Yadro energetikasi bo'yicha bahs - Nuclear power debate

Styuart brendi 2010 yilgi bahsda "Dunyoga atom energiyasi kerakmi?"^[1]

The atom energetikasi bo'yicha bahs uzoq davom etgan qarama-qarshilik^{[2][3][4][5][6][7][8]} foydalanish xavfi va foydalari haqida atom reaktorlari hosil qilish elektr energiyasi fuqarolik maqsadlarida. Haqida munozara atom energiyasi o'tgan asrning 70-80 yillarida avjiga chiqdi, chunki tobora ko'proq reaktorlar qurilib, Internetga ulanmoqda va ba'zi mamlakatlarda "texnologiya mojarolari tarixida misli ko'rilmagan darajada avj oldi".^[9][10] Keyinchalik, atom sanoati ish joylarini yaratdi, xavfsizlikka e'tiborni qaratdi va jamoatchilik tashvishlari asosan pasayib ketdi. So'nggi o'n yillikda aholining iqlim o'zgarishi va karbonat angidrid va metan chiqindilari atmosfera isishiga sabab bo'ladigan muhim roli to'g'risida xabardorligi oshgani sayin, atom energetikasi bilan bog'liq munozaralarning qizg'inligi qayta tiklandi. Atom energetikasi tarafdorlari va iqlim o'zgarishi haqida eng ko'p tashvishlanayotganlar atom energiyasining ishonchli, emissiyasiz, yuqori zichlikdagi energiyasini, shuningdek, qazib olinadigan yoqilg'ilar o'rnini bosuvchi yangi yadro texnologiyasini vujudga keltirish uchun ishlaydigan yosh fiziklar va muhandislar avlodi bilan bir qatorda ta'kidlaydilar. Boshqa tomondan, skeptiklar o'lim kabi yadro hodisalariga ishora qilmoqdalar Louis Slotin, Shisha yong'in, Uch Mile orolidagi avariya, Chernobil fojiasi, va Fukushima Daiichi yadroviy halokati, global terrorizmning tobora kuchayib borayotgan harakatlari bilan birlashganda, texnologiyadan doimiy foydalanishga qarshi chiqish.

Bugun atom energiyasidan qo'rqadiganlar va insoniyat atom energiyasidan foydalanmasa, er yuzida nima bo'lishidan qo'rqadiganlar o'rtasida bahs davom etmoqda. 1963 yilda dunyodagi eng katta atom elektr stantsiyasiga aylanishi uchun poydevor qurishda Prezident Jon F. Kennedi atom energetikasi "tinchlik sari uzoq yo'lda qadam" ekanligini va "muhim yutuqlarga erishish uchun ilm-fan va texnologiyalarni" qo'llagan holda biz dunyoni yanada yaxshi holatda qoldirish uchun "resurslarni tejashimiz" mumkinligini e'lon qildi. Shunga qaramay, u Atom davri "dahshatli asr" bo'lganligini va "atomni parchalab tashlaganimizda, biz dunyo tarixini o'zgartirdik" deb tan oldi.^[11]

Atom energiyasi tarafdorlari atom energetikasi toza va barqaror energiya juda katta miqdorda uzluksiz energiya ta'minlaydigan manba atmosferani ifloslantiruvchi yoki uglerod chiqindilari bu sabab Global isish. Atom energiyasidan foydalanish mo'l-ko'l, yaxshi maoshli ishlarni ta'minlaydi, energiya xavfsizligi, import qilinadigan yoqilg'iga bog'liqlikni kamaytiradi va resurs spekulyatsiyasi va Yaqin Sharq siyosati bilan bog'liq narx xavfiga ta'sir qiladi.^[12] Himoyachilar atom energetikasi deyarli havoni ifloslantirmaydi degan tushunchani ilgari surmoqdalar,^[13] katta miqdordagi ifloslanish va yonish natijasida hosil bo'lgan uglerod chiqindilaridan farqli o'laroq Yoqilg'i moyi ko'mir, neft va tabiiy gaz kabi. Zamonaviy jamiyat kecha va tunning har qanday vaqtida aloqa, kompyuter tarmoqlari, transport, sanoat va turar joylarni energiya bilan ta'minlash uchun doimo energiya talab qiladi. Yadro energiyasi mavjud bo'lmaganda, kommunal xizmatlar yoqilg'i yoqilg'isini yoqib yuborishi kerak, hatto quyosh va shamol energiyasidan foydalanish imkoniyati mavjud bo'lganda ham energiya tarmog'ini ushlab turish kerak, chunki bu manbalar vaqti-vaqti bilan. Himoyachilar, shuningdek, atom energetikasi mamlakat uchun energetik mustaqillikka erishishning yagona hayotiy yo'nalishi deb hisoblaydilar va shu bilan birga o'zlarining "ambitsiyalari" bilan uchrashadilar. Milliy belgilangan hissalar (NDC) ga muvofiq uglerod chiqindilarini kamaytirish Parij kelishuvi 195 davlat imzolagan. Ularning ta'kidlashicha, chiqindilarni saqlash xavfi kichik va mavjud zaxiralarni kamaytirish mumkin ushbu chiqindilarni ishlatish yangi reaktorlarda eng yangi texnologiyalar uchun yoqilg'i ishlab chiqarish. Yadro xavfsizligi ko'rsatkichi boshqa yirik elektr stantsiyalari bilan taqqoslaganda juda yaxshi^[14] va ifloslanishning oldini olish bilan har yili hayotni saqlab qoladi.^[15]

Raqiblar atom energetikasi odamlar va atrof-muhit uchun ko'plab tahdidlarni keltirib chiqarmoqda va agar u hech qachon shunday bo'ladimi degan savolni adabiyotda o'rganishga ishora qiladi. barqaror energiya manbai. Ushbu tahdidlar sog'liq uchun xavfli, baxtsiz hodisalar va atrof-muhitga zarar etkazishni o'z ichiga oladi uran qazib olish, qayta ishlash va transport. Bilan bog'liq qo'rquvlar bilan bir qatorda yadro qurolining tarqalishi, atom energiyasi muxoliflari qo'rqishadi terrorchilar tomonidan qilingan sabotaj yadro zavodlari, radioaktiv yoqilg'i yoki yoqilg'i chiqindilarini yo'naltirish va ulardan maqsadsiz foydalanish, shuningdek, radioaktiv moddalarni uzoq vaqt saqlanmagan va nomukammal saqlash jarayonidan tabiiy ravishda chiqib ketish yadro chiqindilari.^[16][17][18] Ular, shuningdek, reaktorlarning o'zi juda ko'p murakkab mashinalar, ular juda ko'p narsalar noto'g'ri bo'lishi va sodir bo'lishi mumkin, deb o'ylashadi va juda jiddiy yadro hodisalari.^[19][20] Tanqidchilar ushbu xatarlarni yangi vositalar yordamida kamaytirish mumkinligiga ishonmaydilar texnologiya.^[21] Ular bundan tashqari, barcha energiya talab qiladigan bosqichlar yadro yoqilg'isi zanjiri uran qazib olishdan tortib to yadroviy ishdan chiqarish, atom energiyasi kam uglerodli elektr manbai emas.^[22][23][24]

Elektr va energiya ta'minoti

The Butunjahon yadro assotsiatsiyasi 2012 yilda atom elektr energiyasini ishlab chiqarish 1999 yildan beri eng past darajada bo'lganini xabar qildi. WNA "Yaponiya flotining asosiy qismi butun kalendar yil davomida oflayn rejimda qolishi sababli 2012 yilgacha atom energiyasini ishlab chiqarish bir yillik eng katta pasayishiga duch keldi" deb aytdi. .^[25]

Ma'lumotlar Xalqaro atom energiyasi agentligi 2012 yilda atom elektr stantsiyalari dunyo miqyosida 2346 teravatt-soat (8450 PJ) elektr energiyasi ishlab chiqarganligini ko'rsatdi - bu 2011 yildagiga nisbatan 7 foizga kam. Raqamlar yil davomida hech qanday energiya ishlab chiqarmagan 48 yapon energetik reaktorining butun yilgi ta'sirini ko'rsatadi. Germaniyada sakkizta reaktor agregatlarining doimiy ravishda yopilishi ham bunga sabab bo'ldi. Muammolar Kristal daryosi, Kalxun Fort va ikkitasi San-Onofre AQShdagi birliklar butun yil davomida hech qanday quvvat ishlab chiqarmaganligini anglatar edi, Belgiyada esa Doel 3 va Tihange 2 olti oy davomida ishlamay qolishdi. 2010 yilga nisbatan 2012 yilda atom sanoati 11 foiz kam elektr energiyasi ishlab chiqargan.^[25]

Braziliya, Xitoy, Germaniya, Hindiston, Yaponiya, Meksika, Niderlandiya, Ispaniya va Buyuk Britaniya endi yadro manbalaridan ko'ra ko'proq qayta tiklanadigan energetikadan ko'proq energiya ishlab chiqaradi. 2015 yilda yangi energiya ishlab chiqarish quyosh energiyasi global umumiy hajmning 33 foizini tashkil etdi, shamol kuchi faqat Xitoyda rivojlanish hisobiga 17% dan yuqori, atom energiyasi uchun esa 1,3%.^[26]

Energiya xavfsizligi

Ba'zi mamlakatlar uchun atom energetikasi energiya mustaqilligini ta'minlaydi. Yadro energetikasi nisbatan ta'sir ko'rsatmadi embargo va uran eksport qilishni istagan mamlakatlarda, shu jumladan Avstraliya va Kanadada qazib olinadi.^[27][28] Biroq, hozirgi kunda dunyoda uran ishlab chiqarishning 30 foizdan ko'prog'iga mas'ul bo'lgan mamlakatlar: Qozog'iston, Namibiya, Niger va O'zbekiston siyosiy jihatdan beqaror.^[29]

IAEA tomonidan o'tkazilgan bitta baholash shuni ko'rsatdiki, hozirgi reaktor parkining ehtiyojlarini 40-50 yil davomida ta'minlash uchun etarli miqdordagi yuqori ruda mavjud.^[30] Sovacool (2011) ma'lumotlariga ko'ra, mavjud uran konlarining zaxiralari tezda tugab bormoqda va mavjud yoqilg'ida kutilayotgan etishmovchilik kelajakdagi zavodlarga tahdid soladi va mavjud zavodlarda uran narxlarining o'zgaruvchanligiga yordam beradi. Uran yoqilg'isi narxining ko'tarilishi yadro loyihalarining hayotiyligini pasaytirdi.^[30] Uran narxi pasayishdan oldin 2001 yildan 2007 yilgacha ko'tarilgan.^[31]

The Xalqaro atom energiyasi agentligi va Yadro energetikasi agentligi ning OECD, jahon uran resurslari va talabi bo'yicha so'nggi sharhlarida, Uran 2014: Resurslar, ishlab chiqarish va talab, uran resurslari "yadro quvvatining sezilarli o'sishini" qo'llab-quvvatlaydi degan xulosaga keldi va: "2012 yilgi uran talablari 61 600 tUni hisobga olgan holda aniqlangan resurslar 120 yildan ortiq vaqt davomida etarli".^[32]

Stenford tadqiqotiga ko'ra, tez ishlab chiqaruvchi reaktorlar milliardlab yillar davomida er yuzidagi odamlarni energiya bilan ta'minlash imkoniyatiga ega bo'lib, bu manbani barqaror qiladi.^[33] Ammo "plutoniy va yadro qurollari o'rtasidagi bog'liqlik tufayli tezkor selektsionerlarning potentsial qo'llanilishi atom energiyasini kengaytirish nazoratsiz davrni keltirib chiqaradi degan xavotirga sabab bo'ldi. qurollarning tarqalishi ".^[34]

Ishonchlilik

Qo'shma Shtatlar yadro reaktorlari parki 2019 yilda o'rtacha 800 TVt soatlik nol chiqadigan elektr energiyasini ishlab chiqardi imkoniyatlar omili 92% dan.^[35]

2010 yilda dunyo bo'yicha o'rtacha ko'rsatkich imkoniyatlar omili 80,1 foizni tashkil etdi.^[36] 2005 yilda o'rtacha quvvat koeffitsienti 86,8% ni tashkil etdi SCRAMs tanqidiy 7000 soat davomida 0,6, quvvatni yo'qotish rejasiz rejalashtirilgan koeffitsient esa 1,6% ni tashkil etdi.^[37] Imkoniyatlar koeffitsienti - bu ishlab chiqarilgan aniq quvvat, har doim 100% ishlaydigan maksimal miqdorga bo'linadi, shuning uchun barcha texnik xizmat ko'rsatish / yonilg'i quyish to'xtashi hamda rejadan tashqari yo'qotishlarni o'z ichiga oladi. 7000 soatlik har qanday reaktorning bir yil ichida qancha vaqtgacha muhim bo'lishini anglatadi, ya'ni skram stavkalari dunyodagi istalgan reaktor uchun yiliga 0,6 marta to'satdan va rejadan tashqari o'chirishga aylanadi. Rejalashtirilmagan quvvatni yo'qotish koeffitsienti rejadan tashqari scram va qayta ishga tushirishni keyinga qoldirilishi sababli ishlab chiqarilmagan quvvat miqdorini anglatadi.

Ga binoan Butunjahon yadro assotsiatsiyasi "Quyosh, shamol, to'lqinlar va to'lqinlarni to'g'ridan-to'g'ri doimiy ravishda ta'minlash uchun boshqarish mumkin emas asosiy yuk quvvat yoki kerak bo'lganda eng yuqori quvvatga ega bo'lgan quvvat, ... "" Amaliy ma'noda qayta tiklanmaydigan energiya manbalari elektr tarmoqlari quvvatining 15-20 foizigacha etkazib berishga qodir, ammo ularni to'g'ridan-to'g'ri qo'llash mumkin emas. ko'pgina ko'mir yoki atom energiyasini iqtisodiy o'rnini bosuvchi sifatida, ammo ular qulay sharoitga ega bo'lgan hududlarda muhim ahamiyat kasb etadi. "" Agar ushbu qayta tiklanadigan manbalarning asosiy imkoniyati ularning ko'pligi va nisbatan keng tarqalishi bo'lsa, asosiy muammo, ayniqsa elektr ta'minoti uchun, ularni qo'llashdir ularning o'zgaruvchan va tarqoq xususiyatlarini hisobga olgan holda talabni qondirish. Bu shuni anglatadiki, odatdagi tizim zaxirasidan tashqarida ishonchli elektr nusxalari manbalari yoki ba'zi bir elektr energiyasini saqlash vositalari bo'lishi kerak. "" Nisbatan kam joylar uchun imkoniyat mavjud nasosli saqlash suv omborlari elektr energiyasi kerak bo'lgan joyga yaqin va umumiy samaradorlik 80% dan kam. Katta hajmdagi elektr energiyasini ulkan batareyalarda yoki boshqa usulda saqlash vositalari ishlab chiqilmagan. "^[38]

Ga binoan Benjamin K. Sovacool, Quyosh va shamol energiyasini tanqid qiladigan ko'pgina tadqiqotlar faqat individual generatorlarni ko'rib chiqadi, ammo quyosh va shamol elektrostansiyalarining tizim ta'siriga emas. Energiya tebranishlari o'rtasidagi o'zaro bog'liqlik quyosh va quyosh kabi sezilarli darajada pasayadi shamol stansiyalari birlashgan (geografik yumshatish deb nomlanuvchi jarayon) va kengroq geografik hudud ham katta hovuzni yaratishga imkon beradi. energiya samaradorligi uzilishlarni kamaytirishga qaratilgan harakatlar.^[39]

Sovacool buni aytadi o'zgaruvchan qayta tiklanadigan energiya kabi manbalar shamol kuchi va quyosh energiyasi yadro resurslarini siqib chiqarishi mumkin.^[39] "Yaqinda o'tkazilgan to'qqizta tadqiqot shuni ko'rsatdiki, shamol va quyosh manbalarining o'zgaruvchanligi va uzilishlari ularni boshqarish va o'zaro bog'liqlik jihatidan boshqarish osonroq bo'ladi, aksincha, ba'zi bir kommunal xizmatlarning ta'kidlashicha. Buning sababi shundaki, shamol va quyosh qurilmalari tarmoq operatorlariga yordam beradi Tizimning boshqa joylarida katta uzilishlar va kutilmagan holatlar, chunki ular kichik o'simliklarda quvvatni kichik o'simliklarda kutilmagan uzilishlarga qaraganda kamroq zarar etkazadigan darajada ishlab chiqaradi ".^[39]

Tomonidan 2011 yildagi proektsiyaga muvofiq Xalqaro energetika agentligi, quyosh energiyasi generatorlar dunyodagi elektr energiyasining katta qismini 50 yil ichida ishlab chiqarishi mumkin shamol kuchi, gidroelektr va biomassa qolgan avlodning katta qismini ta'minlaydigan o'simliklar. "Fotovoltaik va jamlangan quyosh energiyasi birgalikda elektr energiyasining asosiy manbaiga aylanishi mumkin. "^[40] Qayta tiklanadigan texnologiyalar energiya xavfsizligini oshirishi mumkin elektr energiyasini ishlab chiqarish, issiqlik ta'minoti va transport.^[41]

2013 yildan boshlab Butunjahon yadro assotsiatsiyasi "Qayta tiklanadigan energetikaga, xususan quyosh va shamol energiyasiga misli ko'rilmagan qiziqish mavjud, ular elektr energiyasini hech qanday karbonat angidrid chiqindisiz chiqmasdan ta'minlaydi. Bularni elektr energiyasidan foydalanish texnologiyaning narxi va samaradorligiga bog'liq bo'lib, u doimo yaxshilanib boradi va shu bilan kamayadi. kilovattning eng yuqori pog'onasi uchun xarajatlar. "^[42]

20-50 +% oralig'ida qayta tiklanadigan elektr energiyasi ta'minoti allaqachon Evropaning birlashgan tizimlari sharoitida bo'lsa ham, bir nechta Evropa tizimlarida amalga oshirilgan.^[43] 2012 yilda Germaniyada qayta tiklanadigan manbalar tomonidan ishlab chiqarilgan elektr energiyasining ulushi 21,9% ni tashkil etdi, Germaniya esa 2011 yilda 18 ta yadro reaktorining 7–8 qismini yopgandan keyin atom energiyasi uchun 16,0% ni tashkil etdi.^[44] Buyuk Britaniyada qayta tiklanadigan energetikadan ishlab chiqariladigan energiya miqdori 2018 yilga kelib atom energiyasidan ko'p bo'lishi kutilmoqda,^[45] va Shotlandiya 2020 yilgacha barcha elektr energiyasini qayta tiklanadigan energiyadan olishni rejalashtirmoqda.^[46] Dunyo bo'ylab o'rnatilgan qayta tiklanadigan energetikaning aksariyati quyidagicha gidroenergetika kengayish imkoniyati cheklangan.^[47]

The IPCC agar hukumatlar qo'llab-quvvatlasa va uni to'liq to'ldirsa qayta tiklanadigan energiya texnologiyalar joylashtirildi, qayta tiklanadigan energiya ta'minoti qirq yil ichida dunyodagi energiya ishlatilishining deyarli 80 foizini tashkil qilishi mumkin edi.^[48] Rajendra K. Pachauri IPCC raisi, qayta tiklanadigan manbalarga zaruriy sarmoyalar har yili global YaIMning atigi 1 foiziga tushishini aytdi. Ushbu yondashuv issiqxona gazlari miqdorini millionga 450 qismdan kam miqdorda o'z ichiga olishi mumkin, xavfsiz darajadan tashqari iqlim o'zgarishi halokatli va qaytarib bo'lmaydigan bo'ladi.^[48]

The atom energiyasining narxi o'sib borayotgan tendentsiyani kuzatdi^{[iqtibos kerak ]} Holbuki elektr energiyasining narxi shamol energiyasida pasayib bormoqda.^[49] 2014 yildan boshlab AQShda shamol sanoati uzunroq pichoqli balandroq turbinalar yordamida yuqori balandlikdagi tezroq shamollarni ushlab, arzon narxlarda ko'proq energiya ishlab chiqarishga qodir. Bu yangi imkoniyatlarni ochdi va Indiana, Michigan va Ogayo shtatlarida erdan 300 metrdan 400 fut balandlikda qurilgan shamol turbinalarining energiya narxi endi ko'mir kabi odatiy qazilma yoqilg'ilar bilan raqobatlasha oladi. Narxlar ba'zi holatlarda kilovatt-soatiga qariyb 4 sentga tushib ketgan va kommunal xizmatlar bu ularning eng arzon varianti deb, portfelidagi shamol energiyasi miqdorini ko'paytirmoqda.^[50]

Xavfsizlik nuqtai nazaridan atom energiyasi, etkazib berilayotgan elektr energiyasining birligi uchun halok bo'lgan hayot jihatidan, ko'pchilik bilan taqqoslanadi va ba'zi holatlarda qayta tiklanadigan energiya manbalar.^[51][52] An'anaviy qayta tiklanadigan energiya manbalari bilan saqlash yoki qayta ishlashga muhtoj bo'lgan radioaktiv ishlatilgan yoqilg'i yo'q^[53] qayta tiklanadigan energiya manbalari talab qilsa ham noyob tuproq elementlari past darajadagi radioaktiv chiqindilar ishlab chiqaradigan qazib olinishi kerak. Yadro zavodi demontaj qilinishi va olib tashlanishi kerak. Demontaj qilingan atom zavodining katta qismi past darajadagi yadro chiqindilari sifatida saqlanishi kerak.^[54] Quyosh panellari tarkibida atom energiyasi stantsiyalariga qaraganda energiya birligiga 300 barobar ko'proq zaharli chiqindilar ishlab chiqaradi kadmiy va boshqa toksik elementlar.^[55]

Chunki atom elektr stantsiyalari tubdan issiqlik dvigatellari, chiqindi issiqlik utilizatsiya yuqori darajadagi muammoga aylanadi atrof-muhit harorati. Qurg'oqchilik va yuqori haroratning uzoq davom etishi "atom energiyasini ishlab chiqarishni nogiron qilishi mumkin, va ko'pincha bu davrda elektr energiyasiga ehtiyoj eng yuqori bo'lgan payt, chunki konditsioner va sovutish yuklari va gidroelektr quvvati pasaygan".^[56] Bunday juda issiq havoda elektr reaktori pasaytirilgan quvvat darajasida ishlashi yoki hatto o'chirilishi kerak.^[57] 2009 yilda Germaniyada uskunalar yoki daryolarning qizib ketishi bilan bog'liq sabablarga ko'ra yozning issiq kunlarida sakkizta atom reaktori bir vaqtning o'zida yopilishi kerak edi.^[56] Chiqarilgan suv haddan tashqari qizib ketganligi sababli, ilgari baliqlar sezilarli darajada nobud bo'lib, hayotga zarar etkazgan va jamoatchilikning tashvishini oshirgan.^[58] Ushbu masala barcha issiqlik elektr stantsiyalariga, shu jumladan qazilma gaz, ko'mir va atomga bir xil darajada tegishli.^[59]

Iqtisodiyot

Yangi atom stansiyalari

EDF uchinchi avlodini aytdi EPR Flamanville 3 loyihasi (bu erda 2010 yilda ko'rilgan) "ham tarkibiy, ham iqtisodiy sabablarga ko'ra" 2018 yilga qoldiriladi va loyihaning umumiy qiymati 2012 yilda 11 milliard evroga ko'tarildi.^[60] Xuddi shunday, qiymati Finlyandiyaning Olkiluoto shahrida qurilgan EPR juda keskinlashdi va loyiha belgilangan muddatdan ancha orqada qoldi. Ular uchun dastlabki arzon narxlardagi prognozlar megaproyektlar namoyish etildi "nekbinlik tarafkashlik ".^[61]

Yangi atom elektr stantsiyalarining iqtisodi munozarali mavzudir, chunki bu mavzu bo'yicha turli xil qarashlar mavjud va energiya manbasini tanlashga milliardlab dollarlik sarmoyalar asos solmoqda. Atom elektr stantsiyalari odatda zavodni qurish uchun katta kapital xarajatlarga ega, ammo to'g'ridan-to'g'ri yonilg'i xarajatlari past (yoqilg'ini qazib olish, qayta ishlash, ishlatish va uzoq muddatli saqlash xarajatlarining katta qismi tashqi). Shu sababli, elektr energiyasini ishlab chiqarishning boshqa usullari bilan taqqoslash qurilish vaqtlari va atom stansiyalarini kapital moliyalashtirish haqidagi taxminlarga juda bog'liq. Xarajatlar smetasini ham hisobga olish kerak o'simliklarni ishdan chiqarish va yadro chiqindilari saqlash xarajatlari. Boshqa tomondan, choralar yumshatish Global isish, masalan uglerod solig'i yoki uglerod chiqindilari savdosi, atom energetikasi iqtisodiyotiga ustunlik berishi mumkin.

So'nggi yillarda elektr energiyasiga talabning o'sishi sekinlashdi va moliyalashtirish qiyinlashdi, bu yadroviy reaktor kabi yirik loyihalarni susaytiradi, juda katta xarajatlar va turli xil xavf-xatarlarga olib keladigan uzoq muddatli loyiha tsikllari.^[62] Sharqiy Evropada bir qator uzoq yillik loyihalar, xususan, Bolgariyadagi Belene va Ruminiyadagi Cernavoda qo'shimcha reaktorlari uchun mablag 'topishga qiynalmoqda va ba'zi potentsial qo'llab-quvvatlovchilar chiqib ketishdi.^[62] Arzon gazning ishonchli mavjudligi atom loyihalariga katta iqtisodiy to'sqinlik qiladi.^[62]

Atom energetikasi iqtisodiyotini tahlil qilishda kelajakdagi noaniqliklar xavfini kim ko'tarishi hisobga olinishi kerak. Hozirgi kunda barcha ishlaydigan atom elektr stantsiyalari tomonidan ishlab chiqilgan davlatga tegishli yoki tartibga solingan kommunal xizmatlar monopoliyalari^[63] bu erda qurilish xarajatlari, ekspluatatsion ko'rsatkichlar, yoqilg'i narxi va boshqa omillar bilan bog'liq ko'plab xatarlar etkazib beruvchilarga emas, balki iste'molchilar zimmasiga tushgan. Hozirgi kunda ko'plab mamlakatlar liberalizatsiya qildilar elektr energiyasi bozori bu xatarlar va kapital xarajatlari qoplanishidan oldin paydo bo'ladigan arzonroq raqobatchilar xavfi iste'molchilarga emas, balki zavod etkazib beruvchilari va operatorlariga tegishli bo'lib, bu yangi atom elektr stantsiyalarining iqtisodiyotini sezilarli darajada boshqacha baholashga olib keladi.^[64]

2011 yildan keyin Fukushima Daiichi yadroviy halokati, yoqilg'i yoqilg'isini boshqarish bo'yicha talablarning kuchayishi va dizayn asosidagi tahdidlarning ko'tarilishi sababli, amaldagi va yangi atom elektr stantsiyalari uchun xarajatlar oshishi mumkin.^[65]

Yangi atom elektr stantsiyalari oldindan investitsiyalarni talab qiladi, bular asosan katta stantsiyalarning yuqori darajada moslashtirilgan dizaynlari tufayli kelib chiqqan, ammo ularni standartlashtirilgan, qayta ishlatilishi mumkin bo'lgan loyihalar (Janubiy Koreya kabi)^[66]). Oldingi investitsiyalarda yangi atom elektr stantsiyalari yangi qayta tiklanadigan energetikaga qaraganda qimmatroq bo'lishiga qaramay, tarmoqning vaqti-vaqti bilan manbalar va energiya zaxiralari bilan to'yinganligi hamda erdan foydalanish bilan bog'liqligi sababli (ikkinchisining narxi tez o'sishi kutilmoqda) (qayta tiklanadigan manbalarda juda katta) ularning kengayishi uchun asosiy to'siq bo'lib qoladi.^[67]Filo Kichik modulli reaktorlar standartlashtirilgan dizayni va juda kichik murakkabligi tufayli ekvivalent bitta an'anaviy o'lchamdagi reaktordan sezilarli darajada arzonroq bo'lishi mumkin.^[67]

2020 yilda Xalqaro energetika agentligi yadroviy energetikani litsenziyalashning global tizimini yaratishga chaqirdi, chunki mavjud huquqiy vaziyatda har bir zavod dizayni har bir mamlakatda alohida litsenziyalanishi kerak.^[68]

Yadro stansiyalarini ishdan chiqarish qiymati

Energiya manbalarining narxi va har bir atom elektr stantsiyasining atrof-muhitga sarflanadigan xarajatlari ushbu ob'ekt so'nggi foydali elektr energiyasini ishlab chiqarishni tugatgandan so'ng ancha vaqtgacha davom etadi. Ham yadro reaktorlari, ham uranni boyitish inshootlari ishdan chiqarilishi kerak,^{[iqtibos kerak ]} ob'ektni va uning qismlarini boshqa maqsadlar uchun ishonib topshiriladigan darajada xavfsiz darajaga qaytarish. Bir asrga cho'zilishi mumkin bo'lgan sovitish davridan keyin,^{[iqtibos kerak ]} reaktorlarni demontaj qilish va mayda bo'laklarga bo'lib kesib, yakuniy yo'q qilish uchun idishlarga solib qo'yish kerak. Jarayon juda qimmat, ko'p vaqt talab etadi, tabiiy muhit uchun xavfli bo'lib, odamlarning xatosi, baxtsiz hodisalar yoki sabotaj uchun yangi imkoniyatlar yaratadi.^{[69][uchinchi tomon manbai kerak ]} Ammo, ushbu xavf-xatarlarga qaramay, Butunjahon yadro assotsiatsiyasining fikriga ko'ra, "50 yildan ortiq fuqarolik atom energetikasi tajribasida fuqarolik yadro chiqindilarini boshqarish va yo'q qilish sog'liq yoki ekologik jihatdan jiddiy muammolarni keltirib chiqarmagan va umuman general uchun hech qanday xavf tug'dirmagan. jamoat. "^[70]

Ishdan chiqarish uchun zarur bo'lgan umumiy energiya dastlabki qurilish uchun zarur bo'lgan energiyadan 50% ko'proq bo'lishi mumkin.^{[iqtibos kerak ]} Ko'pgina hollarda, ishdan chiqish jarayoni 300 million AQSh dollaridan 5,6 milliard AQSh dollarigacha turadi.^{[iqtibos kerak ]} Jiddiy avariyani boshdan kechirgan yadroviy maydonlarni ishdan chiqarish eng qimmat va ko'p vaqt talab etadi. AQShda 13 ta reaktor doimiy ravishda ishdan chiqqan va ulardan foydalanish tugash bosqichida bo'lib, ularning hech biri bu jarayonni yakunlamagan.^[69]

Hozirgi Buyuk Britaniyadagi zavodlarning soni oshishi kutilmoqda £ Ishdan chiqarish xarajatlari 73 mlrd.^[71]

Subsidiyalar

Jorj V.Bush imzolash 2005 yilgi energiya siyosati to'g'risidagi qonun AQShning yadro reaktori qurilishini rag'batlantirish va subsidiyalar, shu jumladan oltita yangi yadro zavodlari uchun jami 2 milliard dollargacha ortiqcha xarajatlarni qo'llab-quvvatlash orqali rivojlantirishga mo'ljallangan.^[72]

AQSh 2014 yil turiga ko'ra elektr energiyasini ishlab chiqarish.^[73]

Yadro energetikasini tanqid qiluvchilar uni noo'rin katta foyda oluvchi deb da'vo qilmoqdalar iqtisodiy subsidiyalar, tadqiqotlar va ishlanmalar shaklini olgan holda, yangi reaktorlarni qurish va eski reaktorlar va chiqindilarni ishdan chiqarishni qo'llab-quvvatlashni moliyalashtirish va yadroviy iqtisodiyotni elektr energiyasini ishlab chiqarishning boshqa turlariga taqqoslashda ushbu subsidiyalar ko'pincha e'tiborga olinmasligi.^[74][75]

Yadro energetikasi tarafdorlari raqobatdosh energiya manbalari ham subsidiyalar olishlarini ta'kidlaydilar. Qazilma yoqilg'ilar soliq imtiyozlari va bu uchun to'lamaslik kabi katta to'g'ridan-to'g'ri va bilvosita subsidiyalar oladi issiqxona gazlari ular chiqaradi, masalan, a orqali uglerod solig'i. Qayta tiklanadigan energiya manbalari ko'plab mamlakatlarda mutanosib ravishda to'g'ridan-to'g'ri ishlab chiqarishda subsidiyalar va soliq imtiyozlariga ega, garchi ular mutlaqo qayta tiklanmaydigan energiya manbalari tomonidan olinadigan subsidiyalardan kam bo'lsa ham.^[76]

Evropada FP7 tadqiqot dasturida qayta tiklanadigan va energiya samaradorligidan ko'ra atom energetikasi uchun ko'proq subsidiyalar mavjud; Buning 70% dan ortig'i ITER birlashma loyiha.^[77][78] AQShda 1980-2000 yillarda yadroviy bo'linish uchun ommaviy tadqiqot pullari 2179 dan 35 million dollarga kamaydi.^[76]

Global Subsidies Initiativening 2010 yilgi hisobotida eng keng tarqalgan energiya manbalarining nisbiy subsidiyalari taqqoslangan. Ma'lum bo'lishicha, yadro energiyasi ishlab chiqaradigan kilovatt soatiga (kVt soat) 1,7 AQSh tsent energiyasini oladi, fotoalbom yoqilg'ilar bilan taqqoslaganda kVt soatiga 0,8 AQSh sent, qayta tiklanadigan energiya uchun 5,0 AQSh sent va biologik yoqilg'ilar uchun 5,1 AQSh sent oladi.^[79]

Uglerodga soliqqa tortish ham yadro zavodlari, ham qayta tiklanadigan energiya manbalari iqtisodiyotida muhim ijobiy omil hisoblanadi, bularning barchasi ularning chiqindilarining pastligi hayot tsikli issiqxona gazlari chiqindilari.^[67]

2019 yilda qizg'in bahslar bo'lib o'tdi Yevropa Ittifoqi investitsiya imkoniyatlarini yaratishga mo'ljallangan "yashil moliya taksonomiyasi" ro'yxatini yaratish to'g'risida nol emissiya energiyasi texnologiyalar. Dastlab inklyuziya uchun asosiy mezon edi hayot tsikli chiqindilari 100 gCO2eq / kVt soat yoki undan kam, bu atom chegarasini yaxshi egallagan atom energiyasini o'z ichiga oladi (12). Lobbi ostida Evropa yashillari va Germaniya "zararli qilmang" qo'shimcha mezonlari, xususan, atom energiyasini ro'yxatdan chiqarib tashlashi kerak bo'lgan atom energetikasini chiqarib tashlash uchun.^[80][81]

2020 yil iyul oyida V. Gyude Mur, sobiq Liberiya Jamiyat ishlari bo'yicha vaziri, xalqaro taraqqiyot tashkilotlarini Afrikadagi yadro loyihalarini moliyalashtirishni boshlashga (yoki qayta boshlashga) AQSh Taraqqiyot Moliya Korporatsiyasi misolida chaqirdi. Mur Germaniya va Avstraliya singari yuqori daromadli mamlakatlarni "ikkiyuzlamachilikda" va "o'zlarining narvonlarini ko'tarishda" aybladi, chunki ular o'zlarining kuchli iqtisodiyotini o'nlab yillar davomida arzon qazilma yoki atom energetikasi asosida qurdilar va endi Afrika mamlakatlaridan foydalanishning oldini olishmoqda faqat kam uglerodli va davriy bo'lmagan alternativa - atom energetikasi.^[82]

Shuningdek, 2020 yil iyul oyida Vengriya atom energiyasi vodorod ishlab chiqarish uchun kam emissiya qilinadigan energiya manbai sifatida foydalanilishini e'lon qildi^[83] esa Chexiya CEZ atom elektr stantsiyasiga davlat kreditini tasdiqlash jarayonini boshladi.^[84]

Bilvosita yadro sug'urtasini subsidiyalash

Kristin Shrader-Frechette "agar reaktorlar xavfsiz bo'lsa, atom energetikalari elektr energiyasini ishlab chiqarish sharti sifatida hukumat tomonidan kafolatlangan, baxtsiz hodisalar uchun javobgarlikni himoya qilishni talab qilmas edi".^{[85][uchinchi tomon manbai kerak ]} Hech bir xususiy sug'urta kompaniyasi yoki hattoki sug'urta kompaniyalari konsortsiumi "jiddiy yadroviy baxtsiz hodisalardan kelib chiqadigan qo'rqinchli majburiyatlarni o'z zimmasiga olmaydi".^{[86][uchinchi tomon manbai kerak ]}

Natijasida yuzaga kelishi mumkin bo'lgan xarajatlar yadro halokati (shu jumladan terakt yoki tabiiy ofat oqibatida kelib chiqqan) juda yaxshi. Hozirgi kunda AQShda atom elektr stantsiyalari egalarining javobgarligi Narx-Anderson to'g'risidagi qonun (PAA). 1957 yilda ishlab chiqarilgan Prays-Anderson to'g'risidagi qonun "atom energiyasi ishlab chiqaruvchilar federal qo'llab-quvvatlamay turib olishni istamagan xatarlarni keltirib chiqarishi to'g'risida yashirin e'tirof" edi.^[87] Prays-Anderson qonuni "yadroviy kommunal xizmatlarni, sotuvchilarni va etkazib beruvchilarni xususiy sektor javobgarligining yuqori chegarasini belgilash orqali halokatli voqea sodir bo'lgan taqdirda javobgarlik talablaridan himoya qiladi". Bunday himoyasiz xususiy kompaniyalar bu ishda ishtirok etishni xohlamaydilar. Amerika sanoati tarixidagi biron bir texnologiyada adyolni doimiy ravishda himoya qilishdan foydalanilmagan.^{[88][uchinchi tomon manbai kerak ]}

PAA muddati 2002 yilda tugashi kerak edi va AQShning sobiq vitse-prezidenti Dik Cheyni 2001 yilda, agar PAA yangilanmasa, "hech kim atom elektr stantsiyalariga sarmoya kiritmaydi", dedi.^[89]

1983 yilda, AQSh yadroviy tartibga solish komissiyasi (USNRC), yadroviy sug'urtaga qo'yilgan javobgarlik chegaralari subsidiyani tashkil qilish uchun etarlicha ahamiyatga ega, degan xulosaga keldi, ammo o'sha paytda bunday subsidiyaning qiymatini aniqlashga urinmadi.^[90] 1990 yildan so'ng, ko'p o'tmay, Dubin va Rotvellar birinchi bo'lib AQShning atom sanoati uchun narxlar bo'yicha Anderson qonuni bo'yicha atom elektr stantsiyalari uchun javobgarlikni cheklash qiymatini baholashdi. Ularning asosiy usuli, operatorlarning PAA chegarasi bo'lmagan taqdirda, to'liq sug'urta uchun to'lashlari kerak bo'lgan to'liq javobgarlikka qarshi ekstrapolyatsiya qilish edi. Yiliga har bir reaktorga beriladigan subsidiyaning hajmi 1982 yildagi tuzatishlardan oldin 60 million dollarni tashkil etgan bo'lsa, 1988 yildagi tuzatishlardan so'ng 22 million dollargacha bo'lgan.^[91] Entoni Xeyes 2003 yildagi alohida maqolasida 1988 yilda yiliga 22 million dollarni 33 million dollarga (2001 dollar) tenglashtirgan.^[92]

Yadro falokati sodir bo'lgan taqdirda, agar da'volar ushbu asosiy majburiyatdan oshib ketsa, PAA barcha litsenziyalardan qo'shimcha ravishda avariya havzasiga maksimal 95,8 million dollar ajratishni talab qiladi - agar barcha reaktorlar maksimal to'lovni talab qilsa, taxminan 10 milliard dollar. Jiddiy voqea sodir bo'lgan taqdirda bu hali ham etarli emas, chunki etkazilgan zarar 10 milliard dollardan oshishi mumkin.^[93][94][95] PAA ma'lumotlariga ko'ra, baxtsiz hodisalar natijasida etkazilgan zararning qiymati 10 milliard dollardan oshishi kerak bo'lsa, qolgan xarajatlarni qoplash jarayoni Kongress tomonidan belgilanadi. 1982 yilda a Sandia milliy laboratoriyalari Tadqiqot natijalariga ko'ra, reaktor kattaligi va "noqulay sharoitlar" ga bog'liq holda jiddiy yadroviy avariya 314 milliard dollarga teng moddiy zarar etkazishi mumkin, halok bo'lganlar esa 50 ming kishiga yetishi mumkin.^[96]

Atrof muhitga ta'siri

Yadro ishlab chiqarishda to'g'ridan-to'g'ri oltingugurt dioksidi, azot oksidi, simob va boshqa yoqilg'i yoqilg'isi yonishi bilan bog'liq boshqa ifloslantiruvchi moddalar ishlab chiqarilmaydi. Atom energiyasi ham juda yuqori sirt quvvat zichligi Bu shuni anglatadiki, xuddi shu miqdordagi energiyani ishlab chiqarish uchun juda kam joy ishlatiladi (shamol yoki quyosh energiyasiga nisbatan ming baravar kam).^[97]

Atom energiyasining asosiy ekologik ta'siri kelib chiqadi uran qazib olish, radioaktiv chiqindi chiqindilar va chiqindi issiqlik. Yadro sanoati, shu jumladan o'tgan barcha yadroviy qurol sinovlari va yadroviy baxtsiz hodisalar umumiy hajmning 1 foizidan kamrog'ini tashkil etadi fon nurlanishi global miqyosda.

Biologik xilma-xillik, iqtisodiy va ekologik barqarorlik uchun muhim bo'lgan ta'sir etuvchi omillarning 2014 yildagi ko'p mezonli tahlili yadroviy va shamol energetikasi xarajatlar va xarajatlarning eng yaxshi nisbatlariga ega ekanligini ko'rsatdi va atrof-muhit harakatlarini yadro energetikasi va dalillarga asoslangan siyosat bo'yicha o'z pozitsiyalarini qayta ko'rib chiqishga chaqirdi.^[98] 2013 yilda xuddi shu xabar bilan iqlimshunos olimlar tomonidan imzolangan ochiq xat Ken Kaldeira, Kerri Emanuel, Jeyms Xansen, Tom Uigli^[99][100] va keyin ko'plab boshqalar tomonidan imzolangan.^[101]

Uran qazib olishda resurslardan foydalanish 840 m³ suv (90% gacha suv qayta ishlanadi) va qazib olinadigan bir tonna uran uchun 30 tonna CO2.^[102] Investitsiyalarning energiya samaradorligi (EROEI) uchun PWR atom elektr stantsiyasi 75-100 oralig'ida, ya'ni elektrostansiyaga sarf qilingan umumiy energiya 2 oy ichida qaytariladi. Median hayot tsikli issiqxona gazlari chiqindilari AES 12 gCO2eq / kVt soatni tashkil qiladi. Ikkala ko'rsatkich ham mavjud energiya manbalarining eng raqobatbardosh ko'rsatkichlaridan biridir. The Iqlim o'zgarishi bo'yicha hukumatlararo hay'at (IPCC) yadro energiyasini mavjud bo'lgan, hatto quyoshdan ham past bo'lgan va faqat shamol ta'sirida mavjud bo'lgan hayotiy tsiklning eng past energiya manbalaridan biri sifatida tan oladi.^[103] AQShning qayta tiklanadigan energetikaning milliy laboratoriyasi (NREL) yadroviy hayotni past tsiklli emissiya manbai sifatida ham keltiradi.

Greenpeace va boshqa ba'zi atrof-muhit tashkilotlari atom energiyasidan chiqadigan CO2 chiqindilariga oid da'volarni ilmiy ma'lumotlar tomonidan qo'llab-quvvatlanmaganligi uchun tanqid qilindi. Ularning ta'siri Frantsiyada 2020 yilda o'tkazilgan so'rovnomaning "shokka soluvchi" natijalari bilan bog'liq, bu erda respondentlarning 69% i atom energiyasi iqlim o'zgarishiga hissa qo'shadi deb hisoblagan.^[104] Masalan, Greenpeace Australia atom energiyasida "uglerod ishlab chiqarishda sezilarli tejash yo'q" deb da'vo qilmoqda,^[105] to'g'ridan-to'g'ri zid bo'lgan IPCC hayot tsikli tahlili.

Hayotiy tsikldagi atom energiyasidan foydalanish (to'g'ridan-to'g'ri va bilvosita qazib olish va chiqindilarni saqlash bilan birga)²/ GVt soat, bu quyosh energiyasining ½ va shamol energiyasining 1/10 qismidir.^[106] Keng ko'lamda foydalanish - bu dengizdagi shamol elektr stantsiyalariga qarshi chiqishning asosiy sababi.^[107][108] Erdan kam foydalanish - bu atom energiyasining xususiyatlaridan biri Robert Brays "Sharbat" hujjatli filmi.^[109]

2020 yil iyun oyida Sion chiroqlari, vakili Yo'qolib ketish isyoni Buyuk Britaniya qayta tiklanadigan energiya manbalari bilan bir qatorda energiya aralashmasining muhim qismi sifatida yadro energetikasini qo'llab-quvvatlashini e'lon qildi va atrof-muhit bo'yicha hamkasblarni atom energiyasi "iqlim o'zgarishini hal qilish bo'yicha ilmiy baholangan echimlar" ning bir qismi ekanligini qabul qilishga chaqirdi.^[110]

2020 yil iyul oyida AQShda iqlim o'zgarishini yumshatish echimlari doirasida yadro energetikasini himoya qiluvchi birinchi ayollar uchun bosim guruhi tashkil etildi.^[111]

Issiqxona gazlari chiqindilariga ta'siri

Sovacool ma'lumotlariga ko'ra, atom elektr stantsiyalari taxminan 66 g (2,3 oz) ekvivalent hayot aylanishiga ega bo'lgan elektr energiyasini ishlab chiqaradi karbonat angidrid chiqindilari kVt soatiga, qayta tiklanadigan energiya ishlab chiqaruvchilari esa har kVt soatiga 9,5-38 g (0,34-1,34 oz) karbonat angidrid bilan elektr energiyasini ishlab chiqaradi.^[112] 2012 yilgi tadqiqot Yel universiteti ushbu taxminni rad etib, atom energiyasining o'rtacha qiymati CO ning umumiy hayot tsiklining 11-25 g / kVt soat (0.11-0.24 oz / MJ) gacha ekanligini aniqladi.₂ emissiya^[113]

Frantsiyadagi 52 gCO2eq / kVt / soat quvvatga bog'liq CO2 chiqindilari atom energiyasi va qayta tiklanadigan energiyaning katta ulushi tufayli Evropada eng past ko'rsatkichlar qatoriga kiradi. Germaniya va Buyuk Britaniya kabi qayta tiklanadigan energetikaning katta ulushi va kam yadroga ega bo'lgan mamlakatlar, tez-tez chiqindilar miqdori Frantsiyaga nisbatan 5 baravar yuqori bo'lgan qazilma yoqilg'ilar yordamida asosiy yukni etkazib berishadi.

O'rtacha atom elektr stantsiyasi 2.000.000 metrik tonna CO chiqishini oldini oladi₂, 5200 metr tonna SO₂ va 2200 metr tonna NO_x qazib olinadigan yoqilg'i ishlab chiqaradigan o'rtacha zavodga nisbatan bir yilda.^[114]

Atom energetikasi to'g'ridan-to'g'ri issiqxona gazlarini chiqarmagan bo'lsa-da, chiqindilar har qanday energiya manbai singari ob'ektning hayotiy tsikli davomida sodir bo'ladi: qazib olish va qurilish materiallarini ishlab chiqarish, zavodlarni qurish, ishlatish, uran qazib olish va frezalash va o'simliklarni ishdan chiqarish.

Tomonidan adabiyot tadqiqotlari Iqlim o'zgarishi bo'yicha hukumatlararo hay'at 32 ta issiqxona gazlari chiqindilari bo'yicha o'tkazilgan tadqiqotlar natijasida atom energiyasi uchun kilovatt soatiga (kVt / soat) 16 g (0,56 oz) ekvivalent umr aylanish davri karbonat angidrid chiqindilari o'rtacha qiymati aniqlandi va bu barcha energiya manbalari orasida eng past ko'rsatkichlardan biri bo'lib, faqat shamol kuchi bilan taqqoslanadi.^[115]

Iqlim va energetika sohasidagi olimlar Jeyms Xansen, Ken Kaldeira, Kerri Emanuel va Tom Uigli ochiq maktub chiqardilar^[116] qisman buni bildirgan

Shamol, quyosh va biomassa kabi qayta tiklanadigan energiya manbalari kelajakdagi energetika iqtisodiyotida muhim rol o'ynaydi, ammo bu energiya manbalari global iqtisodiyot talab qiladigan darajada arzon va ishonchli quvvatni etkazib beradigan darajada tezlasha olmaydi. Iqlimni atom energiyasisiz barqarorlashtirish nazariy jihatdan mumkin bo'lsa-da, real dunyoda atom energetikasi uchun muhim rolni o'z ichiga olmaydigan iqlimni barqarorlashtirish uchun ishonchli yo'l yo'q.

Ushbu lavozim yuqori narx va potentsialga asoslangan holda tortishuvlarga sabab bo'ldi yadro qurolining tarqalishi.^[117] Keyinchalik Jeyms Xansen va uning hamkasbi qarshi rad javobini yozishdi.^[118] Shuningdek, CO-ning hayot aylanishi deb taxmin qilingan₂ yuqori darajadagi uran rudasi atom energiyasi chiqindilaridan foydalaniladi va past darajadagi uran qazib olinadigan yoqilg'idan foydalanib qazib olinishi kerak.^[119][120]

Atom energetikasi bo'yicha munozaralar davom etar ekan, zararli gazlar chiqindilari ko'paymoqda. Bashoratlarga ko'ra, o'n yil ichida emissiya keskin kamaygan taqdirda ham, dunyo hali ham 650 dan oshib ketadi ppm karbonat angidrid va 4 ° C (7,2 ° F) haroratning o'rtacha ko'tarilishi.^[121] Jamiyatning fikri shundan iboratki, qayta tiklanadigan energiya, masalan, shamol, quyosh, biomassa va geotermik global isishga sezilarli ta'sir ko'rsatmoqda.^[122] Ushbu manbalarning barchasi birlashtirilib, 2013 yilda global energiyaning faqat 1,3 foizini 8 milliard tonna bilan ta'minlagan (1.8.)×10¹³ lb) ko'mir har yili yoqilardi.^[123] Ushbu "juda oz, juda kech" harakat ommaviy shakl bo'lishi mumkin iqlim o'zgarishini rad etish yoki idealistik intilish yashil energiya.

2016 yilga javoban Parij kelishuvi bir qator mamlakatlar issiqxona gazlari chiqindilarini kamaytirish majburiyatining bir qismi sifatida atom energetikasini aniq ro'yxatiga kiritdilar.^[124] 2019 yil iyun oyida deyarli 100 polshalik ekolog va olim tomonidan yozilgan "Germaniya rahbariyati va xalqiga" ochiq xat Germaniyani "to'liq ishlaydigan atom elektr stantsiyalarini yakuniy bekor qilish to'g'risidagi qarorni kurash foydasiga qayta ko'rib chiqishga" da'vat etdi. global isishga qarshi.^[125]

2020 yilda bir qator evropalik olimlar Evropa Komissiyasiga atom energiyasini "uglerodsiz Evropada barqarorlik elementi" sifatida qo'shishga chaqirgan ochiq xatni e'lon qildilar.^[126] Also in 2020 a coalition of 30 European nuclear industry companies and research bodies published an open letter highlighting that nuclear power remains the largest single source of zero-emissions energy in European Union.^[127]

Yuqori darajadagi radioaktiv chiqindilar

Yadro yoqilg'isi suv ostida va yopiq holda saqlangan Hanford sayti yilda Vashington, AQSH.

The world's nuclear fleet creates about 10,000 metric tons (22,000,000 pounds) of high-level spent nuclear fuel each year.^[128] High-level radioactive waste management concerns management and disposal of highly radioaktiv materials created during production of nuclear power. This requires the use of "geological disposal", or burial, due to the extremely long periods of time that radioaktiv chiqindilar remain deadly to living organisms. Of particular concern are two uzoq muddatli bo'linish mahsulotlari, texnetsiy-99 (yarim hayot 220,000 years) and yod-129 (half-life 15.7 million years),^[129] which dominate spent nuclear fuel radioactivity after a few thousand years. The most troublesome transuranik elementlar in spent fuel are neptunium-237 (half-life two million years) and plutoniy-239 (half-life 24,000 years).^[130] However, many nuclear power by-products are usable as nuclear fuel themselves; extracting the usable energy producing contents from nuclear waste is called "nuclear recycling ". About 80% of the byproducts can be reprocessed and recycled back into nuclear fuel,^[131] negating this effect. The remaining high-level radioactive waste requires sophisticated treatment and management to successfully isolate it from the biosfera. This usually necessitates treatment, followed by a long-term management strategy involving permanent storage, disposal or transformation of the waste into a non-toxic form.^[132]

Governments around the world are considering a range of waste management and disposal options, usually involving deep-geologic placement, although there has been limited progress toward implementing long-term waste management solutions.^[133] This is partly because the timeframes in question when dealing with radioaktiv chiqindilar range from 10,000 to millions of years,^[134][135] according to studies based on the effect of estimated radiation doses.^[136]

Anti-nuclear protest near nuclear waste disposal centre da Gorleben Germaniyaning shimoliy qismida

Since the fraction of a radioizotop 's atoms decaying per unit of time is inversely proportional to its half-life, the relative radioactivity of a quantity of buried human radioaktiv chiqindilar would diminish over time compared to natural radioisotopes (such as the parchalanish zanjiri of 120 trillion tons of thorium and 40 trillion tons of uranium which are at relatively trace concentrations of parts per million each over the crust's 3×10¹⁹ ton mass).^{[137][138][139]}

For instance, over a timeframe of thousands of years, after the most active short half-life radioisotopes decayed, burying U.S. nuclear waste would increase the radioactivity in the top 2,000 feet (610 m) of rock and soil in the United States (100 million km² or 39 million sq mi)^{[iqtibos kerak ]} tomonidan taxminan 0.1 millionga qismlar over the cumulative amount of natural radioisotopes in such a volume, although the vicinity of the site would have a far higher concentration of artificial radioisotopes underground than such an average.^{[140][buzilgan havola]}

Nuclear waste disposal is one of the most controversial facets of the nuclear power debate. Presently, waste is mainly stored at individual reactor sites and there are over 430 locations around the world where radioactive material continues to accumulate.^{[iqtibos kerak ]} Experts agree that centralized underground repositories which are well-managed, guarded, and monitored, would be a vast improvement.^[141] There is an international consensus on the advisability of storing nuclear waste in deep underground repositories,^[142] but no country in the world has yet opened such a site as of 2009.^{[142][143][144][145]} There are dedicated waste storage sites at the Chiqindilarni izolyatsiyalash tajriba zavodi in New Mexico and two in German salt mines, the Morsleben Repository va Shaxt Asse II.

Prevented mortality

In March 2013, climate scientists Pushker Kharecha and Jeyms Xansen ichida maqola chop etdi Atrof-muhit fanlari va texnologiyalari, huquqiga ega Prevented mortality and greenhouse gas emissions from historical and projected nuclear power.^[146] It estimated an average of 1.8 million lives saved worldwide by the use of nuclear power instead of fossil fuels between 1971 and 2009. The paper examined mortality levels per unit of electrical energy produced from fossil fuels (coal and natural gas) as well as nuclear power. Kharecha and Hansen assert that their results are probably conservative, as they analyze only deaths and do not include a range of serious but non-fatal respiratory illnesses, cancers, hereditary effects and heart problems, nor do they include the fact that fossil fuel combustion in developing countries tends to have a higher carbon and air pollution footprint than in developed countries.^[147] The authors also conclude that the emission of some 64 milliard tonna (7.1×10¹⁰ tonna ) of carbon dioxide equivalent have been avoided by nuclear power between 1971 and 2009, and that between 2010 and 2050, nuclear power could additionally avoid up to 80–240 billion tonnes (8.8×10¹⁰–2.65×10¹¹ tons).

A 2020 study on Energiewende found that if Germany had postponed the nuclear phase out and phased out coal first it could have saved 1,100 lives and $12 billion in social costs per year.^[148][149]

In 2020 the Vatican has praised "peaceful nuclear technologies" as significant factor to "alleviation of poverty and the ability of countries to meet their development goals in a sustainable way".^[150]

Baxtsiz hodisalar va xavfsizlik

Benjamin K. Sovacool has reported that worldwide there have been 99 accidents at nuclear power plants.^[151] Fifty-seven accidents have occurred since the Chernobil fojiasi, and 57% (56 out of 99) of all nuclear-related accidents have occurred in the USA.^[151] Jiddiy atom elektr stantsiyasi accidents include the Fukushima Daiichi yadroviy halokati (2011), Chernobil fojiasi (1986), Uch Mile orolidagi avariya (1979) va SL-1 accident (1961).^[152] Yadro bilan ishlaydigan suv osti kemasi mishaps include the USSTresher accident (1963),^[153] The K-19 reactor accident (1961),^[154] The K-27 reactor accident (1968),^[155] va K-431 reactor accident (1985).^[152]

Keyin radioaktiv ifloslanishni olib tashlash uchun ishlaydigan ekipaj Uch Mile orolidagi avariya.

The effect of nuclear accidents has been a topic of debate practically since the first atom reaktorlari qurilgan. It has also been a key factor in public concern about nuclear facilities.^[156] Some technical measures to reduce the risk of accidents or to minimize the amount of radioaktivlik released to the environment have been adopted. As such, deaths caused by these accidents are minimal, to the point at which the Fukushima evacuation efforts caused an estimated 32 times the number of deaths caused by the accident itself, with 1,000 to 1,600 deaths from the evacuation, and 40 to 50 deaths coming from the accident itself.^[157] Despite the use of such safety measures, "there have been many accidents with varying effects as well near misses and incidents".^[156]

Nuclear power plants are a complex energy system^[158][159] and opponents of nuclear power have criticized the sophistication and complexity of the technology. Xelen Koldikot has said: "... in essence, a nuclear reactor is just a very sophisticated and dangerous way to boil water – analogous to cutting a pound of butter with a chain saw."^[160] The 1979 Three Mile Island accident inspired Charlz Perrou kitobi Oddiy baxtsiz hodisalar, qaerda a yadro halokati occurs, resulting from an unanticipated interaction of multiple failures in a complex system. TMI was an example of a normal accident because it was deemed "unexpected, incomprehensible, uncontrollable and unavoidable".^[161]

Perrow, Uch Mile orolidagi nosozlik tizimning juda murakkabligi natijasi degan xulosaga keldi. Bunday zamonaviy yuqori xavfli tizimlar, muvaffaqiyatsizlikka moyil bo'lishiga qaramay, ularni boshqargan. Oxir oqibat ular "oddiy baxtsiz hodisa" deb atagan narsalarga duchor bo'lishlari muqarrar edi. Shuning uchun, u radikal ravishda qayta ishlab chiqish haqida o'ylashimiz yoki agar iloji bo'lmasa, bunday texnologiyadan butunlay voz kechganimiz ma'qul bo'lsa, dedi u.^[162] These concerns have been addressed by modern passive safety systems, which require no human intervention to function.^[163]

Catastrophic scenarios involving terroristik hujumlar are also conceivable.^[164] An interdisciplinary team from the Massachusets texnologiya instituti (MIT) has estimated that given a three-fold increase in nuclear power from 2005 to 2055, and an unchanged accident frequency, four core damage accidents would be expected in that period.^[165]

Proponents of nuclear power argue that in comparison to other sources of power, nuclear power is (along with solar and wind energy) among the safest,^[166] accounting for all the risks from mining to production to storage, including the risks of spectacular nuclear accidents. Accidents in the nuclear industry have been less damaging than accidents in the gidroelektr energiyasi industry, and less damaging than the constant, incessant damage from havoni ifloslantiruvchi moddalar qazib olinadigan yoqilg'idan. For instance, by running a 1000-MWe nuclear power plant including uranium mining, reactor operation and waste disposal, the radiation dose is 136 person-rem/year, while the dose is 490 person-rem/year for an equivalent coal-fired power plant.^[167][168] The Butunjahon yadro assotsiatsiyasi provides a comparison of deaths from accidents in course of different forms of energy production. In their comparison, deaths per TW-yr of electricity produced from 1970 to 1992 are quoted as 885 for hydropower, 342 for coal, 85 for natural gas, and 8 for nuclear.^[169] Nuclear power plant accidents rank first in terms of their economic cost, accounting for 41 percent of all property damage attributed to energy accidents 2008 yildan boshlab.^[20]

In 2020 a Parliamentary inquiry in Australia found nuclear power to be one of the safest and cleanest among 140 specific technologies analyzed based on data provided by MIT.^[170]

Chernobyl steam explosion

Map showing caesium-137 contamination in Belorussiya, Rossiya va Ukraina 1996 yildan boshlab

The Chernobyl steam explosion was a yadro halokati that occurred on 26 April 1986 at the Chernobil AES yilda Ukraina. A steam explosion and graphite fire released large quantities of radioaktiv ifloslanish into the atmosphere, which spread over much of Western USSR and Europe. It is considered the worst nuclear power plant accident in history, and is one of only two classified as a level 7 event on the Xalqaro yadroviy voqealar ko'lami (boshqasi Fukushima Daiichi yadroviy halokati ).^[171] The battle to contain the contamination and avert a greater catastrophe ultimately involved over 500,000 workers and cost an estimated 18 billion rubl, crippling the Soviet economy.^[172] The accident raised concerns about the xavfsizlik of the nuclear power industry, slowing its expansion for a number of years.^[173]

Despite the fact the Chernobyl disaster became a nuclear power safety debate icon, there were other nuclear accidents in USSR at the Mayak nuclear weapons production plant (yaqin Chelyabinsk, Russia) and total radioactive emissions in Chelyabinsk accidents of 1949, 1957 and 1967 together were significantly higher than in Chernobyl.^[174] However, the region near Chelyabinsk was and is much more sparsely populated than the region around Chernobyl.

The Birlashgan Millatlar Tashkilotining Atom radiatsiyasining ta'siri bo'yicha ilmiy qo'mitasi (UNSCEAR) has conducted 20 years of detailed scientific and epidemiologik research on the effects of the Chernobyl accident. Apart from the 57 direct deaths in the accident itself, UNSCEAR predicted in 2005 that up to 4,000 additional saraton deaths related to the accident would appear "among the 600 000 persons receiving more significant exposures (liquidators working in 1986–87, evacuees, and residents of the most contaminated areas)".^[175] Ga binoan BBC, "It is conclusive that around 5,000 cases of qalqonsimon bez saratoni — most of which were treated and cured — were caused by the contamination. Many suspect that the radiation has caused or will cause other cancers, but the evidence is patchy. Amid reports of other health problems — including tug'ma nuqsonlar — it still is not clear if any can be attributed to radiation".^[176] Russia, Ukraine, and Belarus have been burdened with the continuing and substantial zararsizlantirish and health care costs of the Chernobyl disaster.^{[177][uchinchi tomon manbai kerak ]}

Fukusima fojiasi

2011 yil Fukushima Daiichi yadroviy halokati, eng yomon nuclear incident 25 yil ichida, keyin 50,000 xonadonlar ko'chirildi radioaktiv material havoga, tuproqqa va dengizga singib ketgan.^[178] Whereas the radiation level never was an immediate life hazard outside the plant, the displacement^{[tushuntirish kerak ]} was the direct cause of over 1500 deaths.^[179][180] Radiation checks led to bans on some shipments of vegetables and fish.^[181]

Following an earthquake, tsunami, and failure of cooling systems at Fukusima I atom stansiyasi va boshqa yadro inshootlariga oid masalalar in Japan on 11 March 2011, a nuclear emergency was declared. This was the first time a nuclear emergency had been declared in Japan, and 140,000 residents within 20 km (12 mi) of the plant were evacuated.^[182] Explosions and a fire resulted in increased levels of nurlanish, supermarketlarda qimmatli qog'ozlar bozori qulashi va vahima sotib olishga sabab bo'ldi.^[183] The UK, France and some other countries advised their nationals to consider leaving Tokyo, in response to fears of spreading nuclear contamination. The accidents drew attention to ongoing concerns over Japanese nuclear seismic design standards and caused other governments to re-evaluate their nuclear programs. John Price, a former member of the Safety Policy Unit at the UK's National Nuclear Corporation, said that it "might be 100 years before melting fuel rods can be safely removed from Japan's Fukushima nuclear plant".^{[184][uchinchi tomon manbai kerak ]}

Uch Mile orolidagi avariya

Prezident Jimmi Karter ketish Uch mil oroli uchun Midltaun, Pensilvaniya, 1 April 1979.

The Three Mile Island accident was a yadro erish in Unit 2 (a bosimli suv reaktori tomonidan ishlab chiqarilgan Babkok va Uilkoks ) ning Uchta Mil orolidagi yadro ishlab chiqarish stantsiyasi yilda Dofin okrugi, Pensilvaniya yaqin Harrisburg, United States in 1979. It was the most significant accident in the history of the USA commercial nuclear power generating industry, resulting in the release of approximately 2.5 million kurilar ning radioaktiv zo'r gazlar, and approximately 15 curies of yod-131.^[185] Cleanup started in August 1979 and officially ended in December 1993, with a total cleanup cost of about $1 billion.^[186] The incident was rated a five on the seven-point Xalqaro yadroviy voqealar ko'lami: Accident With Wider Consequences.^{[187][188][uchinchi tomon manbai kerak ]}

The health effects of the Three Mile Island nuclear accident are widely, but not universally, agreed to be very low level. However, there was an evacuation of 140,000 pregnant women and pre-school age children from the area.^{[189][190][191]} The accident crystallized yadroga qarshi safety concerns among activists and the general public, resulted in new regulations for the nuclear industry, and has been cited as a contributor to the decline of new reactor construction that was already underway in the 1970s.^[192]

Yangi reaktor dizaynlari

The nuclear power industry has moved to improve engineering design. IV avlod reactors are now in late stage design and development to improve safety, sustainability, efficiency, and cost. Key to the latest designs is the concept of passiv yadro xavfsizligi. Passiv yadro xavfsizligi does not require operator actions or electronic feedback in order to shut down safely in the event of a particular type of emergency (usually overheating resulting from a loss of coolant or loss of coolant flow). This is in contrast to older-yet-common reactor designs, where the natural tendency for the reaction was to accelerate rapidly from increased temperatures. In such a case, cooling systems must be operative to prevent meltdown. Past design mistakes like Fukusima in Japan did not anticipate that a tsunami generated by an earthquake would disable the backup systems that were supposed to stabilize the reactor after the earthquake.^[193] New reactors with passive nuclear safety eliminate this failure mode.

The Amerika Qo'shma Shtatlarining yadroviy tartibga solish komissiyasi has formally engaged in pre-application activities with four applicants who have Generation IV reactors. Of those four applicants' designs, two are eritilgan tuz reaktorlari, biri compact fast reactor, and one is a Modular Yuqori haroratli gaz bilan sovutilgan reaktor.^[194]

Xabarchilar

Bu list of nuclear whistleblowers. They are mainly former employees of nuclear power facilities who have spoken out about safety concerns.

Yil	Rasm	Ism	Amal
1976		Gregori C. Kichik, Richard B. Xabbard va Deyl G. Bridenbaux	Yadroviy xabar beruvchilar. 1976 yil 2 fevralda, Gregori C. Kichik, Richard B. Xabbard, and Dale G. Bridenbaugh (known as the GE Uch ) xavfsizlik muammolari to'g'risida "hushtak chaldi" atom elektr stantsiyalari, va ularning harakati "namunali misol" deb nomlangan hushtak chalish ".[195] The three engineers gained the attention of journalists and their disclosures about the threats of nuclear power had a significant effect. Ular o'zlarining bayonotlarini mas'ul lavozimlardan iste'foga chiqishlariga to'g'ri keladigan vaqtga belgilashdi General Electric atom energetikasi bo'limi va keyinchalik o'zlarini shtat hukumatlari, federal idoralar va chet el hukumatlari uchun atom energetikasi bo'yicha maslahatchilar sifatida tanitdilar. Ular tashkil etgan konsalting firmasi MHB Technical Associates filmning texnik maslahatchisi bo'lgan, Xitoy sindromi. Uchta muhandis Kongressning tinglovlarida ishtirok etishdi, ularning oshkor etilishi osonlashdi.[195][196][197][198]
1990		Arnold Gundersen	Nuclear whistleblower Arnold Gundersen buxgalteriya seyfida radioaktiv moddalarni topdi Atom energetikasi xizmatlari (NES) Danbury, Konnektikut, konsalting firmasi, u katta vitse-prezident sifatida yiliga $ 120,000 ishlagan.[199] Kompaniya prezidentiga radiatsion xavfsizlikni buzgan deb hisoblaganidan uch hafta o'tgach, Gundersen ishdan bo'shatildi. Ga binoan The New York Times, uch yil davomida Gundersen "tunda telefon qo'ng'iroqlarini bezovta qilib uyg'ongan" va u "oilasining xavfsizligi haqida qayg'urgan". Gundersen u to'g'ri deb o'ylagan ishi uchun uni qora ro'yxatga, ta'qib va ​​ishdan bo'shatilgan deb hisoblaydi.[199] NES foled a $1.5 million defamation lawsuit against him that was settled out-of-court. AQSh Yadro nazorati bo'yicha komissiya hisobot NESda qoidabuzarliklar bo'lgan degan xulosaga keldi va Bosh inspektor idorasi NRC o'z qoidalarini buzganligi to'g'risida NESga ish yubordi.[200]
1996		Jorj Galatis	Nuclear whistleblower Jorj Galatis katta yadro muhandisi bo'lib, u xavfsizlik muammolari haqida xabar bergan Millstone 1 atom elektr stantsiyasi, 1996 yilda reaktorga yonilg'i quyish protseduralari bilan bog'liq.[201][202] Xavfsiz protseduralar shuni anglatadiki, 1-blokda ishlatilgan yonilg'i tayoqchalari basseynlari qaynab ketishi mumkin, ehtimol ularni bo'shatish mumkin radioaktiv bug '.[203] Galatis oxir-oqibat o'z tashvishlarini qabul qildi Yadro nazorati bo'yicha komissiya, ular "yillar davomida xavfli protseduralar to'g'risida bilishgan". NRCga borish natijasida Galatis "ta'qib qilish, qasos olish va qo'rqitishning nozik shakllarini" boshdan kechirdi.[201][204] NRC Bosh inspektori bo'limi ushbu epizodni o'rganib chiqdi va 95-771-sonli ishda Galatis bilan kelishib oldi, uning hisoboti butun voqeani bayon qiladi.[205] Jorj Galatis a Time jurnali cover story on 4 March 1996.[204] Millstone 1 1998 yil iyul oyida butunlay yopilgan edi.
2004		Jerald V. Braun	Nuclear whistleblower Gerald W. Brown was a former o't o'chiruvchi contractor and consultant who uncovered the Thermo-lag elektron yaxlitligi janjal va silikon foam scandals in U.S. and Canadian nuclear power plants, which led to Congressional proceedings as well as Provincial proceedings in the Kanadalik Viloyati Ontario concerning deficiencies in passiv yong'indan himoya qilish.
2005		Richard Levernier	Richard Levernier is an American nuclear whistleblower. Levernier worked for 23 years as a nuclear security professional, and identified security problems at U.S. nuclear facilities as part of his job. Specifically, after 9/11, he identified problems with contingency planning to protect US nuclear plants from terroristik hujumlar. He said that the assumption that attackers would both enter and exit from facilities was not valid, since suicide terrorists would not need to exit. In response to this complaint, the AQSh Energetika vazirligi withdrew Levernier's security clearance and he was assigned to clerical work. Levernier approached the Amerika Qo'shma Shtatlarining maxsus maslahat bo'limi (OSC), which handles US federal hushtakboz muhim. It took the OSC four years to vindicate Levernier, ruling that the Department's retaliation was illegal – but the OSC could not reinstate Levernier's security clearance, so he was unable to regain work in nuclear security.[206][207]

Health effects on population near nuclear power plants and workers

Fishermen near the now-dismantled Troyan atom stansiyasi Oregonda. The reactor dome is visible on the left, and the cooling tower on the right.

A major concern in the nuclear debate is what the long-term effects of living near or working in a nuclear power station are. These concerns typically center around the potential for increased risks of cancer. However, studies conducted by non-profit, neutral agencies have found no compelling evidence of correlation between nuclear power and risk of cancer.^[208]

There has been considerable research done on the effect of low-level radiation on humans. Debate on the applicability of To'siqsiz chiziqli model ga qarshi Radiatsion hormesis and other competing models continues, however, the predicted low rate of cancer with low dose means that large sample sizes are required in order to make meaningful conclusions. Tomonidan olib borilgan tadqiqot Milliy Fanlar Akademiyasi found that carcinogenic effects of radiation does increase with dose.^[209] The largest study on nuclear industry workers in history involved nearly a half-million individuals and concluded that a 1–2% of cancer deaths were likely due to occupational dose. This was on the high range of what theory predicted by LNT, but was "statistically compatible".^[210]

The Yadro nazorati bo'yicha komissiya (NRC) has a factsheet that outlines 6 different studies. 1990 yilda Amerika Qo'shma Shtatlari Kongressi so'radi Milliy saraton instituti to conduct a study of cancer mortality rates around nuclear plants and other facilities covering 1950 to 1984 focusing on the change after operation started of the respective facilities. They concluded in no link. 2000 yilda Pitsburg universiteti found no link to heightened cancer deaths in people living within 5 miles of plant at the time of the Uch Mile orolidagi avariya. Xuddi shu yili Illinois Public Health Department found no statistical abnormality of childhood cancers in counties with nuclear plants. 2001 yilda Konnektikut ilmiy va muhandislik akademiyasi confirmed that radiation emissions were negligibly low at the Konnektikutdagi Yanki atom elektr stantsiyasi. Shuningdek, o'sha yili Amerika saraton kasalligi jamiyati tekshirildi saraton klasterlari around nuclear plants and concluded no link to radiation noting that cancer clusters occur regularly due to unrelated reasons. Again in 2001, the Florida Bureau of Environmental Epidemiology reviewed claims of increased cancer rates in counties with nuclear plants, however, using the same data as the claimants, they observed no abnormalities.^[211]

Scientists learned about exposure to high level radiation from studies of the effects of bombing populations at Hiroshima and Nagasaki. However, it is difficult to trace the relationship of low level radiation exposure to resulting cancers and mutations. This is because the latency period between exposure and effect can be 25 years or more for cancer and a generation or more for genetic damage. Since nuclear generating plants have a brief history, it is early to judge the effects.^[212]

Most human exposure to radiation comes from natural fon nurlanishi. Natural sources of radiation amount to an average annual radiation dose of 295 milliremalar (0.00295 sieverts ). The average person receives about 53 mrem (0.00053 Sv) from medical procedures and 10 mrem from consumer products per year, as of May 2011.^[213] Ga ko'ra Milliy xavfsizlik kengashi, people living within 50 miles (80 km) of a nuclear power plant receive an additional 0.01 mrem per year. Living within 50 miles of a coal plant adds 0.03 mrem per year.^[214]

In its 2000 report, "Sources and effects of ionizing radiation",^[215] the UNSCEAR also gives some values for areas where the radiation background juda baland.^[216] You can for example have some value like 370 nanograys per soat (0.32 rad /a ) on average in Yangjiang, China (meaning 3.24 mSv per year or 324 mrem), or 1,800 nGy/h (1.6 rad/a) in Kerala, Hindiston (meaning 15.8 mSv per year or 1580 mrem). They are also some other "hot spots", with some maximum values of 17,000 nGy/h (15 rad/a) in the hot springs of Ramsar, Iran (that would be equivalent to 149 mSv per year pr 14,900 mrem per year). The highest background seem to be in Guarapari with a reported 175 mSv per year (or 17,500 mrem per year), and 90,000 nGy/h (79 rad/a) maximum value given in the UNSCEAR report (on the beaches).^[216] A study made on the Kerala radiation background, using a cohort of 385,103 residents, concludes that "showed no excess cancer risk from exposure to terrestrial gamma radiation" and that "Although the statistical power of the study might not be adequate due to the low dose, our cancer incidence study [...] suggests it is unlikely that estimates of risk at low doses are substantially greater than currently believed."^[217]

Current guidelines established by the NRC, require extensive emergency planning, between nuclear power plants, Federal favqulodda vaziyatlarni boshqarish agentligi (FEMA), and the local governments. Plans call for different zones, defined by distance from the plant and prevailing weather conditions and protective actions. In the reference cited, the plans detail different categories of emergencies and the protective actions including possible evacuation.^[218]

A German study on childhood cancer in the vicinity of nuclear power plants called "the KiKK study" was published in December 2007.^[219] According to Ian Fairlie, it "resulted in a public outcry and media debate in Germany which has received little attention elsewhere". It has been established "partly as a result of an earlier study by Körblein and Hoffmann^[220] which had found statistically significant increases in solid saraton (54%), and in leykemiya (76%) in children aged less than 5 within 5 km (3.1 mi) of 15 German nuclear power plant sites. It red a 2.2-fold increase in leukemias and a 1.6-fold increase in solid (mainly embryonal) cancers among children living within 5 km of all German nuclear power stations."^[221] In 2011 a new study of the KiKK data was incorporated into an assessment by the Atrof muhitdagi nurlanishning tibbiy jihatlari qo'mitasi (COMARE) of the incidence of childhood leukemia around British nuclear power plants. It found that the control sample of population used for comparison in the German study may have been incorrectly selected and other possible contributory factors, such as socio-economic ranking, were not taken into consideration. The committee concluded that there is no significant evidence of an association between risk of childhood leukemia (in under 5 year olds) and living in proximity to a nuclear power plant.^[222]

Safety culture in host nations

Biroz rivojlanayotgan davlatlar which plan to go nuclear have very poor industrial safety records and problems with siyosiy korruptsiya.^[223] Inside China, and outside the country, the speed of the nuclear construction program has raised safety concerns. Prof. U Zuoxiu, who was involved with China's atomic bomb program, has said that plans to expand production of nuclear energy twentyfold by 2030 could be disastrous, as China was seriously underprepared on the safety front.

China's fast-expanding nuclear sector is opting for cheap technology that "will be 100 years old by the time dozens of its reactors reach the end of their lifespans", according to diplomatic cables from the US embassy in Beijing.^[224] The rush to build new nuclear power plants may "create problems for effective management, operation and regulatory oversight" with the biggest potential bottleneck being human resources – "coming up with enough trained personnel to build and operate all of these new plants, as well as regulate the industry".^[224] The challenge for the government and nuclear companies is to "keep an eye on a growing army of contractors and subcontractors who may be tempted to cut corners".^[225] Xitoyga ba'zida xarajatlarni kamaytirish, foyda va korruptsiya foydasiga sifat va xavfsizlik qurbon qilinadigan ishbilarmonlik madaniyati sharoitida yadro kafolatlarini saqlash tavsiya etiladi. Xitoy ko'proq atom elektr stansiyalari inspektorlarini tayyorlashda xalqaro yordam so'radi.^[225]

Nuclear proliferation and terrorism concerns

Ga binoan Mark Z. Jacobson, the growth of nuclear power has "historically increased the ability of nations to obtain or enrich uranium for yadro qurollari, and a large-scale worldwide increase in nuclear energy facilities would exacerbate this problem, putting the world at greater risk of a nuclear war or terrorism catastrophe".^[164] The historic link between energy facilities and weapons is evidenced by the secret development or attempted development of weapons capabilities in nuclear power facilities in Pakistan, India, Iraq (prior to 1981), Iran, and to some extent in North Korea.^[164]

To'rt AP1000 reactors, which were designed by the American Westinghouse Electric Company are currently, as of 2011, being built in China^[226] va yana ikkitasi AP1000 reactors are to be built in the USA.^[227] Hyperion quvvatini ishlab chiqarish, which is designing modular reactor assemblies that are proliferation resistant, is a privately owned US corporation, as is Terrapower which has the financial backing of Bill Geyts va uning Bill va Melinda Geyts jamg'armasi.^[228]

Vulnerability of plants to attack

Nuclear reactors become preferred targets during military conflict and, over the past three decades, have been repeatedly attacked during military air strikes, occupations, invasions and campaigns:^[229]

• In September 1980, Iran bombed the Al Tuwaitha nuclear complex in Iraq.
• 1981 yil iyun oyida, Isroilning havo hujumi completely destroyed Iraq's Osirak nuclear research facility.
• 1984 yildan 1987 yilgacha Iroq Eronni bombardimon qildi Bushehr atom stansiyasi olti marta.
• Iroqda 1991 yilda, the U.S. bombed three nuclear reactors and an enrichment pilot facility.
• In 1991, Iraq launched SCUD raketalari Isroilnikida Dimona atom elektr stantsiyasi.
• In September 2003, Israel bombed a Syrian reactor qurilish ishlari olib borilmoqda.^[229]

AQShning 2004 yilgi hisobotiga ko'ra. Kongressning byudjet idorasi, "Atrof-muhitga katta miqdordagi radioaktiv moddalarni chiqarishga olib keladigan atom elektrostansiyasiga muvaffaqiyatli hujumdan inson, ekologiya va iqtisodiy xarajatlar katta bo'lishi mumkin."^[230] AQSH 11 sentyabr komissiyasi has said that nuclear power plants were potential targets originally considered for the 2001 yil 11 sentyabr hujumlar. Agar terroristik guruhlar xavfsizlik tizimlariga zarar etkazishi mumkin yadro erishi atom elektr stantsiyasida va / yoki sarflangan yoqilg'i hovuzlariga etarlicha zarar etkazilsa, bunday hujum keng tarqalgan radioaktiv ifloslanishni keltirib chiqarishi mumkin.^[231]

If nuclear power use is to expand significantly, nuclear facilities will have to be made extremely safe from attacks that could release massive quantities of radioactivity into the environment and community. Yangi reaktor dizaynlari o'ziga xos xususiyatlarga ega passiv xavfsizlik, such as the flooding of the reactor core without active intervention by reactor operators. Ammo ushbu xavfsizlik choralari, odatda, terroristik guruh tomonidan ataylab reaktor hujumi uchun emas, balki baxtsiz hodisalar bo'yicha ishlab chiqilgan va o'rganilgan. Biroq, AQSh Yadro nazorati bo'yicha komissiya now also requires new reactor license applications to consider security during the design stage.^[231]

Use of waste byproduct as a weapon

An additional concern with nuclear power plants is that if the by-products of nuclear fission (the nuclear waste generated by the plant) were to be left unprotected it could be stolen and used as a radiologik qurol, so'zma-so'z "iflos bomba ". There were incidents in post-Soviet Russia of nuclear plant workers attempting to sell nuclear materials for this purpose. For example, there was such an incident in Russia in 1999 where plant workers attempted to sell 5 grams of radioactive material on the open market,^[232] and an incident in 1993 where Russian workers were caught attempting to sell 4.5 kilograms of boyitilgan uran.^{[233][234][235]}

There are additional concerns that the transportation of nuclear waste along roadways or railways opens it up for potential theft. The United Nations has since called upon world leaders to improve security in order to prevent radioactive material falling into the hands of terrorists,^[236] and such fears have been used as justifications for centralized, permanent, and secure waste repositories and increased security along transportation routes.^[237]

Proponents state that the spent fissile fuel is not radioactive enough to create any sort of effective nuclear weapon, in a traditional sense where the radioactive material is the means of explosion. Yadro qayta ishlash plants also acquire uranium from spent reactor fuel and take the remaining waste into their custody.

Jamoatchilik fikri

Share of the public who oppose the nuclear energy as a means of electricity production in 2011, following the Fukushima disaster.

Tomonidan o'tkazilgan so'rovnoma asosida energiya manbalarini global ijtimoiy qo'llab-quvvatlash Ipsos (2011).^[238]

There is little support across the world for building new nuclear reactors, a 2011 poll for the BBC indicates. Jahon tadqiqot agentligi GlobeScan BBC News tomonidan buyurtma qilingan 2011 yil iyulidan sentyabrigacha 23 mamlakatda 23231 kishi o'rtasida so'rovnoma o'tkazilgan Fukusima yadroviy halokati. In countries with existing nuclear programs, people are significantly more opposed than they were in 2005, with only the UK and US bucking the trend and being more supportive of nuclear power. Most believe that boosting energy efficiency and renewable energy can meet their needs.^[239]

Just 22% agreed that "nuclear power is relatively safe and an important source of electricity, and we should build more nuclear power plants". In contrast, 71% thought their country "could almost entirely replace coal and nuclear energy within 20 years by becoming highly energy-efficient and focusing on generating energy from the Sun and wind". Globally, 39% want to continue using existing reactors without building new ones, while 30% would like to shut everything down now.^[239]

2011 yilda, Deutsche Bank analysts concluded that "the global impact of the Fukushima accident is a fundamental shift in public perception with regard to how a nation prioritizes and values its populations health, safety, security, and natural environment when determining its current and future energy pathways". As a consequence, "qayta tiklanadigan energiya will be a clear long-term winner in most energy systems, a conclusion supported by many voter surveys conducted over the past few weeks. At the same time, we consider tabiiy gaz to be, at the very least, an important transition fuel, especially in those regions where it is considered secure".^[240]

Yevropa Ittifoqi

Ushbu maqola bo'lishi kerak yangilangan. The reason given is: cited polls are from 2006, over 12 years ago. Iltimos, ushbu voqeani so'nggi voqealarni yoki yangi mavjud ma'lumotlarni aks ettirish uchun yangilang. (2018 yil dekabr)

A poll in the Yevropa Ittifoqi for February–March 2005 showed 37% were in favor of nuclear energy and 55% opposed, leaving 8% undecided.^[241] The same agency ran another poll in Oct–Nov 2006 that showed 14% favored building new nuclear plants, 34% favored maintaining the same number, and 39% favoured reducing the number of operating plants, leaving 13% undecided. This poll showed that respondents with a lower level of education and that women were less likely to approve.^[242]

Yaponiya

In June 2011, both UK market research firm Ipsos MORI va yaponlar Asaxi Shimbun newspaper found drops in support for nuclear power technology in most countries, with support continuing in a number including the US. The Ipsos MORI poll found that nuclear had the lowest support of any established technology for generating electricity, with 38%. Coal was at 48% support while quyosh energiyasi, shamol kuchi va gidroenergiya all found favor with more than 90% of those surveyed.^[239]

Shvetsiya

2011 yilda o'tkazilgan so'rov natijalariga ko'ra Yaponiyaning yadroviy inqirozidan keyin Shvetsiyada atom energiyasiga nisbatan shubha kuchaygan. Respondentlarning 36 foizi xohlagan atom energiyasini bosqichma-bosqich to'xtatish, ikki yil avvalgi ko'rsatkich 15 foizga nisbatan. 36 foiz teng foiz atom energiyasini hozirgi darajada ushlab turish tarafdori edi, yana 21 foiz esa atom energiyasini ko'paytirishni qo'llab-quvvatladilar, 7 foiz qaror qilinmadi.^[243]

Qo'shma Shtatlar

Qo'shma Shtatlarda atom energiyasini qabul qilishni kuchaytirayotgan narsa quyidagilardan so'ng keskin ravishda yo'q qilindi 2011 yil Yaponiyaning yadroviy baxtsiz hodisalari, AQShda atom elektr stantsiyalarini qurishni qo'llab-quvvatlaganidan keyin darhol pasayib ketgan Uch Mile orolidagi avariya 1979 yilda, CBS News so'roviga ko'ra. Fukusima yadroviy favqulodda holatidan 10 kun o'tgach, so'ralganlarning atigi 43 foizi Qo'shma Shtatlarda yangi elektr stantsiyalarini qurishni ma'qullashlarini aytdi.^[244]

2015 yil mart oyida AQShda Gallup tomonidan o'tkazilgan so'rov natijalariga ko'ra atom energetikasini 51% qo'llab-quvvatlagan, 43% qarshi bo'lgan. Bu 2001 yildan beri yadroviyni qo'llab-quvvatlashning eng past darajasi bo'lib, 2010 yildagi eng yuqori darajadan 62% foydasiga tushib ketdi, aksincha 33% qarshi chiqdi.^[245] Xuddi shu tarzda, 2013 yilda o'tkazilgan Roper so'rovnomasida yangi atom elektr stantsiyalarini 55% qo'llab-quvvatladi, 41% qarshi chiqdi, 2010 yilda qo'llab-quvvatlashning eng yuqori darajasidan 70% foydasiga, 27% qarshi chiqdi.^[246] 2016 yilda Gallup tomonidan o'tkazilgan so'rovnoma shuni ko'rsatdiki, amerikaliklar yadro energetikasi bo'yicha o'z fikrlarini o'zgartirib, 54% qarshi va 44% qo'llab-quvvatlagan. Bu Amerika tarixida birinchi marta ko'proq odamlarni yadro energiyasini qo'llab-quvvatlashdan ko'ra unga qarshi chiqqanlar sifatida o'lchashgan.^[247]

Qo'llab-quvvatlash eng yuqori darajada jalb ikki energiya manbalari 2007 yil MIT energiya tadqiqotlari edi quyosh energiyasi va shamol kuchi. To'g'ridan-to'g'ri aksariyat ko'pchilik ushbu ikki manbadan foydalanishni "ko'paytirishni" afzal ko'rishadi va to'rtdan uch amerikalik AQSh energiya portfelida ushbu manbalarni ko'paytirmoqchi. Respondentlarning o'n to'rt foizi ko'rishni xohlaydi atom energiyasi "ko'p oshirish".^[248]

Trendlar va kelajak istiqbollari

2017 yil 12 oktyabr holatiga ko'ra 30 mamlakatda jami 448 yadro reaktori ishlayapti, bu 2002 yildagi 444 tarixiy maksimaldan to'rttaga ko'p.^[249] 2002 yildan beri kommunal xizmatlar 26 ta qurilmani ishga tushirishdi va 32 ta, shu jumladan oltita blokni Yaponiyaning Fukusima Daiichi atom elektr stantsiyasida uzib qo'yishdi. Hozirgi dunyo reaktor parki umumiy nominal quvvati 392 ga teng gigavatt. 2011 yilda 2002 yildagiga qaraganda oltita kamroq ishlayotganiga qaramay, quvvati 9 gigavattdan yuqori.^[250] Shunga ko'ra yangi operatsion reaktorlarning soni, yakuniy to'xtashlar va yangi boshlangan qurilishlar Xalqaro atom energiyasi agentligi (IAEA) so'nggi yillarda quyidagilar:^[249]

Stefani Kuk yangi reaktorlarni qurish xarajatlari va ular bilan bog'liq bo'lgan xavf-xatarlar juda yuqori ekanligini ta'kidladi. Aksariyat kommunal xizmatlar ularsiz yangi zavodlar qurmaymiz deb aytishgan davlat kreditining kafolatlari. Shuningdek, reaktor bosimli idishlari va boshqa uskunalarni ishlab chiqaradigan fabrikalarda to'siqlar mavjud bo'lib, reaktorlarni qurish va ishlatish uchun malakali kadrlar etishmayapti,^[251] yaqinda atom elektr stantsiyasi qurilishining jadallashishi og'ir muhandislik qobiliyatini sezilarli darajada kengaytirmoqda.^[252]

Keyingi Fukushima Daiichi yadroviy halokati, Xalqaro energetika agentligi 2035 yilga qadar qurilishi kerak bo'lgan qo'shimcha yadro ishlab chiqarish quvvatining taxminiy bahosini ikki baravar kamaytirdi.^[253] Plitalar "Yaponiyaning Fukusima atom stansiyalaridagi inqiroz energiya iste'mol qiladigan etakchi mamlakatlarni mavjud reaktorlarning xavfsizligini qayta ko'rib chiqishga va butun dunyo bo'ylab rejalashtirilgan kengayishlarning tezligi va ko'lamiga shubha tug'dirishiga sabab bo'ldi" deb xabar berdi.^[254] 2011 yilda, Iqtisodchi atom energetikasi "xavfli, yoqimsiz, qimmat va xavfli ko'rinishga ega" ekanligini va "uni nisbatan osonlik bilan almashtirish mumkinligi va dunyo ish uslubidagi ulkan tarkibiy o'zgarishlarsiz unutilishi mumkinligi" haqida xabar berdi.^[255]

2011 yil sentyabr oyida Germaniya muhandislik giganti Simens ga javoban atom energiyasidan butunlay chiqib ketishini e'lon qildi Fukusima yadroviy halokati Yaponiyada.^[256] Kompaniya o'z faoliyatini kuchaytirishi kerak qayta tiklanadigan energiya sektor.^{[257][yangilanishga muhtoj ]} Germaniya hukumatining atom zavodlarini yopish siyosatini sharhlar ekan, prezident Verner Sinn Ifo Iqtisodiy tadqiqotlar instituti da Myunxen universiteti, "Atom elektr stantsiyalarini to'xtatish noto'g'ri, chunki bu arzon energiya manbai, shamol va quyosh energiyasi esa uni almashtirishga qodir emas. Ular ancha qimmat va kelayotgan energiya Energiyani ko'p talab qiladigan tarmoqlar chiqib ketadi va ularning raqobatbardoshligi Germaniya ishlab chiqarish sektori kamayadi yoki ish haqi depressiyaga tushadi. "^[258]

2011 yilda, Mike Shnayder atom energetikasidagi global pasayish tendentsiyasi haqida gapirdi:

Xalqaro yadroviy lobbi atom texnologiyasi kam uglerodli energiya varianti sifatida porloq kelajakka ega ekanligi to'g'risida qaror qabul qiluvchilarni ishontirishga qaratilgan 10 yillik uzoq muddatli targ'ibot strategiyasini amalga oshirdi ... ammo, yadroviy rejalarning aksariyati hech qachon amalga oshirildi. Butun dunyoda ishlaydigan reaktorlarning tarixiy maksimal darajasiga 2002 yilda 444 dona qurilmalar bilan erishildi. Evropa Ittifoqida tarixiy cho'qqiga 1988 yilda 177 ta reaktor bilan erishilgan, ulardan 134 tasi qolgan. Evropada amalga oshirilayotgan yagona yangi loyihalar byudjetdan ortiqcha va juda kechiktirilgan.

Sifatida Vaqt jurnali mart oyida haqli ravishda ta'kidlagan edi: "Atom energetikasi faqat soliq to'lovchilar va to'lovlarni to'lashga majbur bo'ladigan joylarda kengaymoqda". Xitoy butun dunyoda rasmiy ravishda qurilayotgan 65 ta qurilmaning 27 tasini yoki 40 foizidan ko'pini qurmoqda. Hatto u erda ham yadroviy energiya varianti sifatida yo'qolib bormoqda. So'nggi yillarda Xitoy yiliga taxminan 10 milliard dollar miqdorida atom energetikasiga sarmoya kiritgan bo'lsa, 2010 yilda u ikki baravar ko'p mablag 'sarfladi shamol energiyasi yolg'iz va barcha qayta tiklanadigan energiya manbalari bo'yicha umumiy qiymati 54,5 mlrd.^[259]

Aksincha, atom energetikasi tarafdorlari atom energetikasi boshiga eng kam odamni o'ldirganini ta'kidlaydilar teravatt soat har qanday turdagi elektr energiyasini ishlab chiqarish va atrof muhitga juda oz ta'sir qiladi, har qanday turdagi nol emissiya bilan. Bunga hatto bir necha kishi to'g'ridan-to'g'ri o'ldirilgan va kam miqdordagi saraton kasalligi atrof-muhitga radioaktivlikning tarqalishi sabab bo'lgan Chernobil va Fukusima avariyalarini hisobga olgan holda ham bahs yuritiladi.

Ba'zi tarafdorlar, aksariyat odamlar bunday statistik dalillarni qabul qilmasligini yoki sanoat yoki hukumatning tinchlantiruvchi bayonotlariga ishonishlarini tan olishadi. Darhaqiqat, sanoatning o'zi radioaktivlik xavfli bo'lishi mumkinligiga ishora qilib, atom energiyasidan qo'rqishni vujudga keltirdi. Sanoat sohasidagi aloqalarning yaxshilanishi atom energetikasi bilan bog'liq hozirgi qo'rquvni engishga yordam berishi mumkin, ammo oddiy aholining hozirgi tushunchalarini o'zgartirish qiyin vazifa bo'ladi.^[260]

Ammo "sanoat sohasidagi aloqalarning yaxshilanishi atom energetikasi borasidagi hozirgi qo'rquvni engishga yordam beradi" degan taklifga kelsak, Prinston universiteti fizigi M. V. Ramana asosiy muammo shundaki, "atom energetikasini boshqaradigan ijtimoiy institutlarga ishonchsizlik" mavjud va 2001 yilda Evropa Komissiyasi tomonidan o'tkazilgan so'rov natijalariga ko'ra "evropaliklarning atigi 10,1 foizi atom sanoatiga ishongan". Ushbu jamoat ishonchsizligi vaqti-vaqti bilan yadroviy kompaniyalar tomonidan xavfsizlik buzilishi bilan kuchayib boradi,^{[iqtibos kerak ]} yoki yadro nazorati organlarining samarasizligi yoki korruptsiyasi tufayli. Yo'qotilganidan keyin, deydi Ramana, ishonchni tiklash juda qiyin.^[261] Xalq antipatiyasi bilan duch kelgan atom sanoati "jamoatchilikni atom energiyasini qabul qilishga ishontirish uchun turli xil strategiyalarni sinab ko'rdi", shu jumladan, jamoatchilikni qiziqtirgan masalalarni muhokama qiladigan ko'plab "ma'lumot varaqalarini" nashr etdi. Ramananing aytishicha, ushbu strategiyalarning hech biri juda muvaffaqiyatli bo'lmagan.^[261]

2012 yil mart oyida, E.ON UK va RWE npower Buyuk Britaniyada atom energetikasining kelajagini shubha ostiga qo'yib, Buyuk Britaniyada yangi atom elektr stantsiyalarini ishlab chiqarishni tark etishlarini e'lon qildi.^[262] Yaqinda Centrica (kimga tegishli) Britaniya gazi ) 2013 yil 4 fevralda to'rtta yangi atom stansiyasida 20 foizli variantini qoldirib, poygadan chiqib ketdi.^[263] Kumbriya okrugi (mahalliy hokimiyat) 2013 yil 30-yanvarda chiqindilarni yakuniy omborxonasi uchun arizani rad etdi - hozirda taklif qilinadigan muqobil sayt yo'q.^[264]

Hozirgi yadroviy maqom va kelajak istiqbollari bo'yicha:^[265]

• Elektr tarmog'iga o'nta yangi reaktor ulangan edi, 2015 yilda bu 1990 yildan beri eng yuqori ko'rsatkichdir, ammo Osiyo yadroviy dasturlari keksaygan o'simliklar va yadrolarning pensiyalari bilan muvozanatlashgan. reaktorning o'chirilishi.^[119] Etti reaktor doimiy ravishda to'xtatildi.
• 2015 yilda 441 operatsion reaktor butun dunyo bo'ylab 382 855 megavatt elektr energiyasini ishlab chiqarishga qodir edi. Ammo ba'zi reaktorlar ishlayotgan deb tasniflanadi, ammo hech qanday energiya ishlab chiqarmayapti.^[266]
• 2015 yilda 67 ta yadro reaktori, shu jumladan to'rttasi qurilmoqda EPR birliklar.^[267] Finlyandiya va Frantsiyadagi birinchi ikkita EPR loyihasi yadroviy qayta tiklanishni boshqarishi kerak edi^[268] ammo ikkalasi ham qimmat qurilish kechikishlariga duch kelishmoqda. Qurilish 2009 va 2010 yillarda Xitoyning ikkita EPR qurilmasida boshlangan.^[269] Xitoy bo'linmalari 2014 va 2015 yillarda ish boshlashi kerak edi,^[270] ammo Xitoy hukumati xavfsizligi sababli qurilishni to'xtatdi.^[271] Xitoy Milliy yadro xavfsizligi boshqarmasi joylarda tekshiruvlar o'tkazdi va 2016 yilda funktsiyalarni sinab ko'rishga ruxsat berdi. Taishan 1 2017 yilning birinchi yarmida ishga tushirilishi kutilmoqda va Taishan 2 2017 yilning oxiriga qadar ishga tushirilishi rejalashtirilgan.^[272]

Braziliya, Xitoy, Hindiston, Yaponiya va Niderlandiya shamol energiyasidan yadro manbalariga qaraganda ko'proq elektr energiyasi ishlab chiqaradi. Yangi elektr energiyasini ishlab chiqarish quyosh energiyasi 2015 yilda 33 foizga o'sdi, shamol kuchi faqat Xitoyda rivojlanish hisobiga 17% dan yuqori, atom energiyasi uchun esa 1,3%.^[26]

2020 yil fevral oyida Qo'shma Shtatlarda OPEN100 atom elektr stantsiyalarini loyihalash, qurish va moliyalashtirish bo'yicha dunyodagi birinchi ochiq manbali platforma ishga tushirildi.^[273] Ushbu loyiha barqaror, arzon narxlardagi va uglerodsiz kelajakka aniq yo'lni taqdim etishga qaratilgan. OPEN100 loyihasida hamkorlik qilganlar orasida Framatome, Studsvik, Buyuk Britaniyaning Milliy yadro laboratoriyasi, Siemens, Pillsbury, Elektr energetikasi tadqiqot instituti, AQSh Energetika vazirligining Aydaho milliy laboratoriyasi va Oak Ridj milliy laboratoriyasi mavjud. ^[274]

2020 yil oktyabr oyida AQSh Energetika vazirligi yangi Advanced Reactor Demonstration Program (ARDP) doirasida 160 million dollarlik dastlabki mablag'ni olish uchun AQShda joylashgan ikkita jamoani tanlaganligini e'lon qildi.^[275][276] TerraPower MChJ (Bellevue, WA) va X-energy (Rockville, MD) kompaniyalari har biri yetti yil ichida ishlashi mumkin bo'lgan ikkita ilg'or yadro reaktorini qurish uchun 80 million dollar mukofotlashdi. ^[277]

Shuningdek qarang

Izohlar

Qo'shimcha o'qish

• Fergyuson, Charlz D. (iyun 2007). Yadro energetikasi: foyda va xatarlarni muvozanatlash. Xalqaro aloqalar bo'yicha kengash. ISBN  978-0-87609-400-6.
• Fergyuson, Charlz D. Marburger, Lindsi E.; Fermer, J. Doyne; Maxijani, Arjun (2010). "AQSh yadro kelajagi?". Tabiat. 467 (7314): 391–3. Bibcode:2010 yil natur.467..391F. doi:10.1038 / 467391a. PMID  20864972. S2CID  4427192.
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