldin tutun gaziga.[iqtibos kerak ]

YOQx yoki tarkibidagi ammiak bilan katalitik reduksiya bilan kamayadi katalitik konvertor (selektiv katalitik reduksiya, SCR) yoki pechda ammiak bilan yuqori haroratli reaktsiya (selektiv katalitik bo'lmagan reduksiya, SNCR). Karbamid kamaytiruvchi reagent sifatida ammiak bilan almashtirilishi mumkin, ammo u ammiakga gidrolizlanib ketishi uchun uni oldinroq etkazib berish kerak. Karbamidni almashtirish suvsiz ammiakni saqlash bilan bog'liq xarajatlarni va mumkin bo'lgan xavflarni kamaytirishi mumkin.[iqtibos kerak ]

Og'ir metallar ko'pincha adsorbsiyalangan AOK qilingan faol uglerod zarrachalarni filtrlash orqali yig'iladigan chang.[iqtibos kerak ]

Qattiq chiqishlar

An bortida yoqish moslamasining ishlashi samolyot tashuvchisi

Yong'in ishlab chiqaradi uchib ketadigan kul va pastki kul xuddi ko'mir yoqilganda bo'lgani kabi. Qattiq maishiy chiqindilarni yoqish natijasida hosil bo'ladigan kulning umumiy miqdori hajmi bo'yicha 4% dan 10% gacha va asl miqdordagi og'irlikning 15-20% gacha,[2][29] va uchuvchi kul umumiy kulning taxminan 10-20% ni tashkil qiladi.[2][29] Uchib ketadigan kul, pastki kulga qaraganda salomatlikka ko'proq xavf tug'diradi, chunki uchuvchi kul tarkibida ko'pincha qo'rg'oshin kabi og'ir metallarning yuqori konsentratsiyasi mavjud, kadmiy, mis va rux shuningdek oz miqdordagi dioksinlar va furanlar.[30] Pastki kul tarkibida kamdan-kam hollarda og'ir metallar mavjud. Hozirgi vaqtda yoqish operatorlari guruhi tomonidan sinovdan o'tgan ba'zi bir tarixiy namunalar ekotoksik mezonlarga javob berishi mumkin bo'lsa-da, hozirgi kunda EA sinov dasturlari tugaguniga qadar yoqib yuboradigan pastki kullarni "xavfli emas" deb hisoblashga "kelishib oldik".[iqtibos kerak ]

Boshqa ifloslanish muammolari

Hidi ifloslanish eski uslubdagi kuydirgichlarda muammo bo'lishi mumkin, ammo yangi yoqish zavodlarida hid va chang juda yaxshi nazorat qilinadi. Ular chiqindilarni yopiq joyda qabul qiladilar va saqlaydilar, bu havo oqimi bilan o'tadigan havo oqimi bilan salbiy bosim bilan yoqimsiz hidlar atmosferaga qochishdan. Tadqiqot shuni ko'rsatdiki, Sharqiy Xitoyda yoqish zavodidagi eng kuchli hid uning chiqindilarni tashish portida paydo bo'lgan.[31]

Jamiyat munosabatlariga ta'sir qiladigan masala - bu yo'l harakati kuchayishi chiqindilarni yig'ish vositalari maishiy chiqindilarni yoqish uchun tashish uchun. Shu sababli, yoqish zavodlarining aksariyati sanoat hududlarida joylashgan. Chiqindilarni uzatish stantsiyalaridan temir yo'l orqali tashish orqali ushbu muammoning oldini olish mumkin.[iqtibos kerak ]

Sog'liqni saqlashga ta'siri

Ilmiy tadqiqotchilar chiqindilarni yoqish natijasida hosil bo'ladigan ifloslantiruvchi moddalarning inson sog'lig'iga ta'sirini o'rganishdi. Ko'pgina tadqiqotlar zararli moddalar ta'sirida sog'liqqa ta'sirini o'rganib chiqdi AQSh EPAni modellashtirish bo'yicha ko'rsatmalar.[32][33] Nafas olish, yutish, tuproq va teri bilan aloqa qilish orqali ta'sir qilish ushbu modellarga kiritilgan. Ilmiy tadqiqotlar, shuningdek, chiqindilarni yoqish zavodlari yonida yashovchi aholi va ishchilarning qon yoki siydik namunalari orqali ifloslantiruvchi moddalarga ta'sirini baholadi.[32][34] A dan topilgan natijalar muntazam ravishda ko'rib chiqish avvalgi tadqiqotlar natijasida yoqish moslamasining ifloslanishi bilan bog'liq bir qator alomatlar va kasalliklar aniqlangan. Bularga neoplaziya,[32] nafas olish muammolari,[35] tug'ma anomaliyalar,[32][35][36] va go'daklarning o'limi yoki tushishi.[32][36] Qadimgi, etarlicha saqlanmagan yoqib yuborish moslamalari yaqinidagi aholi salomatligi bilan bog'liq muammolarni boshdan kechirmoqda.[32][35][36] Ba'zi tadkikotlar, shuningdek, mumkin bo'lgan saraton xavfini aniqladi.[36] Shu bilan birga, yoqish moslamasining ifloslanishini sanoat, avtotransport va qishloq xo'jaligining ifloslanishidan ajratishdagi qiyinchiliklar ushbu xulosalarni sog'liq uchun xavfini cheklaydi.[32][34][35][36]

Ko'plab jamoalar chiqindilarni yoqish texnologiyasini takomillashtirish yoki olib tashlashni qo'llab-quvvatladilar. Azot dioksidining yuqori darajasi kabi ifloslantiruvchi moddalarning o'ziga xos ta'sirlari, nafas olish muammolari bo'yicha shoshilinch tibbiy yordamga tashriflar sonining ko'payishi bilan bog'liq jamoatchilik shikoyatlarida keltirilgan.[37][38] Chiqindilarni yoqish texnologiyasining sog'liqqa ta'sir qilishi mumkin bo'lgan ta'sirlari, xususan, allaqachon nomutanosib sog'liq yuklariga duch kelgan jamoalarda joylashganligi haqida e'lon qilindi.[39] Masalan, Wheelabratorni yoqish moslamasi Merilend shtatining Baltimor shahrida asosan kam ta'minlangan, rang-barang odamlar yashaydigan qo'shni hamjamiyatida astma darajasi oshgani sababli tekshirildi.[39] Jamiyat tomonidan olib borilgan sa'y-harakatlar, ifloslanish haqidagi real vaqtda ma'lumotlarning etishmasligini bartaraf etish uchun kelgusida tadqiqotlar o'tkazish zarurligini taklif qildi.[38][39] Ushbu manbalar, shuningdek, yoqishning sog'liqqa ta'sirini yaxshiroq aniqlash uchun akademik, hukumat va notijorat sherikliklarga ehtiyoj borligini ta'kidladi.[38][39]

Munozara

Yondirgichlardan foydalanish chiqindilarni boshqarish munozarali. Olov yoqish bo'yicha munozaralar, odatda, ishbilarmonlik manfaatlarini (chiqindilarni ishlab chiqaruvchi va yoqib yuboradigan firmalarning vakillari), hukumat nazorati organlari, atrof-muhit faollari va mahalliy fuqarolarni o'z ichiga oladi, ular mahalliy sanoat faoliyatining iqtisodiy jozibasini sog'liq va ekologik xavf bilan bog'liq muammolari bilan solishtirishlari kerak.

Ushbu masala bilan professional ravishda shug'ullanadigan odamlar va tashkilotlar quyidagilarni o'z ichiga oladi AQSh atrof-muhitni muhofaza qilish agentligi va dunyo bo'ylab havo sifatini nazorat qiluvchi ko'plab mahalliy va milliy agentliklar.

Yong'in uchun argumentlar

Kehrichtverbrennungsanlage Syurxer Oberland (KEZO) Shveytsariyaning Xinvil shahrida
  • Sog'likka ta'siri bilan bog'liq tashvishlar dioksin va furan emissiya nazorati dizaynidagi yutuqlar va juda qattiq yangi hukumat qoidalari tufayli chiqindilar sezilarli darajada kamaydi, natijada dioksinlar va furanlar chiqindilari miqdori sezilarli darajada kamaytirildi.[16]
  • Buyuk Britaniya Sog'liqni saqlash agentligi 2009 yilda "Zamonaviy, yaxshi boshqariladigan kuydirgichlar havoni ifloslantiruvchi moddalarning mahalliy kontsentratsiyasiga ozgina hissa qo'shadi. Ehtimol, bunday kichik qo'shimchalar sog'liqqa ta'sir qilishi mumkin, ammo bunday ta'sirlar, agar ular mavjud bo'lsa, ehtimol juda kichik va aniqlanmaydi. "[40]
  • Yong'inga qarshi inshootlar elektr energiyasi va issiqlik energiyasini ishlab chiqarishi mumkin, bu esa mintaqaviy elektr va markazlashtirilgan isitish sanoat mijozlari uchun tarmoq va bug 'etkazib berish. Yondirgichlar va boshqa chiqindilarni energiya bilan ishlaydigan zavodlar kamida qisman biomassaga asoslangan qayta tiklanadigan energiyani ishlab chiqaradi, bu esa ko'mir, neft va gaz bilan ishlaydigan elektr stantsiyalarining issiqxona gazlari ifloslanishini qoplaydi.[41] E.U. yoqish zavodlari tomonidan biogen chiqindilardan (biologik kelib chiqishi bo'lgan chiqindilar) hosil bo'lgan energiyani chiqindilar chegarasi ostida qazib olinmaydigan qayta tiklanadigan energiya deb hisoblaydi. Issiqxona gazining kamaytirilishi poligon metanidan saqlanish natijasida hosil bo'lganlarga qo'shimcha ravishda.
  • Yonishdan keyin qolgan quyi kul qoldig'i xavfli bo'lmagan chiqindilar ekanligi isbotlangan, ular xavfsiz tarzda chiqindixonalarga solinishi yoki qurilish agregati sifatida qayta ishlanishi mumkin. Namunalar ekotoksik metallarga tekshiriladi.[42]
  • Aholi zich joylashgan joylarda qo'shimcha chiqindixonalar uchun joy topish tobora qiyinlashmoqda.
  • Friedensreich Hundertwasser tomonidan ishlab chiqilgan Osakadagi Maishima chiqindilarni qayta ishlash markazi elektr energiyasini ishlab chiqarish uchun issiqlikdan foydalanadi.
    Nozik zarralar bilan tutun chiqadigan gazlardan samarali ravishda olib tashlanishi mumkin baghouse filtrlari. Even though approximately 40% of the incinerated waste in Denmark was incinerated at plants with no baghouse filters, estimates based on measurements by the Danish Environmental Research Institute showed that incinerators were only responsible for approximately 0.3% of the total domestic emissions of particulate smaller than 2.5mikrometrlar (Bosh vazir2.5 ) to the atmosphere in 2006.[26][27]
  • Incineration of municipal solid waste avoids the release of metan. Every ton of MSW incinerated, prevents about one ton of carbon dioxide equivalents from being released to the atmosphere.[22]
  • Most municipalities that operate incineration facilities have higher recycling rates than neighboring cities and countries that do not send their waste to incinerators.[43][tekshirib bo'lmadi ]. In a country overview from 2016 [44] by the European Environmental Agency the top recycling performing countries are also the ones having the highest penetration of incineration, even though all material recovery from waste sent to incineration (e.g. metals and construction aggregate) is per definition emas counted as recycling in European targets. The recovery of glass, stone and ceramic materials reused in construction, as well as ferrous and in some cases non-ferrous metals recovered from combustion residue thus adds further to the actual recycled amounts.[45] Metals recovered from ash would typically be difficult or impossible to recycle through conventional means, as the removal of attached combustible material through incineration provides an alternative to labor- or energy-intensive mechanical separation methods.
  • Volume of combusted waste is reduced by approximately 90%, increasing the life of landfills. Ash from modern incinerators is vitrified at temperatures of 1,000 °C (1,830 °F) to 1,100 °C (2,010 °F), reducing the leachability and toxicity of residue. As a result, special landfills are generally no longer required for incinerator ash from municipal waste streams, and existing landfills can see their life dramatically increased by combusting waste, reducing the need for municipalities to site and construct new landfills.[46][47]

Arguments against incineration

Ishdan chiqarilgan Kwai Chung Incineration Plant from 1978. It was demolished by February 2009.
  • The Scottish Protection Agency's (SEPA) comprehensive health effects research concluded "inconclusively" on health effects in October 2009. The authors stress, that even though no conclusive evidence of non-occupational health effects from incinerators were found in the existing literature, "small but important effects might be virtually impossible to detect". The report highlights epidemiological deficiencies in previous UK health studies and suggests areas for future studies.[48] Buyuk Britaniya Sog'liqni saqlash agentligi produced a lesser summary in September 2009.[40] Many toxicologists criticise and dispute this report as not being comprehensive epidemiologically, thin on peer review and the effects of fine particle effects on health.[iqtibos kerak ]
  • The highly toxic uchib ketadigan kul must be safely disposed of. This usually involves additional waste miles and the need for specialist toxic waste landfill elsewhere. If not done properly, it may cause concerns for local residents.[49][50]
  • The health effects of dioksin va furan emissions from old incinerators; especially during start up and shut down, or where filter bypass is required continue to be a problem.[iqtibos kerak ]
  • Incinerators emit varying levels of heavy metals such as vanadiy, marganets, xrom, nikel, mishyak, simob, lead and kadmiy, which can be toxic at very minute levels.
  • Incinerator Bottom Ash (IBA) has elevated levels of heavy metals with ekotoksiklik concerns if not reused properly. Some people have the opinion that IBA reuse is still in its infancy and is still not considered to be a mature or desirable product, despite additional engineering treatments. Concerns of IBA use in Foam Concrete have been expressed by the UK Health and Safety Executive in 2010 following several construction and demolition explosions. In its guidance document, IBA is currently banned from use by the UK Highway Authority in concrete work until these incidents have been investigated.[51]
  • Alternative technologies are available or in development such as mexanik biologik tozalash, anaerob hazm qilish (MBT/AD), avtoklavlash yoki mechanical heat treatment (MHT) using steam or plazma yoyini gazlashtirish (PGP), which is incineration using electrically produced extreme high temperatures, or combinations of these treatments.[iqtibos kerak ]
  • Erektsiya of incinerators compete with the development and introduction of other emerging technologies. A UK government WRAP report, August 2008 found that in the UK median incinerator costs per ton were generally higher than those for MBT treatments by £18 per metrik tonna; and £27 per metric ton for most modern (post 2000) incinerators.[52][53]
  • Building and operating waste processing plants such as incinerators requires long contract periods to recover initial investment costs, causing a long-term lock-in. Incinerator lifetimes normally range from 25–30 years. This was highlighted by Peter Jones, OBE, the Mayor of London's waste representative in April 2009.[54]
  • Incinerators produce fine particles in the furnace. Even with modern particle filtering of the flue gases, a small part of these is emitted to the atmosphere. Bosh vazir2.5 is not separately regulated in the European Chiqindilarni yoqish bo'yicha ko'rsatma, even though they are repeatedly correlated spatially to infant mortality in the UK (M. Ryan's ONS data based maps around the EfW/CHP waste incinerators at Edmonton, Coventry, Chineham, Kirklees and Sheffield).[55][56][57] Under WID there is no requirement to monitor stack top or downwind incinerator PM2.5 darajalar.[58][yaxshiroq manba kerak ] Several European doctors associations (including cross discipline experts such as physicians, environmental chemists and toxicologists) in June 2008 representing over 33,000 doctors wrote a keynote statement directly to the European Parliament citing widespread concerns on incinerator particle emissions and the absence of specific fine and ultrafine particle size monitoring or in depth industry/government epidemiological studies of these minute and invisible incinerator particle size emissions.[59]
  • Local communities are often opposed to the idea of locating waste processing plants such as incinerators in their vicinity (the Not in My Back Yard hodisa). O'qish Andover, Massachusets correlated 10% property devaluations with close incinerator proximity.[60]
  • Oldini olish, chiqindilarni minimallashtirish, qayta ishlatmoq va qayta ishlash of waste should all be preferred to incineration according to the chiqindi ierarxiyasi. Ning tarafdorlari nol chiqindilar consider incinerators and other waste treatment technologies as barriers to qayta ishlash and separation beyond particular levels, and that waste resources are sacrificed for energy production.[61][62][63]
  • A 2008 Eunomia report found that under some circumstances and assumptions, incineration causes less CO2 reduction than other emerging EfW va CHP technology combinations for treating residual mixed waste.[24] The authors found that CHP incinerator technology without waste recycling ranked 19 out of 24 combinations (where all alternatives to incineration were combined with advanced waste recycling plants); being 228% less efficient than the ranked 1 Advanced MBT maturation technology; or 211% less efficient than plasma gasification/autoclaving combination ranked 2.
  • Some incinerators are visually undesirable. In many countries they require a visually intrusive chimney stack.[iqtibos kerak ]
  • If reusable waste fractions are handled in waste processing plants such as incinerators in developing nations, it would cut out viable work for local economies. It is estimated that there are 1 million people making a livelihood off collecting waste.[64]
  • The reduced levels of emissions from municipal waste incinerators and waste to energy plants from historical peaks are largely the product of the proficient use of emission control technology. Emission controls add to the initial and operational expenses. It should not be assumed that all new plants will employ the best available control technology if not required by law.[iqtibos kerak ]
  • Waste that has been deposited on a landfill can be mined even decades and centuries later, and recycled with future technologies – which is not the case with incineration.

Trends in incinerator use

Tarixi qattiq maishiy chiqindilar (MSW) incineration is linked intimately to the history of axlatxonalar va boshqalar waste treatment technology. The merits of incineration are inevitably judged in relation to the alternatives available. Since the 1970s, recycling and other prevention measures have changed the context for such judgements. Since the 1990s alternative waste treatment technologies have been maturing and becoming viable.

Incineration is a key process in the treatment of hazardous wastes and clinical wastes. It is often imperative that medical waste be subjected to the high temperatures of incineration to destroy patogenlar va zaharli contamination it contains.

Incineration in North America

The first incinerator in the U.S. was built in 1885 on Governors Island in New York.[65]In 1949, Robert C. Ross founded one of the first hazardous waste management companies in the U.S. He began Robert Ross Industrial Disposal because he saw an opportunity to meet the hazardous waste management needs of companies in northern Ohio. In 1958, the company built one of the first hazardous waste incinerators in the U.S.[66]

The first full-scale, municipally operated incineration facility in the U.S. was the Arnold O. Chantland Resource Recovery Plant built in 1975 in Ames, Ayova. The plant is still in operation and produces chiqindi yoqilg'isi that is sent to local power plants for fuel.[67] The first commercially successful incineration plant in the U.S. was built in Saugus, Massachusets, in October 1975 by Wheelabrator Technologies, and is still in operation today.[29]

There are several environmental or waste management corporations that transport ultimately to an incinerator or cement kiln treatment center. Currently (2009), there are three main businesses that incinerate waste: Clean Harbours, WTI-Heritage, and Ross Incineration Services. Clean Harbours has acquired many of the smaller, independently run facilities, accumulating 5–7 incinerators in the process across the U.S. WTI-Heritage has one incinerator, located in the southeastern corner of Ogayo shtati across the Ohio River from West Virginia.[iqtibos kerak ]

Several old generation incinerators have been closed; of the 186 MSW incinerators in 1990, only 89 remained by 2007, and of the 6200 medical waste incinerators in 1988, only 115 remained in 2003.[68]No new incinerators were built between 1996 and 2007.[iqtibos kerak ] The main reasons for lack of activity have been:

  • Iqtisodiyot. With the increase in the number of large inexpensive regional landfills and, up until recently, the relatively low price of electricity, incinerators were not able to compete for the 'fuel', i.e., waste in the U.S.[iqtibos kerak ]
  • Tax policies. Tax credits for plants producing electricity from waste were rescinded in the U.S. between 1990 and 2004.[iqtibos kerak ]

There has been renewed interest in incineration and other waste-to-energy technologies in the U.S. and Canada. In the U.S., incineration was granted qualification for renewable energy production tax credits 2004 yilda.[69] Projects to add capacity to existing plants are underway, and municipalities are once again evaluating the option of building incineration plants rather than continue landfilling municipal wastes. However, many of these projects have faced continued political opposition in spite of renewed arguments for the greenhouse gas benefits of incineration and improved air pollution control and ash recycling.

Incineration in Europe

In Europe, with the ban on landfilling untreated waste,[70] scores of incinerators have been built in the last decade, with more under construction. Recently, a number of municipal governments have begun the process of contracting for the construction and operation of incinerators. In Europe, some of the electricity generated from waste is deemed to be from a 'Renewable Energy Source (RES) and is thus eligible for tax credits if privately operated. Also, some incinerators in Europe are equipped with waste recovery, allowing the reuse of ferrous and non-ferrous materials found in landfills. A prominent example is the AEB Waste Fired Power Plant.[71][72]

In Sweden, about 50% of the generated waste is burned in waste-to-energy facilities, producing electricity and supplying local cities' district heating systems.[73] The importance of waste in Sweden's electricity generation scheme is reflected on their 2,700,000 tons of waste imported per year (in 2014) to supply waste-to-energy facilities.[74]

Incineration in the United Kingdom

Asosiy maqola: List of incinerators in the UK

The technology employed in the UK waste management industry has been greatly lagging behind that of Europe due to the wide availability of landfills. The Poligonga oid ko'rsatma set down by the Yevropa Ittifoqi led to the Government of the United Kingdom imposing waste legislation shu jumladan landfill tax va Poligonlarni ajratish bilan savdo qilish sxemasi. This legislation is designed to reduce the release of greenhouse gases produced by landfills through the use of alternative methods of waste treatment. It is the UK Government's position that incineration will play an increasingly large role in the treatment of municipal waste and supply of energy in the UK.[iqtibos kerak ]

In 2008, plans for potential incinerator locations exists for approximately 100 sites. These have been interactively mapped by UK NGO's.[75][76][77][78]

Under a new plan in June 2012, a DEFRA-backed grant scheme (The Farming and Forestry Improvement Scheme) was set up to encourage the use of low-capacity incinerators on agricultural sites to improve their bio security.[79]

A permit has recently been granted[80] for what would be the UK's largest waste incinerator in the centre of the Cambridge – Milton Keynes – Oxford corridor, yilda Bedfordshir. Following the construction of a large incinerator at Greatmoor in Bukingemshir, and plans to construct a further one near Bedford,[81] the Cambridge – Milton Keynes – Oxford corridor will become a major incineration hub in the UK.

Incineration Units for emergency use

Mobile incineration unit for emergency use

Emergency incineration systems exist for the urgent and biosecure disposal of animals and their by-products following a mass mortality or disease outbreak. An increase in regulation and enforcement from governments and institutions worldwide has been forced through public pressure and significant economic exposure.

Contagious animal disease has cost governments and industry $200 billion over 20 years to 2012 and is responsible for over 65% of infectious disease outbreaks worldwide in the past sixty years. One-third of global meat exports (approx 6 million tonnes) is affected by trade restrictions at any time and as such the focus of Governments, public bodies and commercial operators is on cleaner, safer and more robust methods of animal carcass disposal to contain and control disease.

Large-scale incineration systems are available from niche suppliers and are often bought by governments as a safety net in case of contagious outbreak. Many are mobile and can be quickly deployed to locations requiring biosecure disposal.

Small incinerator units

An example of a low capacity, mobile incinerator

Small-scale incinerators exist for special purposes. For example, the small-scale[82] incinerators are aimed for hygienically safe destruction of medical waste in rivojlanayotgan davlatlar. Small incinerators can be quickly deployed to remote areas where an outbreak has occurred to dispose of infected animals quickly and without the risk of cross contamination.[iqtibos kerak ]

Ommabop ommaviy axborot vositalarida

  • Yilda Kub nol, fictional so-called "flash Incinerators" exist, which essentially vaporize anything organic.
  • Incinerators make an appearance in SimCity 3000 in two varieties: a large, traditional combustion device that spews out a significant amount of air pollution, and a more modern device that converts the waste into energy to power the city with a bigger capacity to load the garbage, though still producing a lot of pollution.[iqtibos kerak ]
  • Ular shuningdek, tashqi ko'rinishga ega SimCity 4, but without the non-energy-from-waste variant.
  • An annual metal festival called Incineration Fest is held in the UK.
  • Ning eng yuqori cho'qqisida Portal (video o'yin), the main protagonist, Chell, while on a conveyor belt, escapes an incinerator, after the game's main antagonist, GLaDOS, forced her into it.[iqtibos kerak ]
  • Ning avj nuqtasi O'yinchoqlar tarixi 3 features a scene where the working of a moving-grate incinerator (and of a garbage shredder ) was shown from the inside as the protagonists face destruction.[iqtibos kerak ]

Shuningdek qarang

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Tashqi havolalar

Anti-incineration groups
EU information
O'quv qo'llanmalari