Qayta ishlash - Recycling - Wikipedia

Ushbu maqola chiqindilarni qayta ishlashga bag'ishlangan. Chiqindi energiyasini qayta ishlash uchun qarang Energiyani qayta ishlash.
"Qayta ishlangan" yo'naltirishlar. Albomlar uchun qarang Qayta ishlangan (Merzbow albomi) va Qayta ishlangan (Nektar albomi).

Xalqaro chiqindilarni qayta ishlash logotipining uchta ta'qib qiluvchi o'qi
Maishiy chiqindilarni qayta ishlash darajasi (%), 2015 yil

Qayta ishlash konvertatsiya qilish jarayoni chiqindilar yangi materiallar va narsalarga materiallar. The chiqindi materiallardan energiya olish ko'pincha ushbu tushunchaga kiritilgan. Materialning qayta ishlanishi, uning bokira yoki asl holatidagi xususiyatlarini qayta tiklash qobiliyatiga bog'liq.[1] Bu "an'anaviy" chiqindilarni yo'q qilishning alternativi bo'lib, ular materialni tejashga yordam beradi va pastlikni pasayishiga yordam beradi issiqxona gazi emissiya. Qayta ishlash potentsial foydali materiallar isrof bo'lishining oldini oladi va yangi xom ashyo iste'molini kamaytiradi va shu bilan kamayadi: energiyadan foydalanish, havoning ifloslanishi (dan yoqish ) va suvning ifloslanishi (dan poligonni to'ldirish ).

Qayta ishlash zamonaviy chiqindilarni kamaytirishning asosiy tarkibiy qismidir va "Kamaytirish, Qayta ishlatmoq va qayta ishlash " chiqindi ierarxiyasi.[2][3] Shunday qilib, qayta ishlash xom ashyo manbalarini almashtirish va iqtisodiy tizimdan chiqindilarni qayta yo'naltirish orqali atrof-muhit barqarorligini ta'minlashga qaratilgan.[4] Ba'zi birlari bor ISO plastik chiqindilar uchun ISO 15270: 2008 kabi qayta ishlash bilan bog'liq standartlar va ISO 14001: Qayta ishlash amaliyotini atrof-muhitni boshqarish nazorati uchun 2015 yil.

Qayta ishlanadigan materiallar ko'p turdagi shisha, qog'oz, karton, metall, plastmassa, shinalar, to'qimachilik buyumlari, batareyalar va elektronika. The kompostlash yoki boshqa foydalanish biologik parchalanadigan chiqindilar -kabi ovqat yoki bog 'chiqindilari - bu shuningdek, qayta ishlashning bir shakli.[5] Qayta ishlashga mo'ljallangan materiallar yoki maishiy chiqindilarni qayta ishlash markaziga etkazib beriladi yoki yo'l chetidagi qutilaridan olinadi, so'ngra saralanadi, tozalanadi va yangi mahsulot ishlab chiqarishga mo'ljallangan yangi materiallarga qayta ishlanadi.

Qattiq ma'noda, materialni qayta ishlash bir xil materialning yangi zaxirasini keltirib chiqaradi - masalan, ishlatilgan ofis qog'ozi yangi ofis qog'oziga aylantirilishi yoki ishlatilishi mumkin polistirol ko'pikni yangi polistirolga aylantiradi. Bu mahsulot tarkibidagi tozaligini yo'qotmasdan, cheksiz ravishda qayta-qayta bankaga aylanib ketishi mumkin bo'lgan metall qutilar kabi ba'zi turdagi materiallarni qayta ishlashda amalga oshiriladi.[6] Biroq, bu ko'pincha qiyin yoki juda qimmat (bir xil mahsulotni xom ashyo yoki boshqa manbalardan ishlab chiqarish bilan taqqoslaganda), shuning uchun ko'plab mahsulot yoki materiallarni "qayta ishlash" ularning tarkibiga kiradi qayta ishlatmoq turli xil materiallar ishlab chiqarishda (masalan, karton ) o'rniga. Qayta ishlashning yana bir shakli bu qutqarish murakkab mahsulotlardan ma'lum materiallarning ichki qiymati tufayli (masalan, qo'rg'oshin kabi) avtomobil akkumulyatorlari, yoki oltin bosilgan elektron platalar ), yoki ularning xavfli tabiati tufayli (masalan, olib tashlash va qayta ishlatish) simob dan termometrlar va termostatlar ).

Tarix

Kelib chiqishi

Qayta ishlash insoniyat tarixining aksariyat qismida odatiy hol bo'lib kelgan Aflotun miloddan avvalgi to'rtinchi asrda.[iqtibos kerak ] Qadimgi chiqindixonalarni arxeologik tadqiqotlar natijasida resurslar kam bo'lgan va qiyin bo'lgan davrlarda maishiy chiqindilar kamroq bo'lgan (masalan, kul, singan asboblar va sopol idishlar) - yangi materiallar bo'lmaganda ko'proq chiqindilar qayta ishlanar edi.[7]

Yilda sanoatgacha bo'lgan Evropada bronza va boshqa metallarning qoldiqlari to'planib, doimiy ravishda qayta ishlatish uchun eritilganligi haqida dalillar mavjud.[8] Qog'ozni qayta ishlash birinchi marta 1031 yilda yapon do'konlarida qayta ishlangan qog'oz sotilganda qayd etilgan.[9][10] Britaniyada o'tin va ko'mir yong'inlaridan chang va kul yig'ildi "changchilar "va downcycled g'isht tayyorlashda ishlatiladigan asosiy material sifatida. Ushbu turdagi qayta ishlashning asosiy qo'zg'atuvchisi bokiralikni olish o'rniga qayta ishlangan xomashyo olishning iqtisodiy afzalligi, shuningdek, aholi zichroq bo'lgan joylarda jamoat chiqindilarini olib tashlamasligidir.[7] 1813 yilda, Benjamin qonuni lattalarni "ga aylantirish jarayonini ishlab chiqdipishiq "va"mungo "jun, Batley, Yorkshire. Ushbu material qayta ishlangan tolalarni bokira bilan birlashtirdi jun.[11] The G'arbiy Yorkshir Batli va Dyuusberi kabi shaharlarda zamonaviy sanoat 19-asrning boshlaridan kamida 1914 yilgacha davom etdi.

Sanoatlashtirish arzon materiallarga bo'lgan talabni kuchaytirdi; lattalardan tashqari, qora hurda metallar bokira javhariga qaraganda arzonroq bo'lganligi sababli orzu qilingan. Temir yo'llar 19-asrda ham metallolom sotib olgan va sotgan, 20-asrning boshlarida esa o'sib borayotgan po'lat va avtomobilsozlik sanoati. Ko'plab ikkilamchi mahsulotlar yig'ilgan, qayta ishlangan va sotilgan savdogarlar tomonidan tashlab yuborilgan texnika, qozon, idish va boshqa metall manbalar uchun axlatxonalarni va shahar ko'chalarini aylanib chiqdilar. By Birinchi jahon urushi, minglab bunday savdogarlar bozor kuchlaridan foydalanib, iste'moldan keyingi materiallarni sanoat ishlab chiqarishiga qayta ishlash uchun bozor kuchlaridan foydalanganlar.[12]

Ichimlik idishlari Buyuk Britaniya va Irlandiyadagi ba'zi ichimliklar ishlab chiqaruvchilarida 1800 yil atrofida qaytarib beriladigan depozit bilan qayta ishlangan, xususan Shveppes.[13] Qaytarilishi mumkin bo'lgan rasmiy qayta ishlash tizimi depozitlar Shvetsiyada 1884 yilda butilkalar va 1982 yilda alyuminiy ichimliklar idishlari uchun tashkil etilgan; qonun turiga qarab ichimlik idishlari uchun 84-99 foizni qayta ishlash stavkasini keltirib chiqardi va shisha butilkani o'rtacha 20 martadan ko'proq to'ldirish mumkin.[14]

Urush vaqti

Amerika afishasi Ikkinchi jahon urushi
Britaniya afishasi Ikkinchi jahon urushi
Ichkaridagi temir panjaralarning qoldiqlari York Whip-Ma-Whop-Ma-Gate. Bunday jamoat mulki to'siqlari temir uchun arralgan va qayta ishlangan Ikkinchi jahon urushi.

19-asr oxirida yaratilgan yangi kimyo sanoati ikkalasi ham yangi materiallarni ixtiro qildi (masalan. Bakalit (1907 yilda) va behuda narsalarni qimmatbaho materiallarga aylantirishga va'da bergan. Maqol bilan aytganda, siz qila olmadingiz cho'chqaning qulog'idan ipak hamyon yarating - AQShning Artur D. Little firmasi 1921 yilda nashr etilgan "Sovunlarning qulog'idan ipak hamyonlar yasash to'g'risida" nashr etilganiga qadar, uning tadqiqotlari "kimyo kombinezon kiyib, ish boshlaganda [...] yangi qadriyatlar paydo bo'lishini isbotladi. Yangi va istalgan maqsadlarga erishish uchun yaxshiroq yo'llar ochiladi. "[15]

Qayta ishlash (yoki "qutqarish", u odatda ma'lum bo'lgan) butun hukumatlar uchun asosiy muammo edi Ikkinchi jahon urushi. Urush harakatlaridan kelib chiqqan holda moliyaviy cheklovlar va jiddiy moddiy tanqislik mamlakatlar uchun tovarlarni qayta ishlatish va materiallarni qayta ishlashga majbur qildi.[16] Ushbu resurslarning etishmasligi jahon urushlari va boshqa dunyoni o'zgartiradigan bunday hodisalar qayta ishlashni juda rag'batlantirdi.[17] Urush kurashlari mavjud bo'lgan ko'plab moddiy resurslarni talab qilib, tinch aholi uchun ozgina mablag 'qoldirdi.[16] Aksariyat uylar uchun chiqindilarni qayta ishlash zarur bo'ldi, chunki qayta ishlash odamlar uchun mavjud bo'lgan narsalardan maksimal darajada foydalanishga imkon beradigan qo'shimcha materiallar manbasini taklif qildi. Uy-ro'zg'or buyumlarini qayta ishlash urush uchun ko'proq mablag 'va g'alaba qozonish uchun ko'proq imkoniyat degani edi.[16] Kabi hukumatning katta targ'ibot kampaniyalari, masalan Milliy qutqarish kampaniyasi Britaniyada va G'alaba uchun qutqarish Amerika Qo'shma Shtatlaridagi kampaniya, amalga oshirildi uyning old qismi har bir jangovar millatda, vatanparvarlik masalasida fuqarolarni metall, qog'oz, latta va kauchukni berishga chaqirish.

Ikkinchi jahon urushidan keyin

Qayta ishlashga katta mablag 'sarflanishi 1970-yillarda energiya narxining ko'tarilishi sababli sodir bo'lgan.[18] Alyuminiyni qayta ishlash bokira ishlab chiqarish uchun zarur bo'lgan energiyaning atigi 5 foizini sarflaydi; shisha, qog'oz va boshqa metallar unchalik ta'sirchan emas, ammo qayta ishlangan xomashyo ishlatilganda energiya tejashga imkon beradi.[19]

Televizor kabi maishiy elektronika 1920-yillardan beri ommalashgan bo'lsa-da, ularni qayta ishlash 1991 yil boshigacha deyarli eshitilmagan edi.[20] Birinchi elektron chiqindilarni qayta ishlash sxemasi Shveytsariyada qadimgi muzlatgichlarni yig'ishdan boshlangan, ammo asta-sekin barcha qurilmalarni qamrab oladigan darajada kengaytirilgan.[21] Ushbu sxemalar tuzilgandan so'ng, ko'pgina mamlakatlar ular tomonidan ishlab chiqarilgan elektron chiqindilarning ko'pligi yoki uning xavfli tabiati bilan ishlashga qodir emasdilar. Ular muammoni rivojlanayotgan mamlakatlarga ekologik qonunchiliksiz eksport qilishni boshladilar. Bu arzonroq, chunki Qo'shma Shtatlarda kompyuter monitorlarini qayta ishlash Xitoyga qaraganda 10 baravar qimmatga tushadi. Osiyoda elektron chiqindilarga bo'lgan talab qayta ishlash jarayonida chiqindixonalar mis, kumush, temir, kremniy, nikel va oltin kabi qimmatbaho moddalarni qazib olishlari mumkinligini aniqlagandan so'ng o'sa boshladi.[22] 2000-yillarda elektron qurilmalar savdosi va ularning chiqindilar oqimi sifatida o'sishi sezilarli darajada oshdi: 2002 yilda elektron chiqindilar Evropa Ittifoqidagi boshqa har qanday chiqindilarga qaraganda tezroq o'sdi.[23] Bu zamonaviy, avtomatlashtirilgan ob'ektlarga sarmoyalarni ortiqcha jihozlar oqimini engish uchun sabab bo'ldi, ayniqsa 2003 yilda qat'iy qonunlar qabul qilingandan keyin.[24][25][26][27]

2014 yildan boshlab Yevropa Ittifoqi chiqindilarni qayta ishlash va qayta ishlash sanoatining dunyodagi ulushining 50% ga yaqini bo'lgan, 60 mingdan ortiq kompaniyalar 500 ming kishini ish bilan ta'minlagan, ularning tovar aylanmasi 24 mlrd.[28] Mamlakatlar qayta ishlash stavkalarini kamida 50% ga etkazishlari kerak, etakchi mamlakatlar esa 65% atrofida va Evropa Ittifoqi o'rtacha 2013 yilga nisbatan 39% ni tashkil etdi.[29]Evropa Ittifoqining o'rtacha ko'rsatkichi barqaror o'sib bormoqda, 2015 yilda 45% gacha.[30][31]

Birlashgan Millatlar Tashkilotining Bosh Assambleyasi 2015 yilda 17 ta Barqaror rivojlanish maqsadlarini belgilab berdi. Maqsad 12 Mas'ul iste'mol va ishlab chiqarish "barqaror iste'mol va ishlab chiqarish tartibini ta'minlash" dir va 11 ta maqsaddan iborat.[32] Beshinchi nishon, Maqsad 12.5, 2030 yilga kelib chiqindilarni ishlab chiqarishni Milliy qisqartirish stavkasi bilan ko'rsatilgan darajada qisqartirishi bilan belgilanadi.

2018 yilda qayta ishlash bozoridagi o'zgarishlar ushbu sohada global "inqiroz" ni keltirib chiqardi. 2017 yil 31-dekabr kuni Xitoy "Milliy qilich "siyosat, qayta ishlashga yaroqli materiallar importining yangi standartlarini belgilash va juda" iflos "yoki" xavfli "deb hisoblangan materiallarni taqiqlash. Yangi siyosat jahon bozorida qayta ishlash sohasida keskin uzilishlarga olib keldi va plastik parchalari va past navli qog'ozlarning narxlarini pasaytirdi. 1. G7 mamlakatlaridan Xitoyga qayta ishlanadigan materiallar eksporti keskin pasayib ketdi, aksariyat eksport eksporti Osiyodagi janubi-sharqdagi mamlakatlarga to'g'ri keldi. Inqiroz qayta ishlash sanoatining amaliyoti va ekologik barqarorligi to'g'risida jiddiy tashvish tug'dirdi. Keskin siljish mamlakatlarni qayta ishlashga yaroqli materiallarni qabul qilishiga olib keldi. ular iqtisodiy jihatdan rivojlangan mamlakatlardan chiqindilarni qayta ishlash bo'yicha atrof-muhitni muhofaza qilish qoidalari kam bo'lgan mamlakatlarga etkazib berish bo'yicha asosiy savollarni tug'dirishi mumkin edi - bu inqirozdan oldin bo'lgan amaliyot edi.[33]

Qonunchilik

Ta'minot

Qayta ishlash dasturining ishlashi uchun katta, barqaror ta'minot qayta ishlanadigan material juda muhimdir. Bunday ta'minotni yaratish uchun uchta qonunchilik variantidan foydalanilgan: qayta ishlashni majburiy yig'ish, konteyner depozitlari to'g'risidagi qonun hujjatlari va taqiqlarni rad etish. Majburiy yig'ish to'g'risidagi qonunlar shaharlarni qayta ishlash maqsadlarini belgilab qo'ydi, odatda belgilangan kunga qadar materialning ma'lum bir qismi shahar chiqindilaridan chiqib ketishi kerak. Keyinchalik shahar ushbu maqsadga erishish uchun ishlash uchun javobgardir.[5]

Konteyner depozitlari to'g'risidagi qonunchilik, odatda shisha, plastmassa va metall kabi ba'zi idishlarni qaytarish uchun pulni qaytarishni taklif qilishni o'z ichiga oladi. Bunday konteynerdagi mahsulot sotib olinsa, narxiga ozgina qo'shimcha to'lov qo'shiladi. Ushbu qo'shimcha to'lov iste'molchi tomonidan qaytarib olinishi mumkin, agar konteyner yig'ish punktiga qaytarilsa. Ushbu dasturlar muvaffaqiyatli bo'ldi, natijada ko'pincha 80 foiz qayta ishlash darajasi yuzaga keldi.[34] Bunday yaxshi natijalarga qaramay, yig'ish xarajatlarining mahalliy hokimiyatdan sanoat va iste'molchilar tomon o'zgarishi ba'zi sohalarda bunday dasturlarning yaratilishiga qarshi bo'lgan.[5] Buning o'zgarishi shundaki, ishlab chiqaruvchi o'z tovarlarini qayta ishlash uchun javobgar bo'ladi. Evropa Ittifoqida WEEE Direktivasi maishiy elektronika ishlab chiqaruvchilaridan qayta ishlash vositalarining xarajatlarini qoplashni talab qiladi.[35]

Qayta ishlab chiqariladigan materiallarni etkazib berishni ko'paytirishning muqobil usuli bu taqiqlash ko'pincha ishlatilgan yog ', eski batareyalar, shinalar va bog' chiqindilarini o'z ichiga olgan ba'zi materiallarni chiqindilar sifatida yo'q qilish. Ushbu usulning maqsadlaridan biri taqiqlangan mahsulotlarni to'g'ri yo'q qilish uchun samarali iqtisodiyotni yaratishdir. Ushbu qayta ishlashga etarlicha ehtiyot bo'lish kerak xizmatlar mavjud bo'lsa, yoki bunday taqiqlar shunchaki ko'payishiga olib keladi noqonuniy tashlanish.[5]

Hukumat tomonidan topshirilgan talab

Qonunchilik, shuningdek, qayta ishlangan materiallarga bo'lgan talabni oshirish va ta'minlash uchun ishlatilgan. Bunday qonunchilikning to'rtta usuli mavjud: qayta ishlanadigan minimal miqdordagi mandatlar, foydalanish koeffitsientlari, xaridlar siyosat va qayta ishlangan mahsulot yorlig'i.[5]

Minimal qayta ishlangan tarkibga oid mandatlar ham, ulardan foydalanish stavkalari ham talabni to'g'ridan-to'g'ri ishlab chiqaruvchilarni o'z faoliyatiga qayta ishlashni qo'shishga majbur qilish orqali oshiradi. Tarkibiy mandatlar yangi mahsulotning ma'lum bir qismi qayta ishlangan materialdan iborat bo'lishi kerakligini belgilaydi. Ishlatish stavkalari yanada moslashuvchan variantdir: sanoat tarmoqlariga qayta ishlash maqsadlariga o'zlarining istalgan nuqtalarida ishlashga ruxsat beriladi yoki hatto savdo kreditlari evaziga qayta ishlash shartnomasi tuziladi. Ushbu ikkala usulga qarshi bo'lganlar, ular qo'yadigan hisobot talablarining katta o'sishiga ishora qilmoqdalar va ular sanoatni kerakli egiluvchanlikni talon-taroj qilmoqdalar.[5][36]

Hukumatlar o'zlaridan foydalanganlar sotib olish qobiliyati "xarid qilish siyosati" deb ataladigan narsa orqali qayta ishlashga bo'lgan talabni oshirish. Ushbu qoidalar yoki "qayta tiklanganlar", faqat qayta ishlangan mahsulotlarga sarflanadigan mablag'larning ma'lum miqdorini saqlaydi yoki "narxlarni afzal ko'rish" dasturlarini taklif qiladi. byudjet qayta ishlangan buyumlar sotib olinayotganda. Qo'shimcha qoidalar muayyan holatlarga qaratilgan bo'lishi mumkin: masalan, Qo'shma Shtatlarda Atrof muhitni muhofaza qilish agentligi iloji boricha qayta ishlangan yoki qayta ishlangan manbalardan yog ', qog'oz, shinalar va bino izolyatsiyasini sotib olishga majbur qiladi.[5]

Talabning ortishi bo'yicha davlat tomonidan amalga oshiriladigan yakuniy tartibga solish - bu qayta ishlangan mahsulot yorlig'i. Ishlab chiqaruvchilardan mahsulotdagi qayta ishlangan materiallar miqdori bilan (shu jumladan, qadoqlash bilan) o'z qadoqlarini belgilash talab etilsa, iste'molchilar bilimdon tanlov qilish imkoniyatiga ega bo'ladilar. Iste'molchilar etarli kuch sotib olish keyinchalik ko'proq ekologik jihatdan tanlangan variantlarni tanlashi mumkin, ishlab chiqaruvchilarni o'z mahsulotlarida qayta ishlanadigan material miqdorini ko'paytirishni talab qiladi va bilvosita talabni oshiradi. Qayta ishlashning standartlashtirilgan yorlig'i, shuningdek, mahsulotni qanday va qayerda qayta ishlash mumkinligi to'g'risida ma'lumotni o'z ichiga olgan bo'lsa, qayta ishlangan mahsulotlarni etkazib berishga ijobiy ta'sir ko'rsatishi mumkin.[5]

Qayta ishlangan buyumlar

Shisha faqat bitta turdagi pivo shishasini maydalash orqali tiklandi

"Qayta ishlash" - bu chiqindilarni qayta ishlash zavodiga yoki materiallarni qayta ishlash zavodiga yuboriladigan va qayta ishlanadigan xom ashyo bo'lib, u yangi mahsulotlarni ishlab chiqarish uchun ishlatiladi.[37] Materiallar turli usullar bilan to'planib, yangi materiallar yoki mahsulotlar ishlab chiqarishda ishlatilishi uchun qayta ishlanadigan ob'ektga etkaziladi. Masalan, plastik butilkalar to'plangan narsalarni qayta ishlatish va yangi mahsulot - plastik granulalar qilish mumkin.[38]

Qayta ishlash sifati

Qayta ishlangan mahsulotlarning sifati yashil iqtisodiyotning uzoq muddatli istiqbolini ko'rish va chiqindilarni nolga etkazish uchun hal qilinishi kerak bo'lgan asosiy muammolardan biri sifatida tan olingan. Qayta ishlash sifati, odatda, maqsadsiz material va boshqa qayta ishlanmaydigan materiallar miqdori bilan taqqoslaganda, xom ashyoning qancha qismi maqsadli materialdan iboratligini anglatadi.[39] Masalan, po'lat va metall yuqori qayta ishlash sifatiga ega materiallardir. Hisob-kitoblarga ko'ra, ishlab chiqarilgan barcha po'latlarning uchdan ikki qismi qayta ishlangan po'latdir.[40] Faqatgina maqsadli material qayta ishlanishi mumkin, shuning uchun maqsadga muvofiq bo'lmagan va qayta ishlanmaydigan materialning yuqori miqdori qayta ishlash mahsuloti miqdorini kamaytiradi.[39] Maqsadga ega bo'lmagan va qayta ishlanmaydigan materiallarning yuqori qismi qayta ishlov beruvchilar uchun "yuqori sifatli" qayta ishlashga erishishni qiyinlashtirishi mumkin. Agar qayta ishlash sifatsiz bo'lsa, u past velosipedda yoki o'ta og'ir holatlarda qutqaruvning boshqa variantlariga yuborilishi yoki chiqindi tashlanishi ehtimoli yuqori.[39] Masalan, tiniq shisha mahsulotlarini qayta ishlab chiqarishni osonlashtirish uchun rangli shishaning qayta eritish jarayoniga o'tishi uchun qat'iy cheklovlar mavjud. Yana bir misol - bu plastmassadan pastga ishlov berish, plastik oziq-ovqat mahsuloti kabi mahsulotlar ko'pincha past sifatli mahsulotlarga aylantiriladi va bir xil plastik oziq-ovqat mahsulotlariga qayta ishlanmaydi.

Qayta ishlash sifati nafaqat yuqori sifatli qayta ishlashni qo'llab-quvvatlaydi, balki mahsulotlarni kamaytirish, qayta ishlatish va chiqindixonalardan tashqarida saqlash orqali atrof-muhitga katta foyda keltirishi mumkin.[39] Yuqori sifatli qayta ishlash yig'ilgan chiqindilarning iqtisodiy qiymatini maksimal darajada oshirish orqali iqtisodiyotning o'sishini qo'llab-quvvatlashga yordam beradi.[39] Sifatli qayta ishlangan mahsulotlarni sotishdan olinadigan yuqori daromad darajasi mahalliy hokimiyat, uy xo'jaliklari va korxonalar uchun muhim bo'lishi mumkin bo'lgan qiymatni qaytarishi mumkin.[39] Yuqori sifatli qayta ishlashni izlash iste'molchilar va ishbilarmonlarning chiqindilar va resurslarni boshqarish sohasiga bo'lgan ishonchini ta'minlashi va ushbu sohaga sarmoyalarni jalb qilishi mumkin.

Qayta ishlash ta'minoti zanjiri bo'ylab qayta ishlangan materialning sifatiga ta'sir qilishi va ta'sir qilishi mumkin bo'lgan ko'plab harakatlar mavjud.[41] Bu maqsadga muvofiq bo'lmagan va qayta ishlanmaydigan chiqindilarni qayta ishlash kollektsiyasiga joylashtiradigan chiqindilar ishlab chiqaruvchilardan boshlanadi. Bu oxirgi qayta ishlash oqimlarining sifatiga ta'sir qilishi yoki qayta ishlash jarayonining keyingi bosqichlarida ushbu materiallarni yo'q qilish bo'yicha qo'shimcha harakatlarni talab qilishi mumkin.[41] Turli xil yig'ish tizimlari turli darajadagi ifloslanishlarga olib kelishi mumkin. Qaysi materiallar birgalikda to'planganiga qarab, ushbu materialni alohida oqimlarga qayta saralash uchun qo'shimcha harakatlar talab etiladi va yakuniy mahsulot sifatini sezilarli darajada pasaytirishi mumkin.[41] Tashish va materiallarning zichlashi materialni alohida chiqindilar oqimiga ajratishni qiyinlashtirishi mumkin. Qayta ishlash sifatini yo'qotishi mumkin bo'lgan texnologiya va qayta ishlangan sifat yaxshilanganiga qaramay, saralash moslamalari materiallarni ajratishda yuz foiz samarali emas.[41] Mahsulot ho'l bo'lib ketishi mumkin bo'lgan materiallarni tashqarida saqlash, qayta ishlov beruvchilarga muammo tug'dirishi mumkin. Qayta ishlash inshootlari maqsadsiz va qayta ishlanmaydigan materiallar miqdorini yanada kamaytirish uchun qo'shimcha saralash bosqichlarini talab qilishi mumkin.[41] Qayta ishlash yo'lidagi har bir harakat qayta ishlash sifatida muhim rol o'ynaydi.

Qayta ishlashning sifatli rejasi (Shotlandiya)

Shotlandiyaning qayta ishlash sifati rejasida bir qator tavsiya etilgan harakatlar belgilangan Shotlandiya hukumati eksport qilinmasdan yoki qayta ishlash bozoriga sotilishidan oldin materiallarni qayta ishlash korxonalarida qayta ishlash va saralash uchun yig'iladigan materiallarning sifatini oshirish uchun oldinga o'tishni xohlayman.[41]

Rejaning vazifalari quyidagilardan iborat:[42]

  • Qayta ishlash sifatini oshiring
  • Qayta ishlash sifatiga nisbatan ko'proq shaffoflikni ta'minlang
  • Materiallarni qayta ishlash korxonalari bilan shartnoma tuzganlarga, ulardan talab qilinadigan narsalarni aniqlashda yordam bering
  • Chiqindilarni (Shotlandiya) 2012 qoidalariga muvofiqligini ta'minlash
  • Sifatli qayta ishlash uchun uy bozorini rag'batlantirish
  • Chiqindilarni jo'natish qoidalari bilan bog'liq muammolarni hal qilish va kamaytirish

Reja uchta asosiy yo'nalishga qaratilgan bo'lib, to'plangan, saralangan va Shotlandiyadagi qayta ishlash bozoriga taqdim etilayotgan materiallar sifatini oshirish bo'yicha o'n to'rtta tadbir belgilandi.[42]

Uch yo'nalish quyidagilar:[41]

  • To'plash tizimlari va kirning ifloslanishi
  • Saralash vositalari - materiallardan namuna olish va shaffoflik
  • Materiallarning sifat ko'rsatkichlari va standartlari

Iste'molchilar chiqindilarini qayta ishlash

To'plam

In temir yo'l stantsiyasida uch tomonlama axlat qutisi Germaniya, qog'ozni ajratish uchun mo'ljallangan (chapda) va plastik qoplamalar (o'ngda) boshqa chiqindilardan (orqaga)

Umumiy chiqindilar oqimidan chiqindilarni yig'ish uchun bir qator turli xil tizimlar amalga oshirildi. Ushbu tizimlar jamoatchilik uchun qulaylik va hukumatning qulayligi va xarajatlari o'rtasidagi savdo-sotiq spektri bo'ylab yotadi. To'plamning uchta asosiy toifasi - "tushirish markazlari", "sotib olish markazlari" va "chekka yig'ish".[5] Qayta ishlash narxining taxminan uchdan ikki qismi yig'ish bosqichida amalga oshiriladi.[43]

Yo'l chetidagi to'plam

Asosiy maqola: Yo'l chetidagi to'plam
Tarkibini yig'adigan qayta ishlovchi yuk mashinasi qayta ishlash qutisi yilda Kanberra, Avstraliya
Ajratilgan axlat idishlarini ichkariga bo'shatish Tomaszow Mazowiecki, Polsha

Yo'l chetidagi kollektsiya ko'pgina turli xil tizimlarni o'z ichiga oladi, ular asosan qayta ishlash joylari saralangan va tozalangan joyda farqlanadi. Asosiy toifalar - aralash chiqindilarni yig'ish, qayta ishlanadigan materiallar va manbalarni ajratish.[5] A chiqindilarni yig'ish vositasi umuman chiqindilarni yig'ib oladi.

Spektrning bir uchida aralash chiqindilar yig'iladi, unda barcha qayta ishlanmalar qoldiqlarning qolgan qismi bilan aralashtirilgan holda yig'iladi va kerakli material saralanib markaziy saralash joyida tozalanadi. Bu juda ko'p miqdordagi qayta ishlanadigan chiqindilarni, ayniqsa qog'ozni qayta ishlash uchun juda ifloslangan bo'lishiga olib keladi, ammo uning afzalliklari ham bor: shahar qayta ishlangan materiallarning alohida to'plami uchun pul to'lamaydi va xalq ta'limi zarur emas. Qayta ishlashga yaroqli bo'lgan har qanday o'zgarishlarni qabul qilish oson, chunki barcha saralash markaziy joyda amalga oshiriladi.[5]

Uchrashuvda yoki bitta oqim tizimi, yig'ish uchun barcha qayta ishlanadigan materiallar aralashtiriladi, ammo boshqa chiqindilardan alohida saqlanadi. Bu to'plamdan keyin tozalashga bo'lgan ehtiyojni sezilarli darajada kamaytiradi, ammo talab qiladi xalq ta'limi qanday materiallar bo'yicha qayta ishlashga yaroqli.[5][8]

Manba ajratish

Manba ajratish boshqa ekstremaldir, bu erda har bir material yig'ishdan oldin tozalanadi va saralanadi. Ushbu usul to'plamdan keyin eng kam saralashni talab qiladi va eng toza qayta ishlangan moddalarni ishlab chiqaradi, ammo qo'shimcha narsalarga olib keladi operatsion xarajatlar har bir alohida materialni yig'ish uchun. Keng qamrovli xalq ta'limi dasturi ham talab qilinadi, agar u qayta ishlansa muvaffaqiyatli bo'lishi kerak ifloslanish oldini olish kerak.[5] Yilda Oregon, AQSh, uning atrof-muhitni muhofaza qilish bo'yicha vakili Oregon DEQ ko'p xonadonli mulk menejerlari o'rtasida so'rov o'tkazdi va ularning taxminan yarmi muammolarni, shu jumladan buzg'unchilar tufayli qayta ishlanadigan moddalarni ifloslanishini bildirdi vaqtinchalik yig'ish joylariga kirish huquqini olish.[44]

Birlashtirilgan (aralash chiqindilarni) yig'ish uchun sarflanadigan saralash xarajatlari yuqori bo'lganligi sababli, manbalarni ajratish afzal usul edi. Biroq, saralash texnologiyasining rivojlanishi bu qo'shimcha xarajatlarni sezilarli darajada pasaytirdi. Manbalarni ajratish dasturlarini ishlab chiqqan ko'plab sohalar o'sha vaqtdan beri ushbu nomga o'tdilar birgalikda aralashgan to'plam.[8]

Xarid qilish markazlari

Orqaga sotiladigan avtomat Tomaszow Mazowiecki shahrida, Polsha

Qayta sotib olish markazlari tozalangan qayta ishlanmalar sotib olinishi bilan ajralib turadi, shu bilan foydalanishga aniq rag'bat beradi va barqaror ta'minotni yaratadi. Keyinchalik qayta ishlangan materialni sotish mumkin. Agar bu foydali bo'lsa, bu issiqxona gazlari chiqindilarini tejaydi; foydasiz bo'lsa, u issiqxona gazlari chiqindilarini ko'paytiradi. Sotib olish markazlarini hayotga tatbiq etiladigan korxonaga aylantirish uchun davlat subsidiyalari zarur. 1993 yilda AQSh ma'lumotlariga ko'ra Chiqindilarni qayta ishlash va qayta ishlash milliy assotsiatsiyasi, bir tonna materialni qayta ishlash uchun o'rtacha 50 dollar turadi, uni 30 dollarga qayta sotish mumkin.[5]

AQShda aralash qayta ishlanadigan tonnaning qiymati 2011 yilda 180 dollarni, 2015 yilda 80 dollarni va 2017 yilda 100 dollarni tashkil etdi.[45]

2017 yilda shisha asosan befoyda, chunki uning asosiy tarkibiy qismi qumning arzonligi; past neft xarajatlari plastik qayta ishlashga xalaqit beradi.[45]

2017 yilda, Napa, Kaliforniya qayta ishlashga sarflangan xarajatlarning taxminan 20 foizini qoplagan.[45]

Tushirish markazlari

Chiqib ketish markazlari chiqindilarni ishlab chiqaruvchidan qayta ishlangan mahsulotlarni o'rnatilgan joyga yoki ko'chma yig'ish stantsiyasiga yoki qayta ishlash zavodining o'ziga markaziy joyga olib borishini talab qiladi. Ular yaratishning eng oson turi, ammo past va oldindan aytib bo'lmaydigan samaradorlikdan aziyat chekmoqda.

Tarqatilgan qayta ishlash

Plastmassa kabi ba'zi chiqindi materiallar uchun so'nggi texnik qurilmalar chaqirildi qayta ishlash botlari[46] tarqatilgan qayta ishlash shaklini yoqish. Dastlabki hayot aylanishini tahlil qilish (LCA) shuni ko'rsatadiki, bunday taqsimlangan qayta ishlash HDPE filament yasash 3D printerlar qishloq joylarda transport energiyasining pasayishi sababli bokira qatronidan foydalanish yoki an'anaviy qayta ishlash jarayonlari uchun energetik jihatdan qulaydir.[47][48]

Tartiblash

Qayta ishlashni saralash ob'ekti va jarayonlari videosi

Qayta ishlangan qayta ishlanmalar yig'ilib, a ga etkazib berilgandan keyin materiallarni qayta tiklash vositasi, har xil turdagi materiallarni saralash kerak. Bu bir necha bosqichda amalga oshiriladi, ularning aksariyati avtomatlashtirilgan jarayonlarni o'z ichiga oladi, chunki yuk mashinasi materiallari bir soatdan kam vaqt ichida to'liq saralanishi mumkin.[8] Ba'zi o'simliklar endi materiallarni avtomatik ravishda saralashi mumkin bitta oqim bilan qayta ishlash. Avtomatik saralashga robototexnika va mashinasozlik yordam berishi mumkin.[49][50] O'simliklarda turli xil materiallar, masalan, qog'oz, turli xil plastmassalar, shisha, metallar, oziq-ovqat qoldiqlari va aksariyat batareyalar kabi saralanadi.[51] Qayta ishlash stavkalarining 30 foizga o'sishi ushbu o'simliklar mavjud bo'lgan hududlarda kuzatilgan.[52] Qo'shma Shtatlarda 300 dan ortiq materiallarni qayta tiklash inshootlari mavjud.[53]

Dastlab, muomalada bo'lgan qayta ishlanmalar yig'ish vositasidan olib tashlanadi va bir qatlamga yoyilgan konveyer lentasiga joylashtiriladi. Ning katta qismlari gofrirovka qilingan tolalar plitasi va polietilen paketlar Ushbu bosqichda qo'l bilan olib tashlanadi, chunki ular keyinchalik mashinalarning tiqilib qolishiga olib kelishi mumkin.[8]

Qayta ishlanadigan materiallarni erta saralash: shisha va plastik butilkalar Polsha.

Keyinchalik, disk ekranlari va havo klassifikatorlari kabi avtomatlashtirilgan uskunalar qayta ishlangan moddalarni og'irligi bo'yicha ajratib, engilroq qog'oz va plastmassani og'irroq shisha va metalldan ajratib turadi. Karton aralash qog'ozdan va eng keng tarqalgan plastik turlaridan olinadi, UY HAYVONI (# 1) va HDPE (# 2), yig'iladi. Ushbu ajratish odatda qo'l bilan amalga oshiriladi, ammo ba'zi saralash markazlarida avtomatlashtirilgan: a spektroskopik skaner so'rilgan to'lqin uzunliklari asosida har xil qog'oz va plastmassa turlarini farqlash uchun ishlatiladi va keyinchalik har bir materialni kerakli yig'ish kanaliga yo'naltiradi.[8] Plastmassalar farqlari tufayli bir-biriga mos kelmaydi kimyoviy tarkibi. The polimer molekulalar yog 'va suvga o'xshash aralashtirish o'rniga bir-birini qaytaradi. [54]

Ajratish uchun kuchli magnitlardan foydalaniladi qora metallar kabi temir, po'lat va qalay qutilari. Rangli metallar magnit bilan chiqariladi quduq oqimlari unda aylanuvchi magnit maydon keltirib chiqaradi alyuminiy qutilar atrofidagi elektr toki, bu esa o'z navbatida qutilar ichida magnitlangan oqim hosil qiladi. Bu magnit oqim oqimi katta magnit maydon bilan qaytariladi va qutilar qayta ishlangan oqimning qolgan qismidan chiqariladi.[8]

Qayta ishlash punkti Yangi bayt, Shotlandiya, qog'oz, plastmassa va har xil rangdagi shisha uchun alohida idishlar mavjud.

Va nihoyat, shisha rangiga qarab saralanadi: jigarrang, sarg'ish, yashil yoki tiniq. Buni qo'lda tartiblash mumkin,[8] yoki turli xil ranglarni aniqlash uchun rangli filtrlardan foydalanadigan avtomatlashtirilgan mashina orqali. 10 millimetrdan (0,39 dyuym) kichik shisha bo'laklarni avtomatik ravishda saralash mumkin emas va ular "shisha jarima" sifatida aralashtiriladi.[55]

Ushbu qayta ishlash jarayoni va qayta ishlangan materialni qayta ishlatish foydali ekanligi isbotlandi, chunki u axlatxonalarga yuboriladigan chiqindilar miqdorini kamaytiradi, tabiiy resurslarni tejaydi, energiyani tejaydi, issiqxona gazlari chiqindilarini kamaytiradi va yangi ish o'rinlarini yaratishga yordam beradi. Qayta ishlangan materiallar, shuningdek, qog'oz, plastmassa va shisha kabi yana iste'mol qilinadigan yangi mahsulotlarga aylantirilishi mumkin.[56]

San-Frantsisko shahri va okrugining atrof-muhitni muhofaza qilish boshqarmasi 2020 yilga qadar shahar bo'ylab nol chiqindilarni ishlab chiqarish maqsadiga erishishga harakat qilmoqda.[57] San-Frantsiskoning rad tashuvchisi, Rekologiya, samarali qayta ishlanadigan mahsulotlarni saralash vositasini boshqaradi, bu esa shaharni 80% rekord darajadagi burilishga erishishiga yordam berdi.[58]

Sanoat chiqindilarini qayta ishlash

Qayta ishlashga tayyor bo'lgan maydalangan kauchuk shinalar

Garchi ko'plab davlat dasturlari uyda qayta ishlashga qaratilgan bo'lsa-da, Buyuk Britaniyada chiqindilarning 64% sanoat tomonidan ishlab chiqariladi.[59] Sanoat tomonidan amalga oshirilgan ko'plab qayta ishlash dasturlarining asosiy yo'nalishi - bu qayta ishlashning iqtisodiy samaradorligi. Hamma joyda mavjud bo'lgan tabiat karton qadoqlash, kartonni qadoqlangan buyumlar bilan muomala qiladigan kompaniyalar tomonidan odatda qayta ishlanadigan chiqindi mahsulotga aylantiradi chakana savdo do'konlari, omborlar va tovarlarni tarqatuvchilar. Boshqa sanoat tarmoqlari mavjud bo'lgan chiqindilarning xususiyatiga qarab joy yoki ixtisoslashgan mahsulotlar bilan shug'ullanadi.

Stakan, yog'och, yog'och xamiri va qog'oz ishlab chiqaruvchilarning barchasi to'g'ridan-to'g'ri qayta ishlanadigan materiallar bilan shug'ullanadilar; ammo, eski rezina shinalar foyda olish uchun mustaqil shinalar sotuvchilari tomonidan to'planishi va qayta ishlanishi mumkin.

Metalllarni qayta ishlash darajasi odatda past. 2010 yilda Xalqaro resurslar paneli, mezbonlik qilgan Birlashgan Millatlar Tashkilotining Atrof-muhit dasturi (UNEP) jamiyatda mavjud bo'lgan metall zaxiralari to'g'risida hisobotlarni e'lon qildi[60] va ularni qayta ishlash stavkalari.[60] Panelning ta'kidlashicha, 20-asrda va 21-asrda metallardan foydalanishning ko'payishi, er ostidagi metall zaxiralarining jamiyatdagi er osti dasturlarida foydalanish uchun sezilarli darajada o'zgarishiga olib keldi. Masalan, AQShda misning zaxirasi 1932-1999 yillarda jon boshiga 73 kg dan 238 kg gacha o'sdi.

Hisobot mualliflarining ta'kidlashicha, metallarning o'ziga xos ravishda qayta ishlashga yaroqliligi sababli, jamiyatdagi metall zaxiralari er usti ulkan konlar bo'lib xizmat qilishi mumkin ("shahar qazib olish" atamasi ushbu fikrni hisobga olgan holda ishlab chiqarilgan)[61]). Biroq, ular ko'plab metallarni qayta ishlash darajasi past ekanligini aniqladilar. Hisobotda ba'zilarning qayta ishlash stavkalari haqida ogohlantirildi nodir metallar mobil telefonlar, gibrid avtomashinalar uchun akkumulyator batareyalari va yonilg'i xujayralari kabi dasturlarda juda past bo'lib, umrining oxirigacha qayta ishlash stavkalari keskin oshirilmasa, ushbu muhim metallardan zamonaviy texnologiyalarda foydalanish mumkin bo'lmaydi.

Harbiylar ba'zi metallarni qayta ishlaydi. The AQSh dengiz kuchlari Kemalarni yo'q qilish dasturi foydalanadi kema buzilishi eski kemalarning po'latini qaytarib olish. An yaratish uchun kemalar ham cho'ktirilishi mumkin sun'iy rif. Uran qo'rg'oshin va dan yuqori sifatlarga ega bo'lgan zich metalldir titanium ko'plab harbiy va sanoat maqsadlarida foydalanish uchun. The uran uni qayta ishlashdan qolgan yadro qurollari va yoqilg'i atom reaktorlari deyiladi tugagan uran, va AQSh qurolli kuchlarining barcha tarmoqlari tomonidan zirh teshuvchi snaryadlar va qalqonlarni yaratish uchun foydalaniladi.

Qurilish sanoati beton va eski yo'l qoplamalarini qayta ishlashga, chiqindilarini foyda olish uchun sotishga qodir.

Kabi ba'zi sanoat tarmoqlari qayta tiklanadigan energetika sanoati va quyosh fotoelektrlari texnologiya, xususan, chiqindilar oqimining katta hajmiga ega bo'lishidan oldin ham qayta ishlash siyosatini belgilashda faol bo'lib, ularning tez o'sishi davomida kelajakdagi talabni taxmin qilmoqda.[62]

Plastmassalarni qayta ishlash qiyinroq kechadi, chunki aksariyat dasturlar kerakli sifat darajasiga chiqa olmaydi. Qayta ishlash PVX ko'pincha natijalarga olib keladi velosipedda harakatlanish Qayta ishlangan material bilan faqat past sifatli standartdagi mahsulotlar tayyorlanishi mumkin degan ma'noni anglatadi. Sifatning teng darajasini ta'minlaydigan yangi yondashuv bu Vinilop jarayon. Bu keyin ishlatilgan London Olimpiadasi-2012 PVX siyosatini bajarish.[63]

Elektron chiqindilarni qayta ishlash

Asosiy maqola: Kompyuterni qayta ishlash
Kompyuter protsessorlari chiqindilar oqimidan chiqarildi

Elektron chiqindilar tobora ortib borayotgan muammo bo'lib, yiliga 20-50 million tonna global chiqindilarni tashkil etadi EPA. Bu, shuningdek, Evropa Ittifoqidagi eng tez o'sayotgan chiqindilar oqimidir.[23] Ko'pgina qayta ishlash korxonalari elektron chiqindilarni mas'uliyat bilan qayta ishlashmaydi. Yuk tashish barjasidan keyin Xian dengizi ichiga 14000 metrik tonna zaharli kul tashladi Gaiti, Bazel konvensiyasi qashshoq mamlakatlarga zararli moddalar oqimini to'xtatish uchun tuzilgan. Ular yaratgan e-styuardlar qayta ishlash korxonalarining ekologik javobgarlik bo'yicha eng yuqori standartlarga muvofiqligini ta'minlash va iste'molchilarga mas'ul qayta ishlashni aniqlashda yordam berish uchun sertifikatlash. Bu kabi taniqli qonunchilik bilan bir qatorda ishlaydi, masalan Chiqindilarni elektr va elektron uskunalar bo'yicha ko'rsatma Evropa Ittifoqi Qo'shma Shtatlar Milliy kompyuterlarni qayta ishlash to'g'risidagi qonun, zaharli kimyoviy moddalarning suv yo'llari va atmosferaga kirib kelishini oldini olish.

Qayta ishlash jarayonida televizorlar, monitorlar, uyali telefonlar va kompyuterlar odatda qayta ishlatish va ta'mirlash uchun sinovdan o'tkaziladi. Agar buzilgan bo'lsa, ular ishchi kuchi etarlicha arzon bo'lsa, ular hali ham yuqori qiymatga ega bo'lgan qismlarga ajratilishi mumkin. Boshqa elektron chiqindilar taxminan 10 santimetr (3,9 dyuym) hajmda bo'laklarga bo'linadi va zaharli batareyalarni ajratish uchun qo'lda tekshiriladi kondansatörler tarkibida zaharli metallar mavjud. Qolgan qismlar yana 10 millimetr (0,39 dyuym) zarrachalarga parchalanadi va qora metallarni olib tashlash uchun magnit ostiga o'tkaziladi. An oqim oqimi zichligi bo'yicha santrifüj yoki tebranish plitalari bilan saralangan rangli metallarni chiqarib tashlaydi. Qimmatbaho metallarni kislotada eritish, saralash va quyish uchun eritish mumkin. Qolgan shisha va plastmassa fraktsiyalari zichlik bilan ajratiladi va qayta ishlov beruvchilarga sotiladi. CRT-lardan qo'rg'oshinni yoki LCD-lardan simob orqa nuri olib tashlash uchun televizor va monitorlarni qo'lda qismlarga ajratish kerak.[64][65][66]

Plastikni qayta ishlash

Asosiy maqola: Plastikni qayta ishlash
Ishlatilgan plastik qoshiqlarni 3D bosib chiqarish uchun materialga qayta ishlash uchun idish

Plastmassani qayta ishlash - bu qoldiqlarni yoki chiqindilarni qayta tiklash va materialni foydali mahsulotlarga qayta ishlash jarayoni, ba'zan asl holatidan butunlay farq qiladi. Masalan, bu alkogolsiz ichimliklar butilkalarini eritib, keyin ularni plastik stul va stol sifatida tashlashni anglatishi mumkin.[67] Ba'zi bir plastmassa turlari uchun bir xil plastmassani sifati 2-3 martaga qadar ishlatib bo'lmaydigan darajaga tushgunga qadar faqat 2-3 marta qayta ishlanishi mumkin.[6]

Jismoniy qayta ishlash

Ba'zi plastmassalar qayta eritilib, yangi plastik buyumlar hosil bo'ladi; masalan, PET suv idishlari kiyim uchun mo'ljallangan polyesterga aylantirilishi mumkin. Ushbu turdagi qayta ishlashning kamchiligi shundaki, polimerning molekulyar og'irligi yanada o'zgarishi mumkin va har bir qayta ishlanganda plastmassada keraksiz moddalar miqdori ko'payishi mumkin.[iqtibos kerak ]

Tijorat tomonidan qayta ishlangan zavod yuborildi Xalqaro kosmik stantsiya in late 2019. The facility will take in plastic waste and unneeded plastic parts and physically convert them into spools of feedstock for the space station qo'shimchalar ishlab chiqarish facility used for in-space 3D bosib chiqarish.[68]

Kimyoviy qayta ishlash

Ba'zi bir polimerlar uchun ularni monomerlarga qaytarish mumkin, masalan, PETni alkogol va katalizator bilan davolash mumkin va dialkil tereftalat hosil bo'ladi. The terephthalate diester can be used with ethylene glycol to form a new polyester polymer, thus making it possible to use the pure polymer again. 2019 yilda, Eastman Chemical Company announced initiatives of metanoliz va syngalar turli xil ishlatilgan materiallarni ishlashga mo'ljallangan.[69]

Yoqilg'i moyi uchun plastik pirolizni chiqindilar

Another process involves the conversion of assorted polymers into petroleum by a much less precise thermal depolimerizatsiya jarayon. Such a process would be able to accept almost any polymer or mix of polymers, including termoset materials such as vulcanized rubber tires and the biopolimerlar in feathers and other agricultural waste. Like natural petroleum, the chemicals produced can be used as fuels or as feedstock. A RESEM Technology[70] plant of this type in Karfagen, Missuri, US, uses turkey waste as input material. Gasification is a similar process but is not technically recycling since polymers are not likely to become the result.Plastic Pyrolysis can convert petroleum based waste streams such as plastics into quality fuels, carbons. Given below is the list of suitable plastic raw materials for piroliz:

Recycling loops

Loops for production-waste, product and material recycling

The (ideal) recycling process can be differentiated into three loops, one for manufacture (production-waste recycling) and two for disposal of the product (product and material recycling).[71]

The product's manufacturing phase, which consists of material processing and fabrication, forms the production-waste recycling pastadir Industrial waste materials are fed back into, and reused in, the same production process.

The product's disposal process requires two recycling loops: product recycling va material recycling.[71]The product or product parts are reused in the product recycling bosqich. This happens in one of two ways: the product is used retaining the product functionality ("reuse") or the product continues to be used but with altered functionality ("further use").[71] The product design is unmodified, or only slightly modified, in both scenarios.

Product disassembly requires material recycling where product materials are recovered and recycled. Ideally, the materials are processed so they can flow back into the production process.[71]

Qayta ishlash kodlari

Asosiy maqola: Qayta ishlash kodlari
Mahsulotlarda qayta ishlash kodlari

In order to meet recyclers' needs while providing manufacturers a consistent, uniform system, a kodlash tizimi ishlab chiqilgan. The recycling code for plastics was introduced in 1988 by the plastics industry through the Plastmassa sanoati jamiyati.[72] Because municipal recycling programs traditionally have targeted packaging—primarily bottles and containers—the resin coding system offered a means of identifying the resin content of bottles and containers commonly found in the residential waste stream.[73]

Plastic products are printed with numbers 1–7 depending on the type of resin. 1-toifa (polietilen tereftalat ) is commonly found in alkogolsiz ichimlik va suv idishlari. 2-toifa (yuqori zichlikdagi polietilen ) is found in most hard plastics such as milk jugs, laundry detergent bottles, and some dishware. 3-toifa (polivinilxlorid ) includes items such as shampoo bottles, shower curtains, hula halqalari, kredit kartalar, wire jacketing, medical equipment, siding, and piping. Type 4 (past zichlikdagi polietilen ) is found in shopping bags, squeezable bottles, tote bags, clothing, furniture, and carpet. Type 5 is polipropilen and makes up syrup bottles, straws, Tupperware, and some automotive parts. Type 6 is polistirol and makes up meat trays, egg cartons, clamshell containers, and compact disc cases. Type 7 includes all other plastics such as bulletproof materials, 3- and 5-gallon water bottles, cell phone and tablet frames, safety goggles and sunglasses.[74] Having a recycling code or the chasing arrows logo on a material is not an automatic indicator that a material is recyclable but rather an explanation of what the material is. Types 1 and 2 are the most commonly recycled.

Xarajatlar va foyda tahlili

Environmental effects of recycling[75]
MateriallarEnergy savings vs. new productionAir pollution savings vs. new production
Alyuminiy95%[5][19]95%[5][76]
Karton24% —
Shisha5–30%20%
Qog'oz40%[19]73%[77]
Plastmassalar70%[19] —
Chelik60%[8] —

There is debate over whether recycling is iqtisodiy jihatdan samarali. A Tabiiy resurslarni himoya qilish kengashi study, waste collection and landfill disposal creates less than one job per 1,000 tons of waste material managed; in contrast, the collection, processing, and manufacturing of recycled materials creates 6–13 or more jobs per 1,000 tons.[78] According to the U.S. Recycling Economic Informational Study, there are over 50,000 recycling establishments that have created over a million jobs in the US.[79] The Chiqindilarni qayta ishlash va qayta ishlash milliy assotsiatsiyasi (NWRA) reported in May 2015 that recycling and waste made a $6.7 billion economic impact in Ohio, U.S., and employed 14,000 people.[80] Economists would classify this extra labor used as a cost rather than a benefit since these workers could have been employed elsewhere; the cost effectiveness of creating these additional jobs remains unclear.

Sometimes cities have found recycling saves resources compared to other methods of waste disposal. Two years after New York City declared that implementing recycling programs would be "a drain on the city", New York City leaders realized that an efficient recycling system could save the city over $20 million.[81] Municipalities often see moliyaviy benefits from implementing recycling programs, largely due to the reduced poligon xarajatlar.[82] Tomonidan olib borilgan tadqiqot Daniya Texnik universiteti according to the Economist found that in 83 percent of cases, recycling is the most efficient method to dispose of household waste.[8][19] However, a 2004 assessment by the Danish Environmental Assessment Institute concluded that incineration was the most effective method for disposing of drink containers, even aluminium ones.[83]

Fiscal efficiency is separate from economic efficiency. Economic analysis of recycling does not include what economists call tashqi ta'sirlar: unpriced costs and benefits that accrue to individuals outside of private transactions. Examples include less air pollution and greenhouse gases from incineration and less waste leaching from landfills. Without mechanisms such as taxes or subsidies, businesses and consumers following their private benefit will ignore externalities despite the costs imposed on society. If landfills and incinerator pollution is inadequately regulated,these methods of waste disposal will appear cheaper than they really are, because part of their cost will the pollution imposed on people nearby. Thus, advocates have pushed for legislation to increase demand for recycled materials.[5] The Qo'shma Shtatlar atrof-muhitni muhofaza qilish agentligi (EPA) has concluded in favor of recycling, saying that recycling efforts reduced the country's uglerod chiqindilari by a net 49 million metrik tonna 2005 yilda.[8] Buyuk Britaniyada Waste and Resources Action Programme stated that Great Britain's recycling efforts reduce CO2 emissiya by 10–15 million tonnes a year.[8] The question for economic efficiency is whether this reduction is worth the extra cost of recycling and thus makes the artificial demand creates by legislation worthwhile.

Wrecked automobiles gathered for smelting

Certain requirements must be met for recycling to be economically feasible and environmentally effective. These include an adequate source of recyclates, a system to extract those recyclates from the chiqindi oqimi, a nearby factory capable of reprocessing the recyclates, and a potential demand for the recycled products. These last two requirements are often overlooked—without both an industrial market for production using the collected materials and a consumer market for the manufactured goods, recycling is incomplete and in fact only "collection".[5]

Free-market economist Julian Simon remarked "There are three ways society can organize waste disposal: (a) commanding, (b) guiding by tax and subsidy, and (c) leaving it to the individual and the market". These principles appear to divide economic thinkers today.[84]

Frank Akerman favours a high level of government intervention to provide recycling services. He believes that recycling's benefit cannot be effectively quantified by traditional laissez-faire iqtisodiyot. Allen Hershkowitz supports intervention, saying that it is a public service equal to education and policing. He argues that manufacturers should shoulder more of the burden of waste disposal.[84]

Paul Calcott and Margaret Walls advocate the second option. A deposit refund scheme and a small refuse charge would encourage recycling but not at the expense of fly-tipping. Thomas C. Kinnaman concludes that a landfill tax would force consumers, companies and councils to recycle more.[84]

Most free-market thinkers detest subsidy and intervention, arguing that they waste resources. The general argument[85] is that if cities charge the full cost of garbage collection, private companies can profitable recycle any materials for which the benefit of recycling exceeds the cost (e.g. aluminum[86]) and will not recycle other materials for which the benefit is less than the cost (e.g. glass[87]). Cities, on the other hand, often recycle even when they not only do not receive enough for the paper or plastic to pay for its collection, but must actually pay private recycling companies to take it off of their hands.[88] Terri Anderson and Donald Leal think that all recycling programmes should be privately operated, and therefore would only operate if the money saved by recycling exceeds its costs. Daniel K. Benjamin argues that it wastes people's resources and lowers the wealth of a population.[84] He notes that recycling can cost a city more than twice as much as landfills, that in the United States landfills are so heavily regulated that their pollution effects are negligible, and that the recycling process also generates pollution and uses energy, which may or may not be less than from virgin production.[89]


Trade in recyclates

Certain countries trade in unprocessed recyclates. Some have complained that the ultimate fate of recyclates sold to another country is unknown and they may end up in landfills instead of being reprocessed. According to one report, in America, 50–80 percent of computers destined for recycling are actually not recycled.[90][91] There are reports of illegal-waste imports to China being dismantled and recycled solely for monetary gain, without consideration for workers' health or environmental damage. Although the Chinese government has banned these practices, it has not been able to eradicate them.[92] In 2008, the prices of recyclable waste plummeted before rebounding in 2009. Cardboard averaged about £53/tonne from 2004 to 2008, dropped to £19/tonne, and then went up to £59/tonne in May 2009. PET plastic averaged about £156/tonne, dropped to £75/tonne and then moved up to £195/tonne in May 2009.[93]

Certain regions have difficulty using or exporting as much of a material as they recycle. This problem is most prevalent with glass: both Britain and the U.S. import large quantities of wine bottled in green glass. Though much of this glass is sent to be recycled, outside the Amerika O'rta G'arbiy there is not enough wine production to use all of the reprocessed material. The extra must be downcycled into building materials or re-inserted into the regular waste stream.[5][8]

Similarly, the northwestern United States has difficulty finding markets for recycled newspaper, given the large number of pulpa tegirmonlari in the region as well as the proximity to Asian markets. In other areas of the U.S., however, demand for used newsprint has seen wide fluctuation.[5]

In some U.S. states, a program called RecycleBank pays people to recycle, receiving money from local municipalities for the reduction in landfill space which must be purchased. It uses a single stream process in which all material is automatically sorted.[94]

Tanqidlar va javoblar

Tanqidchilar[JSSV? ] dispute the net economic and environmental benefits of recycling over its costs, and suggest that proponents of recycling often make matters worse and suffer from tasdiqlash tarafkashligi. Specifically, critics argue that the costs and energy used in collection and transportation detract from (and outweigh) the costs and energy saved in the production process; also that the jobs produced by the recycling industry can be a poor trade for the jobs lost in logging, mining, and other industries associated with production; and that materials such as paper pulp can only be recycled a few times before material degradation prevents further recycling.[95]

Much of the difficulty inherent in recycling comes from the fact that most products are not designed with recycling in mind. Tushunchasi barqaror dizayn aims to solve this problem, and was laid out in the book Beshikdan beshikka: narsalar yasash usulimizni qayta tiklash me'mor tomonidan Uilyam Makdono va kimyogar Maykl Braungart.[96] They suggest that every product (and all packaging it requires) should have a complete "closed-loop" cycle mapped out for each component—a way in which every component will either return to the natural ecosystem through biologik parchalanish or be recycled indefinitely.[8][97]

Complete recycling is impossible from a practical standpoint. In summary, substitution and recycling strategies only delay the depletion of non-renewable stocks and therefore may buy time in the transition to true or strong barqarorlik, which ultimately is only guaranteed in an economy based on renewable resources.[98]:21

— M. H. Huesemann, 2003

While recycling diverts waste from entering directly into landfill sites, current recycling misses the dispersive components. These critics believe that complete recycling is impracticable as highly dispersed wastes become so diluted that the energy needed for their recovery becomes increasingly excessive.

Xuddi shunday environmental economics, care must be taken to ensure a complete view of the costs and benefits involved. Masalan, karton packaging for food products is more easily recycled than most plastic, but is heavier to ship and may result in more waste from spoilage.[99]

Energy and material flows

Bales of crushed steel ready for transport to the smelter

The amount of energy saved through recycling depends upon the material being recycled and the type of energy accounting that is used. Correct accounting for this saved energy can be accomplished with hayot aylanishini tahlil qilish using real energy values, and in addition, eksergiya, which is a measure of how much useful energy can be used. In general, it takes far less energy to produce a unit mass of recycled materials than it does to make the same mass of virgin materials.[100][101][102]

Some scholars use zumrad (spelled with an m) analysis, for example, budgets for the amount of energy of one kind (exergy) that is required to make or transform things into another kind of product or service. Emergy calculations take into account economics which can alter pure physics-based results. Using emergy life-cycle analysis researchers have concluded that materials with large refining costs have the greatest potential for high recycle benefits. Moreover, the highest emergy efficiency accrues from systems geared toward material recycling, where materials are engineered to recycle back into their original form and purpose, followed by moslashuvchan qayta ishlatish systems where the materials are recycled into a different kind of product, and then by-product reuse systems where parts of the products are used to make an entirely different product.[103]

The Energiya bo'yicha ma'muriyat (EIA) states on its website that "a paper mill uses 40 percent less energy to make paper from recycled paper than it does to make paper from fresh lumber."[104] Some critics argue that it takes more energy to produce recycled products than it does to dispose of them in traditional landfill methods, since the curbside collection of recyclables often requires a second waste truck. However, recycling proponents point out that a second timber or logging truck is eliminated when paper is collected for recycling, so the net energy consumption is the same. An emergy life-cycle analysis on recycling revealed that fly ash, aluminum, recycled concrete aggregate, recycled plastic, and steel yield higher efficiency ratios, whereas the recycling of lumber generates the lowest recycle benefit ratio. Hence, the specific nature of the recycling process, the methods used to analyse the process, and the products involved affect the energy savings budgets.[103]

It is difficult to determine the amount of energy consumed or produced in waste disposal processes in broader ecological terms, where causal relations dissipate into complex networks of material and energy flow. For example, "cities do not follow all the strategies of ecosystem development. Biogeochemical paths become fairly straight relative to wild ecosystems, with very reduced recycling, resulting in large flows of waste and low total energy efficiencies. By contrast, in wild ecosystems, one population's wastes are another population's resources, and succession results in efficient exploitation of available resources. However, even modernized cities may still be in the earliest stages of a succession that may take centuries or millennia to complete."[105]:720 How much energy is used in recycling also depends on the type of material being recycled and the process used to do so. Aluminium is generally agreed to use far less energy when recycled rather than being produced from scratch. The EPA states that "recycling aluminum cans, for example, saves 95 percent of the energy required to make the same amount of aluminum from its virgin source, boksit."[106][107] In 2009, more than half of all aluminium cans produced came from recycled aluminium.[108] Similarly, it has been estimated that new steel produced with recycled cans reduces greenhouse gas emissions by 75%.[109]

Every year, millions of tons of materials are being exploited from the earth's crust, and processed into consumer and capital goods. After decades to centuries, most of these materials are "lost". With the exception of some pieces of art or religious relics, they are no longer engaged in the consumption process. Ular qayerda? Recycling is only an intermediate solution for such materials, although it does prolong the residence time in the anthroposphere. For thermodynamic reasons, however, recycling cannot prevent the final need for an ultimate sink.[110]:1

— P. H. Brunner

Iqtisodchi Stiven Landsburg has suggested that the sole benefit of reducing landfill space is trumped by the energy needed and resulting pollution from the recycling process.[111] Others, however, have calculated through life-cycle assessment that producing recycled paper uses less energy and water than harvesting, pulping, processing, and transporting virgin trees.[112] When less recycled paper is used, additional energy is needed to create and maintain farmed forests until these forests are as self-sustainable as virgin forests.

Other studies have shown that recycling in itself is inefficient to perform the "decoupling" of economic development from the depletion of non-renewable raw materials that is necessary for sustainable development.[113] The international transportation or recycle material flows through "... different trade networks of the three countries result in different flows, decay rates, and potential recycling returns".[114]:1 As global consumption of a natural resources grows, their depletion is inevitable. The best recycling can do is to delay; complete closure of material loops to achieve 100 percent recycling of nonrenewables is impossible as micro-trace materials dissipate into the environment causing severe damage to the planet's ecosystems.[115][116][117] Historically, this was identified as the metabolic rift by Karl Marks, who identified the unequal exchange rate between energy and nutrients flowing from rural areas to feed urban cities that create effluent wastes degrading the planet's ecological capital, such as loss in soil nutrient production.[118][119] Energy conservation also leads to what is known as Jevon's paradox, where improvements in energy efficiency lowers the cost of production and leads to a rebound effect where rates of consumption and economic growth increases.[117][120]

This shop in New York only sells items recycled from demolished buildings.

Xarajatlar

The amount of money actually saved through recycling depends on the efficiency of the recycling program used to do it. The Mahalliy o'ziga ishonish instituti argues that the cost of recycling depends on various factors, such as landfill fees and the amount of disposal that the community recycles. It states that communities begin to save money when they treat recycling as a replacement for their traditional waste system rather than an add-on to it and by "redesigning their collection schedules and/or trucks".[121]

In some cases, the cost of recyclable materials also exceeds the cost of raw materials. Virgin plastic resin costs 40 percent less than recycled resin.[122] Bundan tashqari, a Qo'shma Shtatlar atrof-muhitni muhofaza qilish agentligi (EPA) study that tracked the price of clear glass from 15 July to 2 August 1991, found that the average cost per ton ranged from $40 to $60[123] esa a USGS report shows that the cost per ton of raw silica sand from years 1993 to 1997 fell between $17.33 and $18.10.[124]

Comparing the market cost of recyclable material with the cost of new raw materials ignores economic tashqi ta'sirlar —the costs that are currently not counted by the market. Creating a new piece of plastic, for instance, may cause more pollution and be less sustainable than recycling a similar piece of plastic, but these factors will not be counted in market cost. A hayot aylanishini baholash can be used to determine the levels of externalities and decide whether the recycling may be worthwhile despite unfavorable market costs. Alternatively, legal means (such as a uglerod solig'i ) can be used to bring externalities into the market, so that the market cost of the material becomes close to the true cost.

Ish sharoitlari

Ba'zi odamlar Braziliya earn their living by collecting and sorting garbage and selling them for recycling.

The recycling of waste electrical and electronic equipment can create a significant amount of pollution. This problem is specifically occurrent in India and China. Informal recycling in an underground economy of these countries has generated an environmental and health disaster. High levels of lead (Pb), polybrominated diphenylethers (PBDEs), poliklorli dioksinlar va furanlar, as well as polybrominated dioxins and furans (PCDD/Fs and PBDD/Fs), concentrated in the air, pastki kul, dust, soil, water, and sediments in areas surrounding recycling sites.[125] These materials can make work sites harmful to the workers themselves and the surrounding environment.

Atrof muhitga ta'siri

Iqtisodchi Stiven Landsburg, author of a paper entitled "Why I Am Not an Environmentalist",[126] buni da'vo qildi qog'ozni qayta ishlash actually reduces tree populations. He argues that because paper companies have incentives to replenish their forests, large demands for paper lead to large forests while reduced demand for paper leads to fewer "farmed" forests.[127]

A metal scrap worker is pictured burning insulated copper wires for copper recovery at Agbogbloshie, Ghana.

When foresting companies cut down trees, more are planted in their place; however, such "farmed" forests are inferior to natural forests in several ways. Farmed forests are not able to fix the soil as quickly as natural forests. This can cause widespread tuproq eroziyasi and often requiring large amounts of o'g'it to maintain the soil, while containing little tree and wild-life biologik xilma-xillik compared to virgin forests.[128] Also, the new trees planted are not as big as the trees that were cut down, and the argument that there will be "more trees" is not compelling to forestry advocates when they are counting saplings.

In particular, wood from tropical rainforests is rarely harvested for paper because of their heterogeneity.[129] According to the United Nations Framework Convention on Climate Change secretariat, the overwhelming direct cause of deforestation is yordamchi dehqonchilik (48% of deforestation) and savdo qishloq xo'jaligi (32%), which is linked to food, not paper production.[130]

The reduction of greenhouse gas emission reduction also benefits from the development of the recycling industry. Yilda Kitakyushu, the only green growth model city in Asia selected by OECD, recycling industries are strongly promoted and financially supported as part of the Eco-town program Yaponiyada. Given the industrial sector in Kitakyushu accounts for more than 60% energy consumption of the city, the development of recycling industry results in substantial energy reduction due to the economies of scale effects; the concentration of CO is, thus, found to decline accordingly.[131]

Other non-conventional methods of material recycling, like Waste-to-Energy (WTE) systems, have garnered increased attention in the recent past due to the polarizing nature of their emissions. While viewed as a sustainable method of capturing energy from material waste feedstocks by many, others have cited numerous explanations for why the technology has not been scaled globally.[132]

Possible income loss and social costs

In some countries, recycling is performed by the entrepreneurial poor such as the karung guni, zabbaleen, latta-suyak odam, chiqindi yig'uvchi va junk man. With the creation of large recycling organizations that may be profitable, either by law or o'lchov iqtisodiyoti,[133][134] the poor are more likely to be driven out of the recycling and the qayta ishlab chiqarish job market. To compensate for this loss of income, a society may need to create additional forms of societal programs to help support the poor.[135] Kabi parable of the broken window, there is a net loss to the poor and possibly the whole of a society to make recycling artificially profitable, e.g. through the law. However, in Brazil and Argentina, waste pickers/informal recyclers work alongside the authorities, in fully or semi-funded cooperatives, allowing informal recycling to be legitimized as a paid public sector job.[136]

Because the social support of a country is likely to be less than the loss of income to the poor undertaking recycling, there is a greater chance the poor will come in conflict with the large recycling organizations.[137][138] This means fewer people can decide if certain waste is more economically reusable in its current form rather than being reprocessed. Contrasted to the recycling poor, the efficiency of their recycling may actually be higher for some materials because individuals have greater control over what is considered "waste".[135]

One labor-intensive underused waste is electronic and computer waste. Because this waste may still be functional and wanted mostly by those on lower incomes, who may sell or use it at a greater efficiency than large recyclers.

Some recycling advocates believe that laissez-faire individual-based recycling does not cover all of society's recycling needs. Thus, it does not negate the need for an organized recycling program.[135] Local government can consider the activities of the recycling poor as contributing to the ruining of property.

Public participation rates

Bitta oqim bilan qayta ishlash increases public participation rates, but requires additional sorting.

Changes that have been demonstrated to increase recycling rates include:

Recycling of metals varies extremely by type. Titanium and lead have an extremely high recycling rates of over 90%. Copper and cobalt have high rates of recycling around 75%. Only about half of aluminum is recycled. Most of the remaining metals have recycling rates of below 35%, while 34 types of metals have recycling rates of under 1%.[139]

"Between 1960 and 2000, the world production of plastic resins increased 25 times its original amount, while recovery of the material remained below 5 percent."[140]:131 Many studies have addressed recycling behaviour and strategies to encourage community involvement in recycling programs. Bu bahs qilingan[141] that recycling behavior is not natural because it requires a focus and appreciation for long-term planning, whereas humans have evolved to be sensitive to short-term survival goals; and that to overcome this innate predisposition, the best solution would be to use social pressure to compel participation in recycling programs. However, recent studies have concluded that social pressure will not work in this context.[142] One reason for this is that social pressure functions well in small group sizes of 50 to 150 individuals (common to nomadic hunter–gatherer peoples) but not in communities numbering in the millions, as we see today. Another reason is that individual recycling does not take place in the public view.

Following the increasing popularity of recycling collection being sent to the same landfills as trash, some people kept on putting recyclables on the recyclables bin.[143]

Qo'shimcha ma'lumotlar: Qayta ishlash stavkalari mamlakatlar bo'yicha

Recycling in art

Uniseafish – made of recycled aluminum beer cans

Art objects are more and more often made from recycled material.

In a study done by social psychologist Shawn Burn,[144] it was found that personal contact with individuals within a neighborhood is the most effective way to increase recycling within a community. In his study, he had 10 block leaders talk to their neighbors and persuade them to recycle. A comparison group was sent fliers promoting recycling. It was found that the neighbors that were personally contacted by their block leaders recycled much more than the group without personal contact. As a result of this study, Shawn Burn believes that personal contact within a small group of people is an important factor in encouraging recycling. Another study done by Stuart Oskamp[145] examines the effect of neighbors and friends on recycling. It was found in his studies that people who had friends and neighbors that recycled were much more likely to also recycle than those who didn't have friends and neighbors that recycled.

Many schools have created recycling awareness clubs in order to give young students an insight on recycling. These schools believe that the clubs actually encourage students to not only recycle at school but at home as well.

Shuningdek qarang

Adabiyotlar

  1. ^ Villalba, G., Segarra, M., Fernandez, A. I., Chimenos, J. M., & Espiell, F. (2002). A proposal for quantifying the recyclability of materials. Resources, Conservation, and Recycling, 37.
  2. ^ J. Lienig, X. Bruemmer (2017). "Recycling Requirements and Design for Environmental Compliance". Elektron tizimlarni loyihalash asoslari. Springer. 193-218 betlar. doi:10.1007/978-3-319-55840-0_7. ISBN  978-3-319-55839-4.
  3. ^ Evropa komissiyasi (2014). "EU Waste Legislation". Arxivlandi asl nusxasi 2014 yil 12 martda.
  4. ^ Geysdoerfer, Martin; Savaget, Paulo; Bocken, Nancy M.P.; Hultink, Erik Jan (2017). "The Circular Economy – A new sustainability paradigm?". Cleaner Production jurnali. 143: 757–768. doi:10.1016/j.jclepro.2016.12.048. ISSN  0959-6526. S2CID  157449142.
  5. ^ a b v d e f g h men j k l m n o p q r s t The League of Women Voters (1993). The Garbage Primer. Nyu-York: Lyons va Burford. 35-72 betlar. ISBN  978-1-55821-250-3.
  6. ^ a b "Plastik (va qayta ishlash) haqida bilmagan 7 ta narsa" National Geographic. Qabul qilingan 26 iyul 2019.
  7. ^ a b Black Dog Publishing (2006). Recycle : a source book. London, Buyuk Britaniya: Black Dog Publishing. ISBN  978-1-904772-36-1.
  8. ^ a b v d e f g h men j k l m n "The truth about recycling". Iqtisodchi. 2007 yil 7-iyun.
  9. ^ Klivlend, Katler J.; Morris, Christopher G. (15 November 2013). Energiya bo'yicha qo'llanma: xronologiyalar, eng yaxshi o'nta ro'yxat va so'z bulutlari. Elsevier. p. 461. ISBN  978-0-12-417019-3.
  10. ^ Dadd-Redalia, Debra (1 January 1994). Sustaining the earth: choosing consumer products that are safe for you, your family, and the earth. Nyu-York: Xearst kitoblari. p. 103. ISBN  978-0-688-12335-2. OCLC  29702410.
  11. ^ Nongpluh, Yoofisaca Syngkon. Know all about : reduce, reuse, recycle. Noronha, Guy C.,, Energy and Resources Institute. Nyu-Dehli. ISBN  978-1-4619-4003-6. OCLC  858862026.
  12. ^ Carl A. Zimring (2005). Cash for Your Trash: Scrap Recycling in America. Nyu-Brunsvik, NJ: Rutgers universiteti matbuoti. ISBN  978-0-8135-4694-0.
  13. ^ "sd_shire" (PDF). Arxivlandi asl nusxasi (PDF) 2012 yil 14 oktyabrda. Olingan 27 oktyabr 2012.
  14. ^ Rethinking economic incentives for separate collection. Zero Waste Europe & Reloop Platform, 2017
  15. ^ "Report: "On the Making of Silk Purses from Sows' Ears," 1921: Exhibits: Institute Archives & Special Collections: MIT". mit.edu. Arxivlandi asl nusxasi 2016 yil 3-iyun kuni. Olingan 7 iyul 2016.
  16. ^ a b v Public Broadcasting System (2007). "The War Episode 2: Rationing and Recycling". Olingan 7 iyul 2016.
  17. ^ Out of the Garbage-Pail into the Fire: fuel bricks now added to the list of things salvaged by science from the nation's waste, Ommabop fan monthly, February 1919, page 50-51, Scanned by Google Books: https://books.google.com/books?id=7igDAAAAMBAJ&pg=PA50
  18. ^ "Recycling through the ages: 1970s". Plastic Expert. Plastic Expert. 2014 yil 30-iyul. Olingan 7 mart 2015.
  19. ^ a b v d e "The price of virtue". Iqtisodchi. 2007 yil 7-iyun.
  20. ^ "CRC History – Computer Recycling Center". www.crc.org. Olingan 29 iyul 2015.
  21. ^ "About us – Swico Recycling". www.swicorecycling.ch. Olingan 29 iyul 2015.
  22. ^ "Elektron chiqindilar qayerda tugaydi?". www.greenpeace.org/. Greenpeace. 2009 yil 24 fevral. Olingan 29 iyul 2015.
  23. ^ a b Kinver, Mark (3 July 2007). "Mechanics of e-waste recycling". BBC. Olingan 29 iyul 2015.
  24. ^ "Bulgaria opens largest WEEE recycling factory in Eastern Europe". www.ask-eu.com. WtERT Germany GmbH. 2010 yil 12-iyul. Olingan 29 iyul 2015.
  25. ^ "EnvironCom opens largest WEEE recycling facility / waste & recycling news". www.greenwisebusiness.co.uk. The Sixty Mile Publishing Company. 4 mart 2010. Arxivlangan asl nusxasi 2016 yil 15 mayda. Olingan 29 iyul 2015.
  26. ^ Goodman, Peter S. (11 January 2012). "Where Gadgets Go To Die: E-Waste Recycler Opens New Plant in Las Vegas". Huffington Post. Olingan 29 iyul 2015.
  27. ^ Moses, Asher (19 November 2008). "New plant tackles our electronic leftovers – BizTech – Technology – smh.com.au". www.smh.com.au. Olingan 29 iyul 2015.
  28. ^ Evropa komissiyasi, Qayta ishlash Arxivlandi 2014 yil 3-fevral kuni Orqaga qaytish mashinasi.
  29. ^ Recycling rates in Europe, Evropa atrof-muhit agentligi.
  30. ^ Recycling of municipal waste, European Environment Agency, 30 November 2017. (Dutch)
  31. ^ Germany’s recycling rate continues to lead Europe, Resource Recycling, 7 February 2017. (Dutch)
  32. ^ Birlashgan Millatlar Tashkiloti (2017 y.) Bosh Assambleya tomonidan 2017 yil 6 iyulda qabul qilingan qaror Statistik komissiyaning 2030 yilgacha barqaror rivojlanish kun tartibiga oid ishlari (A / RES / 71/313 )
  33. ^ Hook, Leslie; Reed, John (24 October 2018). "Why the world's recycling system stopped working". Financial Times. Arxivlandi asl nusxasidan 2018 yil 25 oktyabrda. Olingan 25 oktyabr 2018.
  34. ^ "A Beverage Container Deposit Law for Hawaii". www.opala.org. City & County of Honolulu, Department of Environmental Services. 2002 yil oktyabr. Olingan 31 iyul 2015.
  35. ^ Evropa Kengashi. "WEEE direktivasining ishlab chiqaruvchiga javobgarlik printsipi" (PDF). Olingan 7 iyul 2016.
  36. ^ "Regulatory Policy Center — Property Matters — James V. DeLong". Arxivlandi asl nusxasi 2008 yil 14 aprelda. Olingan 28 fevral 2008.
  37. ^ Web-Dictionary.com (2013). "Recyclate". Arxivlandi asl nusxasi 2014 yil 7 aprelda.
  38. ^ Freudenrich, C. (2014) (14 December 2007). "How Plastics Work". Olingan 7 iyul 2016.
  39. ^ a b v d e f DEFRA (2013). "Quality Action Plan Proposals to Promote High Quality Recycling of Dry Recyclates" (PDF).
  40. ^ "How to Recycle Tin or Steel Cans" Earth911.com. Qabul qilingan 26 iyul 2019.
  41. ^ a b v d e f g The Scottish Government (2012) (5 October 2012). "Recyclate Quality Action Plan – Consultation Paper".
  42. ^ a b The Highland Council (2013). "Report by Director of Transport, Environmental and Community Services" (PDF). Arxivlandi asl nusxasi (PDF) 2014 yil 7 aprelda.
  43. ^ Waldrop, M. Mitchell (1 October 2020). "One bin future: How mixing trash and recycling can work". Ma'lum jurnal. doi:10.1146/knowable-092920-3.
  44. ^ "The State of Multi-Tenant Recycling in Oregon" (PDF). 2018 yil aprel.
  45. ^ a b v Singer, Paul (21 April 2017). "Recycling market in a heap of trouble". USA Today. Melburn, Florida. 1B, 2B-betlar. Olingan 21 aprel 2017.
  46. ^ Baechler, nasroniy; DeVuono, Metyu; Pirs, Joshua M. (2013). "Chiqindilarni polimerini RepRap xomashyosiga qayta tarqatish". Tezkor prototiplar jurnali. 19 (2): 118–125. doi:10.1108/13552541311302978.
  47. ^ M. Kreiger, G. Anzalone, M. L. Mulder, A. Glover va J. M Pirs (2013). Iste'moldan keyingi plastik chiqindilarni qishloq joylarida tarqatish. MRS Onlayn materiallari kutubxonasi, 1492, mrsf12-1492-g04-06 doi: 10.1557 / opl.2013.258. ochiq kirish
  48. ^ Kreyger, M.A .; Mulder, M.L .; Glover, A.G .; Pirs, J. M. (2014). "3 o'lchovli bosma filaman uchun iste'molchidan keyingi yuqori zichlikdagi polietilendan tarqatilgan qayta ishlashning umr tsikli tahlili". Cleaner Production jurnali. 70: 90–96. doi:10.1016 / j.jclepro.2014.02.009.
  49. ^ "How recycling robots have spread across North America". Resurslarni qayta ishlash bo'yicha yangiliklar. 2019 yil 7-may. Olingan 29 avgust 2019.
  50. ^ "AMP Robotics announces largest deployment of AI-guided recycling robots". Robot hisoboti. 27 iyun 2019. Olingan 29 avgust 2019.
  51. ^ None, None (10 August 2015). "Common Recyclable Materials" (PDF). Qo'shma Shtatlar atrof-muhitni muhofaza qilish agentligi. Olingan 2 fevral 2013.
  52. ^ "Recycling Without Sorting: Engineers Create Recycling Plant That Removes The Need To Sort". ScienceDaily. 1 oktyabr 2007. Arxivlangan asl nusxasi 2008 yil 31 avgustda.
  53. ^ "Sortation by the numbers". Resurslarni qayta ishlash bo'yicha yangiliklar. 1 oktyabr 2018 yil. Olingan 29 avgust 2019.
  54. ^ Goodship, Vannessa. "Introduction to Plastics Recycling". web.b.ebscohost.com. Olingan 24 sentyabr 2020.
  55. ^ Yo'q, yo'q. "What Happens to My Recycling?". 1coast.com.au. Arxivlandi asl nusxasi 2014 yil 11-avgustda. Olingan 21 iyul 2014.
  56. ^ "Puzzled About Recycling's Value? Look Beyond the Bin" (PDF). Qo'shma Shtatlarning atrof-muhitni muhofaza qilish agentligi. Yanvar 1998. Arxivlangan asl nusxasi (PDF) 2015 yil 16-iyun kuni. Olingan 31 iyul 2015.
  57. ^ Muallif yo'q, Muallif yo'q. "Best Recycling Programs in the US & Around the World". cmfg.com. Olingan 1 fevral 2013.
  58. ^ "Mayor Lee Announces San Francisco Reaches 80 Percent Landfill Waste Diversion, Leads All Cities in North America". San Francisco Department of the Environment. 2012 yil 5 oktyabr. Olingan 9 iyun 2014.
  59. ^ "UK statistics on waste – 2010 to 2012" (PDF). Buyuk Britaniya hukumati. Buyuk Britaniya hukumati. 25 September 2014. p. 2 and 6. Archived from asl nusxasi (PDF) 2017 yil 3-dekabrda. Olingan 3 dekabr 2017.
  60. ^ a b "Nashrlar - xalqaro resurslar paneli". unep.org. Arxivlandi asl nusxasi 2012 yil 11-noyabrda. Olingan 7 iyul 2016.
  61. ^ "Shahar konlari qanday ishlaydi". Arxivlandi asl nusxasi 2010 yil 11 iyulda. Olingan 9 avgust 2013.
  62. ^ McDonald, N. C .; Pearce, J. M. (2010). "Ishlab chiqaruvchining javobgarligi va quyosh fotoelektr modullarini qayta ishlash" (PDF). Energiya siyosati. 38 (11): 7041–7047. doi:10.1016 / j.enpol.2010.07.023. hdl:1974/6122. hdl:1974/6122.
  63. ^ "London 2012 vaqtinchalik joylar uchun barqaror echimlarni izlaydi". ODA. 24 Yanvar 2017. Arxivlangan asl nusxasi 2012 yil 27 avgustda. Olingan 20 avgust 2012.
  64. ^ Xogye, Tomas Q. "Kompyuterni qayta ishlash jarayoni anatomiyasi" (PDF). Kaliforniya resurslarini qayta ishlash va qayta tiklash departamenti. Arxivlandi asl nusxasi (PDF) 2015 yil 23 sentyabrda. Olingan 13 oktyabr 2014.
  65. ^ "Sweeep Kuusakoski - Manbalar - BBC hujjatli filmi". www.sweeepkuusakoski.co.uk. Olingan 31 iyul 2015.
  66. ^ "Sweeep Kuusakoski - Shishani qayta ishlash - BBCning CRT pechini suratga olish". www.sweeepkuusakoski.co.uk. Olingan 31 iyul 2015.
  67. ^ Layton, Julia (2009 yil 22 aprel). ""Eko "-plastik: qayta ishlangan plastik". Science.howstuffworks.com. Olingan 9 iyun 2014.
  68. ^ Verner, Debra (21 oktyabr 2019). "Made in Space" kosmik stantsiyaga tijorat chiqindilarini ishga tushirish uchun ". SpaceNews. Olingan 22 oktyabr 2019.
  69. ^ Siegel, R. P. (7 avgust 2019). "Eastman kimyoviy qayta ishlashning ikkita variantini taklif qildi". GreenBiz. Olingan 29 avgust 2019.
  70. ^ "Piroliz zavodining etakchi ishlab chiqaruvchisi RESEM". RESEM Piroliz zavodi. Arxivlandi asl nusxasi 2013 yil 18 fevralda. Olingan 20 avgust 2012.
  71. ^ a b v d J. Lienig; H. Bruemmer (2017). "Dumaloq iqtisodiyotda elektron tizimlarni ishlab chiqarish, ulardan foydalanish va yo'q qilish". Elektron tizimlarni loyihalash asoslari. Springer. 197-199 betlar. doi:10.1007/978-3-319-55840-0_7. ISBN  978-3-319-55839-4.
  72. ^ Plastikni qayta ishlash kodlari Arxivlandi 2011 yil 21 iyul Orqaga qaytish mashinasi, Amerika kimyosi
  73. ^ Qatronlarni identifikatsiya qilish kodlari haqida Arxivlandi 2010 yil 19 oktyabr Orqaga qaytish mashinasi Amerika kimyosi
  74. ^ "Plastmassada qayta ishlash ramzlari - plastiklarda qayta ishlash kodlari nimani anglatadi". Daily Green. 2008 yil 25-noyabr. Olingan 29 fevral 2012.
  75. ^ Agar boshqacha ko'rsatilmagan bo'lsa, ushbu ma'lumotlar olingan Ayol saylovchilar ligasi (1993). Axlat uchun astar. Nyu-York: Lyons va Burford. 35-72 betlar. ISBN  978-1-55821-250-3.qaysi xususiyatlarga ega "Axlat echimlari: Qattiq chiqindilarni qayta ishlash va muqobil texnologiyalarini qayta ishlash bo'yicha davlat amaldorlari qo'llanmasi, aytilganidek Qayta ishlashdan energiya tejash, 1989 yil yanvar / fevral; va Worldwatch 76 Shahar chiqindilarini qazib olish: qayta ishlash potentsiali, 1987 yil aprel. "
  76. ^ "Metalllarni qayta ishlash - alyuminiy va po'lat". Arxivlandi asl nusxasi 2007 yil 16 oktyabrda. Olingan 1 noyabr 2007.
  77. ^ "UCO: Qayta ishlash". Arxivlandi asl nusxasi 2016 yil 12 martda. Olingan 22 oktyabr 2015.
  78. ^ "Chiqindidan tortib to ishgacha: Kaliforniyada qayta ishlashni 75 foizga etkazish nimani anglatadi" (PDF). Mart 2014. p. 2018-04-02 121 2.
  79. ^ Muallif yo'q, Muallif yo'q. "Iqtisodiyotga qayta ishlashning foydalari". all-recycling-facts.com. Olingan 1 fevral 2013.
  80. ^ Daniel K. Benjamin (2010). "Qayta ishlashga oid afsonalar qayta ko'rib chiqildi".
  81. ^ "Qayta ishlash inqilobi". recycling-revolution.com. Olingan 1 fevral 2013.
  82. ^ Lavee D. (2007). "Qattiq maishiy chiqindilarni qayta ishlash iqtisodiy jihatdan samaralimi?" Atrof-muhitni boshqarish.
  83. ^ Vigso, Dorte (2004). "Bir martali ishlatiladigan konteynerlardagi depozitlar - Daniyadagi bir martalik ichimliklar uchun depozit tizimining ijtimoiy xarajatlari va foydalari tahlili". Chiqindilarni boshqarish va tadqiqotlar. 22 (6): 477–87. doi:10.1177 / 0734242X04049252. PMID  15666450. S2CID  13596709.
  84. ^ a b v d Gunter, Metyu (2007 yil 1-yanvar). "Iqtisodchilar uy xo'jaliklari va shaharlarni qayta ishlash bo'yicha xulosaga kelishadimi?". Econ Journal Watch. 4 (1): 83–111. Arxivlandi asl nusxasi 2015 yil 11-dekabrda. Alt URL Arxivlandi 2019 yil 15-may kuni Orqaga qaytish mashinasi
  85. ^ Uolter Donvey (2019 yil 29 dekabr). "Dunyo qayta ishlash tizimi qulab tushmoqda. Nima bo'lyapti?". Iqtisodiy ta'lim fondi.
  86. ^ Xovard Husok (23 iyun 2020). "Munitsipal chiqindilarni qayta ishlash bo'yicha pasayish holati". Iqtisodiy ta'lim fondi.
  87. ^ Serena Ng va Angela Chen (2015 yil 29 aprel). "Zararsiz qayta ishlash chiqindilarni boshqarish bilan bog'liq". Wall Street Journal.
  88. ^ Xovard Husok (23 iyun 2020). "Munitsipal chiqindilarni qayta ishlash bo'yicha pasayish holati". Iqtisodiy ta'lim fondi.
  89. ^ Daniel K. Benjamin (2010). "Qayta ishlash va chiqindilar Ogayo shtatida 6,7 ​​milliard dollarlik iqtisodiy ta'sirga ega" (PDF).
  90. ^ "Uchinchi dunyoga juda ko'p zaharli kompyuter chiqindilari tushadi". USA Today. 25 fevral 2002 yil. Olingan 6 noyabr 2012.
  91. ^ "Xitoyda ekologik va sog'liqqa zarar". svtc.igc.org. 9 Noyabr 2003. Arxivlangan asl nusxasi 2003 yil 9-noyabrda. Olingan 6 noyabr 2012.
  92. ^ "Noqonuniy chiqindilar va sog'liqqa va atrof-muhitga zarar etkazish". Arxivlandi asl nusxasi 2012 yil 9-noyabrda. Olingan 6 noyabr 2012.
  93. ^ Xogg M. "Narxlar oshgani sayin chiqindilar oltindan ustun". Financial Times.(ro'yxatdan o'tish talab qilinadi)
  94. ^ Bonni DeSimone (2006 yil 21 fevral). "Qayta ishlab chiqaruvchilarni mukofotlash va axlatdan oltin topish". The New York Times.
  95. ^ Lin R. Kaxl; Eda Gurel-Atay, tahrir. (2014). Yashil iqtisodiyot uchun barqarorlikni ta'minlash. Nyu-York: M.E. Sharpe. ISBN  978-0-7656-3680-5.
  96. ^ Keyingi hayot: Aleks Diyner tomonidan demontaj qilish uchun loyihalashtirish uchun muhim qo'llanma
  97. ^ "Binolarni demontaj qilish va qayta tiklashni loyihalash bo'yicha ma'lumotlar". epa.gov. EPA. 14 mart 2016 yil. Olingan 12 mart 2019.
  98. ^ Huesemann, M. H. (2003). "Barqaror rivojlanish uchun texnologik echimlar chegaralari" (PDF). Techn Environ siyosatini tozalang. 5: 21–34. doi:10.1007 / s10098-002-0173-8. S2CID  55193459. Arxivlandi asl nusxasi (PDF) 2011 yil 28 sentyabrda.
  99. ^ Teri, Jon (30 iyun 1996). "Qayta ishlash axlat". The New York Times. p. 3. Arxivlangan asl nusxasi 2008 yil 6-dekabrda. Olingan 28 fevral 2008.
  100. ^ Morris, J. (2005). "Qo'rqoqni qayta ishlashga nisbatan chiqindilarni qayta ishlashga yoki energiyani qayta tiklash bilan yoqishga nisbatan solishtirma LCA" (12 bet). Xalqaro hayot tsiklini baholash jurnali, 10(4), 273–284.
  101. ^ Oskamp, ​​S (1995). "Resurslarni tejash va qayta ishlash: o'zini tutish va siyosat". Ijtimoiy masalalar jurnali. 51 (4): 157–177. doi:10.1111 / j.1540-4560.1995.tb01353.x.
  102. ^ Pimenteyra, C. A .; Pereyra, A. S.; Oliveira, L. B .; Roza, L. P.; Rays, M. M .; Henriques, R. M. (2004). "Braziliyada qayta ishlash tufayli konservatsiya va CO2 emissiyasini kamaytirish". Chiqindilarni boshqarish (Nyu-York, NY). 24 (9): 889–97. doi:10.1016 / j.wasman.2004.07.001. PMID  15504666.
  103. ^ a b Braun, M. T .; Buranakarn, V. (2003). "Barqaror moddiy tsikllar va qayta ishlash imkoniyatlari uchun emmeriya indekslari va nisbati" (PDF). Resurslar, konservatsiya va qayta ishlash. 38 (1): 1–22. doi:10.1016 / S0921-3449 (02) 00093-9. Arxivlandi asl nusxasi (PDF) 2012 yil 13 martda.
  104. ^ Energiya bo'yicha ma'muriyat "Qog'oz va shishani qayta ishlash". Qabul qilingan 18 oktyabr 2006 yil.
  105. ^ Decker, Ethan H.; Elliott, Skott; Smit, Felisa A.; Bleyk, Donald R.; Rowland, F. Sherwood (2000 yil noyabr). "Shahar ekotizimi orqali energiya va materiallar oqimi". Energiya va atrof-muhitning yillik sharhi. 25 (1): 685–740. CiteSeerX  10.1.1.582.2325. doi:10.1146 / annurev.energy.25.1.685. ISSN  1056-3466. OCLC  42674488.[o'lik havola ]yopiq kirish(obuna kerak) (Arxiv ochiq kirish).
  106. ^ Atrof muhitni muhofaza qilish agentligi Qayta ishlash va chiqindilarni boshqarish bo'yicha tez-tez so'raladigan savollar Arxivlandi 2006 yil 27 sentyabrda Orqaga qaytish mashinasi. Qabul qilingan 18 oktyabr 2006 yil.
  107. ^ "ITP alyuminiy: AQSh alyuminiy sanoatining energetik va ekologik holati" (PDF). Arxivlandi asl nusxasi (PDF) 2011 yil 11 avgustda. Olingan 6 noyabr 2012.
  108. ^ "Alyuminiy qutilarini plastikka qarshi qayta ishlash". Arxivlandi asl nusxasi 2011 yil 26 oktyabrda. Olingan 21 oktyabr 2011.
  109. ^ "Raqamlarga ko'ra" CanCentral.com. Qabul qilingan 18 avgust 2019.
  110. ^ Brunner, P. H. (1999). "Oxirgi lavaboni qidirishda". Atrof. Ilmiy ish. & Ifloslanish. Res. 6 (1): 1. doi:10.1007 / bf02987111. PMID  19005854. S2CID  46384723.
  111. ^ Landsburg, Stiven E. Kreslo iqtisodchisi. p. 86.
  112. ^ Selke 116
  113. ^ Grosse, F. (2010). "Qayta ishlash" echimning bir qismi "bo'ladimi? Qayta ishlashning kengayib borayotgan jamiyatdagi va cheklangan resurslar dunyosidagi o'rni". S.A.P.I.EN.S. 3 (1): 1–17.
  114. ^ Sahni, S .; Gutovski, T. G. (2011). Sizning chiqindilaringiz, mening chiqindilarim! Xalqaro savdo orqali chiqindilar materiallari oqimi (PDF). IEEE Barqaror tizimlar va texnologiyalar bo'yicha xalqaro simpozium (ISSST). 1-6 betlar. doi:10.1109 / ISSST.2011.5936853. ISBN  978-1-61284-394-0. S2CID  2435609.
  115. ^ Steffen, L. (2010). "Shaharda resurslarni tiklash va moddiy oqim: nol chiqindilar va barqaror iste'mol shahar rivojlanishidagi paradigmalar sifatida". Barqarorlik. Dev. Huquqiy siyosat. XI: 28–38.
  116. ^ Zamon, A. U .; Lehmann, S. (2011). "Shaharni" Zero chiqindi shahar "ga aylantirishdagi muammolar va imkoniyatlar'". Qiyinchiliklar. 2 (4): 73–93. doi:10.3390 / challe2040073.
  117. ^ a b Huesemann, M .; Huesemann, J. (2011). Techno-fix: Nima uchun texnologiya bizni yoki atrofni qutqarmaydi. Yangi jamiyat noshirlari. p. 464. ISBN  978-0-86571-704-6. Olingan 7 iyul 2016.
  118. ^ Klark, B.; Foster, J. B. (2009). "Ekologik imperializm va global metabolik yoriq: teng bo'lmagan almashinuv va guano / nitratlar savdosi" (PDF). Xalqaro qiyosiy sotsiologiya jurnali. 50 (3–4): 311–334. doi:10.1177/0020715209105144. S2CID  154627746. Arxivlandi asl nusxasi (PDF) 2012 yil 27 aprelda.
  119. ^ Foster, J. B .; Klark, B. (2011). Ekologik yoriq: Yerdagi kapitalizmlar urushi. Oylik obzor matbuoti. p. 544. ISBN  978-1-58367-218-1.
  120. ^ Alkott, B. (2005). "Jevons paradoksi" (PDF). Ekologik iqtisodiyot. 54: 9–21. doi:10.1016 / j.ecolecon.2005.03.020. hdl:1942/22574. Arxivlandi asl nusxasi (PDF) 2013 yil 3 sentyabrda.
  121. ^ Boylikka isrof qiling Qayta ishlashga oid beshta eng xavfli afsona Arxivlandi 2009 yil 29-may kuni Orqaga qaytish mashinasi. Qabul qilingan 18 oktyabr 2006 yil.
  122. ^ Amerika Qo'shma Shtatlari Energetika vazirligi Energiyani tejash - plastiklarni qayta ishlash. Qabul qilingan 2006 yil 10-noyabr.
  123. ^ Atrof muhitni muhofaza qilish agentligi Qayta tiklangan shisha uchun bozorlar.
  124. ^ Amerika Qo'shma Shtatlarining Geologik xizmati Mineral tovarlarning qisqacha mazmuni. Qabul qilingan 2006 yil 10-noyabr.
  125. ^ Sepulveda, A .; Schluep, M .; Reno, F. G.; Streicher, M .; Kuehr, R .; Xageluken, C .; va boshq. (2010). "Qayta ishlash jarayonida elektr va elektron uskunalardan chiqadigan zararli moddalarning atrof-muhit taqdiri va ta'sirini o'rganish: Xitoy va Hindiston misollari" (PDF). Atrof muhitga ta'sirini baholash sharhi. 30: 28–41. doi:10.1016 / j.eiar.2009.04.001. Arxivlandi asl nusxasi (PDF) 2011 yil 26 yanvarda.
  126. ^ Stiven E. Landsburg. "Men nega ekolog emasman: Iqtisodiyot fani ekologiya diniga qarshi: kreslo iqtisodchisidan parcha: Iqtisodiyot va kundalik hayot" (PDF) (PDF). Arxivlandi asl nusxasi (PDF) 2016 yil 4 martda. Olingan 6 iyul 2016.
  127. ^ Landsburg, Stiven A. Kreslo iqtisodchisi. p. 81.
  128. ^ Baird, Kolin (2004). Atrof-muhit kimyosi (3-nashr). W. H. Freeman. ISBN  0-7167-4877-0.
  129. ^ de Jesus, Shimo'n (1975). "Tropikada qog'ozni qanday qilish kerak". Unasylva. 27 (3).
  130. ^ UNFCCC (2007). "Iqlim o'zgarishini hal qilish uchun sarmoyalar va moliyaviy oqimlar" (PDF). unfccc.int. UNFCCC. p. 81. Olingan 7 iyul 2016.
  131. ^ Vuong, Q.-H .; Xo, M-T .; Nguyen, T. H-K.; Nguyen, M.-H. (2019). "Barqaror sanoat o'sishining trilemmasi: OECD ning Yashil shahrini sinovdan o'tkazganidan dalillar". Palgrave Communications. 5: 156. doi:10.1057 / s41599-019-0369-8.CS1 maint: bir nechta ism: mualliflar ro'yxati (havola)
  132. ^ Towie, Narelle (2019 yil 28-fevral). "Yonayotgan muammo: chiqindilarni energiya bilan ishlaydigan zavodlar yaxshi fikrmi?". Guardian. ISSN  0261-3077. Olingan 23 dekabr 2019.
  133. ^ "Uloqtirish juda yaxshi - A ilova". NRDC. 30 iyun 1996 yil. Olingan 6 noyabr 2012.
  134. ^ Missiya politsiyasi Arxivlandi 2012 yil 13 may kuni Orqaga qaytish mashinasi
  135. ^ a b v PBS NewsHour, 16 Fevral 2010. Zabaleen haqida hisobot
  136. ^ Medina, M. (2000). "Osiyo va Lotin Amerikasidagi chiqindilar kooperativlari". Resurslar. 31: 51–69. CiteSeerX  10.1.1.579.6981. doi:10.1016 / s0921-3449 (00) 00071-9.
  137. ^ "News-Herald - metallolom o'g'irlaydi". Zwire.com. Olingan 6 noyabr 2012.[doimiy o'lik havola ]
  138. ^ "Bay maydoniga qimmat bo'lgan qutilarni qayta ishlash bo'yicha reydlar". MILLIY RADIO. 19 iyul 2008 yil. Olingan 6 noyabr 2012.
  139. ^ Greydel, T.E; Olvud, J; Birat, J-P; Reck, B.K (2011). "Metalllarni qayta ishlash stavkalari - holat to'g'risidagi hisobot. Global metall oqimlari bo'yicha ishchi guruhning xalqaro resurslar panelidagi hisoboti" (PDF). UNEP.
  140. ^ Mur, C. J. (2008). "Dengiz muhitidagi sintetik polimerlar: tez o'sib boruvchi, uzoq muddatli tahdid". Atrof-muhit tadqiqotlari. 108 (2): 131–139. Bibcode:2008ER .... 108..131M. doi:10.1016 / j.envres.2008.07.025. PMID  18949831.
  141. ^ Shackelford, T.K. (2006). "Qayta ishlash, evolyutsiya va inson shaxsining tuzilishi". Shaxsiyat va individual farqlar. 41 (8): 1551–1556. doi:10.1016 / j.paid.2006.07.020.
  142. ^ Pratarelli, Mark E. (2010 yil 4-fevral). "Ijtimoiy bosim va qayta ishlash: qisqacha sharh, sharhlar va kengaytmalar". S.A.P.I.EN.S. 3 (1). Olingan 6 noyabr 2012.
  143. ^ Chaudhuri, Saabira (2019 yil 19-dekabr). "Qayta ishlashni qayta ko'rib chiqish: Xitoy uni olib ketmasligi uchun endi axlat bilan nima qilish kerak". The Wall Street Journal.
  144. ^ Burn, Shawn (2006). "Ijtimoiy psixologiya va qayta ishlash xatti-harakatlarini rag'batlantirish: blok rahbarining yondashuvi". Amaliy ijtimoiy psixologiya jurnali. 21 (8): 611–629. CiteSeerX  10.1.1.462.1934. doi:10.1111 / j.1559-1816.1991.tb00539.x.
  145. ^ Oskamp, ​​Styuart (1995). "Resurslarni tejash va qayta ishlash: o'zini tutish va siyosat". Ijtimoiy masalalar jurnali. 51 (4): 157–177. doi:10.1111 / j.1540-4560.1995.tb01353.x.

Qo'shimcha o'qish

Tashqi havolalar

Kutubxona resurslari haqida
Qayta ishlash

Tegishli jurnallar

Shuningdek qarang: Turkum: Chiqindilarni boshqarish bo'yicha jurnallar