Shamol energetikasining atrof-muhitga ta'siri - Environmental impact of wind power - Wikipedia

Shamol turbinalari qarama-qarshi Ardrossan, Shotlandiya
Chorvachilik shamol turbinasi yonida o'tlatish[1]

The atrof-muhitga ta'siri ning shamol kuchi bilan taqqoslaganda nisbatan kichikdir qazilma yoqilg'i quvvati. Boshqalar bilan taqqoslaganda kam uglerodli quvvat manbalari, shamol turbinalari eng past ko'rsatkichlardan biriga ega global isish potentsiali har qanday quvvat manbai tomonidan ishlab chiqarilgan elektr energiyasining birligiga.[2] Ga ko'ra IPCC, baholashda hayotiy tsikl energiya manbalarining global isish salohiyati, shamol turbinalarida a o'rtacha qiymati 15 dan 11 gacha (gCO
2
tenglama /kVt soat ) dengizdagi yoki quruqlikdagi turbinalar baholanayotganiga qarab.[3][4]

Quruqlikda shamol stansiyalari landshaftga sezilarli ta'sir ko'rsatishi mumkin,[5] odatda ular boshqa elektr stantsiyalariga qaraganda ko'proq erlarga tarqalishi kerak[6][7] va "qishloqlarni sanoatlashtirishga" olib kelishi mumkin bo'lgan yovvoyi va qishloq joylarda qurilishi kerak.[8] va yashash joylarini yo'qotish.[7] Mojarolar, ayniqsa, manzarali va madaniy jihatdan muhim landshaftlarda yuzaga keladi. Joylashuv cheklovlari (masalan muvaffaqiyatsizliklar ) ta'sirni cheklash uchun amalga oshirilishi mumkin.[9] Turbinalar va kirish yo'llari orasidagi er hali ham dehqonchilik va yaylov uchun ishlatilishi mumkin.[10][11]

Yashash joylarining yo'qolishi va parchalanishi shamol stansiyalarining yovvoyi tabiatga eng katta ta'siridir.[7] Shamol turbinalari, boshqa ko'plab inson faoliyati va binolari singari, parrandalar va yarasalar kabi parranda jonivorlarining o'lim darajasini oshiradi. 2010 yilda tuzilgan mavjud dala tadqiqotlarining qisqacha mazmuni Milliy shamol muvofiqlashtiruvchi hamkorlik har yili o'rnatilgan megavattga 14 dan kam va odatda to'rtdan kam parranda o'limini aniqladi, ammo yarasalar o'limi sonining keng o'zgarishi.[12] Boshqa tadqiqotlar singari, ba'zi turlar (masalan, ko'chib yuruvchi ko'rshapalaklar va qo'shiq qushlari) boshqalarga qaraganda ko'proq zarar etkazishi ma'lum va turbinada o'tirish kabi omillar muhim bo'lishi mumkin degan xulosaga keldi. Biroq, ko'plab tafsilotlar, shuningdek, turbinalar sonining ko'payib borishi natijasida umumiy ta'siri noaniq bo'lib qolmoqda.[13][14] The Qayta tiklanadigan energiya milliy laboratoriyasi saqlaydi a ma'lumotlar bazasi mavzuga oid ilmiy adabiyotlar.[15]

Shamol turbinalari ham shovqin hosil qiladi va 300 metr masofada (980 fut) bu 45 dB atrofida bo'lishi mumkin; ammo, 1,5 km (1 milya) masofada, shamol turbinalarining ko'pi eshitilmaydi.[16][17] Kuchli yoki doimiy shovqin stressni kuchaytiradi, keyinchalik kasalliklarga olib kelishi mumkin.[18] Shamol turbinalari to'g'ri joylashtirilganda shovqinlari bilan inson salomatligiga ta'sir qilmaydi.[19][20][21][9] Biroq, noto'g'ri joylashtirilganda, o'sayotgan g'ozlarning ikki guruhini kuzatishda olingan ma'lumotlarga ko'ra, tana vaznining sezilarli darajada pastligi va ikkinchi guruhga nisbatan 50 metr masofada joylashgan g'ozlarning birinchi guruhidagi qonda stress gormonining yuqori konsentratsiyasi aniqlangan. turbinadan 500 metr masofada.[22]

Asosiy operatsion mulohazalar

Sof energiya yutug'i

The sarmoyadan energiya qaytishi (EROI) shamol energetikasi uchun ishlab chiqarilgan elektr energiyasining turbinani qurish va saqlash uchun zarur bo'lgan birlamchi energiyaga bo'linishiga tengdir. 1977 yildan 2007 yilgacha bo'lgan barcha mavjud tadqiqotlar qayta ko'rib chiqilgan meta-tadqiqotga ko'ra, shamol uchun EROI 5 dan 35 gacha,[23] 2 MVt diapazondagi eng keng tarqalgan turbinalar bilan plita sig'imi -Rotor diametri 66 metr, o'rtacha EROI 16 ga teng.[24] EROI turbinaning kattaligiga mutanosibdir va ushbu diapazonning yuqori qismida eng katta kech avlod turbinalari o'rtacha va bitta tadqiqotga ko'ra taxminan 35 ga teng.[23]

Shamol turbinasi ishlab chiqaruvchisi Vestalar dastlabki energiya "qaytarib berish" kam shamol sharoitida 1,65-2,0 MVt quvvatga ega shamol turbinasi uchun taxminan 7-9 oy ichida ishlaydi, deb da'vo qilmoqda;[25][26] Holbuki Siemens shamol quvvati sharoitga qarab 5-10 oyni hisoblab chiqadi.[27]

Tarmoqning ifloslanishi va ta'siri

Ifloslanish xarajatlari

Shamol kuchi suvni iste'mol qilmaydi[28] doimiy ishlash uchun va elektr energiyasini ishlab chiqarish bilan bevosita bog'liq bo'lgan ahamiyatsiz chiqindilarga ega. Izolyatsiya qilinganida shamol turbinalari elektr tarmog'i, ahamiyatsiz miqdorda ishlab chiqarish karbonat angidrid, uglerod oksidi, oltingugurt dioksidi, azot dioksidi, simob va radioaktiv chiqindilar qazib olinadigan yoqilg'i manbalaridan farqli o'laroq, ishlayotganda atom energetikasi navbati bilan yoqilg'i ishlab chiqarish.

Qurilish bosqichi asosan aybdor bo'lganligi sababli, shamol turbinalari bir oz ko'proq chiqadi zarrachalar (PM), shakli havoning ifloslanishi, "istisno" stavkasi bo'yicha boshiga ishlab chiqarilgan energiya birligi (kVt soat) ga nisbatan qazilma gaz elektr stantsiyasi (""NGCC "),[29][30] va yana ko'p narsalarni chiqaradi og'ir metallar va ishlab chiqarilgan energiya birligi uchun yadro stantsiyalariga nisbatan PM.[31][32] Iqtisodiy jihatdan ifloslanishning umumiy xarajatlariga kelsak, 2006 yildagi Evropa tadqiqotida, alp Gidroenergetika eng past tashqi ifloslanishni namoyish etishi aniqlandi tashqi ko'rinish, 0,05 s dan past bo'lgan barcha elektr energiyasini ishlab chiqaruvchi tizimlarning xarajatlari /kVt soat. Shamol energetikasining tashqi xarajatlari 0,09-0,12 € / kVt, atom energiyasi esa 0,19 c € / kVt / soat qiymatiga ega va qazib olinadigan yoqilg'ilar quyi oqim xarajatlari 1,6-5,8 c € / kVt / soatni tashkil qildi.[33] Ikkinchi qazilma yoqilg'ilar bundan mustasno, ular bilan taqqoslaganda juda kam xarajatlar elektr energiyasining narxi ishlab chiqarish, bu taxminan 10 s /kVt soat yilda Evropa mamlakatlari.

Tarmoqqa ulanganda topilgan natijalar

The Vattenfall kommunal xizmatni o'rganish topildi Gidroelektrik, atom manbalari va shamol turbinalari boshqa manbalarga qaraganda ancha kam issiqxona chiqindilariga ega.

Shamol elektr stantsiyasini odatiy o'rganish Hayotiy tsiklni baholash, elektr tarmog'iga ulanmagan bo'lsa, odatda o'xshash natijalarga olib keladi, natijada 2006 yilda AQShning O'rta G'arbiy qismida karbonat angidrid (3) qurilmasini tahlil qilish (CO
2
) shamol energiyasining emissiyasi GVt soatiga 14 dan 33 tonnagacha (15 dan 36 qisqa tonnagacha) (14-33) gCO
2
/kVt soat ) ishlab chiqarilgan energiya, asosan CO
2
emissiya intensivligi turbinaning tuzilishi va poydevori uchun temir, beton va plastmassa / shisha tolali kompozitlarni ishlab chiqarishdan kelib chiqadi.[34][35] A-dagi ko'plab individual tadqiqotlar shunga o'xshash ma'lumotlarni birlashtirib meta-tahlil, o'rtacha shamol energiyasi uchun global isish salohiyati 11-12 g CO ekanligini aniqladi2/ kVt soat va sezilarli darajada o'zgarishi mumkin emas.[3][36][37]

Ammo bu nisbatan past ifloslanish ko'rsatkichlari o'sib bora boshlaydi, chunki shamol energiyasi tarmoqqa yoki shamol energiyasiga ko'proq va ko'proq qo'shiladi 'elektr tarmog'i penetratsiya darajalariga erishildi. Energiyaga bo'lgan ehtiyojni muvozanatlashtirishga urinish tarmoqdagi ta'siridan kelib chiqqan holda, dan Intervalgacha quvvat manbalari masalan. shamol energiyasi (past bo'lgan manbalar imkoniyatlar omillari ob-havo tufayli), buning uchun katta qurilish talab etiladi energiya saqlash loyihalari o'zlariga tegishli emissiya intensivligi Bu shamol energetikasining butun dunyo bo'ylab ifloslanish ta'siriga qo'shilishi kerak, yoki bu qazib olinadigan yoqilg'iga nisbatan ko'proq bog'liqlikni talab qiladi yigiruv zaxirasi ishonchli manbalarni zaxiralash uchun zarur bo'lgan talablar. Oxirgi kombinatsiya hozirgi kunda keng tarqalgan.[38][39][40]

Zaxira nusxasiga yuqori darajada bog'liqlik /Quyidagi elektr stantsiyalarini yuklang barqarorlikni ta'minlash elektr tarmog'i chiqish tez-tez samarasiz (masalan.) CO
2
e g / kVt soat) tejamkorlik intervalgacha quvvat manbai o'zgaruvchan chiqishini engillashtirish uchun tarmoqdagi ushbu boshqa quvvat manbalaridan yuqoriga va pastga. Agar tarmoq tizimidagi uzluksiz manbalarning boshqa quvvat manbalariga umumiy ta'siri, shu jumladan, shamol energiyasini ta'minlash uchun zaxira quvvat manbalarining chiqadigan chiqindilarini shamol energiyasining butun hayotiy tsikliga qo'shilsa, bu natijaga olib keladi shamol energiyasi emissiyasining yuqori realligi. To'g'ridan-to'g'ri g / kVt / soat qiymatidan yuqori, bu quvvat manbaiga alohida qarash va shu sababli tarmoqdagi barcha zararli / samarasiz ta'sirlarni e'tiborsiz qoldiradi.Quyidagi elektr stantsiyalarini yuklang barqarorlikni ta'minlash elektr tarmog'i chiqarish fotoalbom elektr stantsiyalarini unchalik samarali bo'lmagan davlatlarda ishlashga majbur qiladi. Yilda paydo bo'lgan 2012 yilda Sanoat ekologiyasi jurnali, unda aytilgan.[36]

" issiqlik samaradorligi fotoalbomlarga asoslangan elektr stantsiyalari shamol energiyasini to'ldirish uchun o'zgaruvchan va suboptimal yuklarda ishlaganda kamayadi, bu esa ma'lum darajada issiqxona gazining pasayishiga olib kelishi mumkin (Issiqxona gazi ) tarmoqqa shamol qo'shilishi natijasida hosil bo'ladigan foyda. Pehnt va uning hamkasblari tomonidan olib borilgan tadqiqot (2008)[41] shamolning o'rtacha darajadagi kirib borishi (12%) odatdagi elektr stantsiyasining turiga qarab 3% dan 8% gacha jarimalarga olib kelishi haqida xabar beradi. Gross va uning hamkasblari (2006) xuddi shunday natijalar haqida xabar berishdi, ularning samaradorligi bo'yicha jarimalar shamolning 20 foizgacha (tarmoqning) kirib borishi uchun deyarli 0% dan 7% gacha. Pehnt va uning hamkasblari (2008 yil) Germaniyaning offshor shamol energiyasini fon energiya tizimlariga qo'shish natijalari tarmoqni bir darajadagi ta'minotini saqlab turish va 20 dan 80 g gacha bo'lgan CO ga qo'shilish uchun etarli zaxira quvvatini ta'minlash natijalari.2-eg / kVt soat shamolning elektr energiyasi chiqindilarining hayotiy tsikliga. "

Boshqalarga nisbatan kam uglerodli quvvat manbalar Shamol turbinalari, yakka holda baholanganda, a o'rtacha 11 va 12 oralig'idagi hayot aylanishining emissiya qiymati (gCO
2
tenglama /kVt soat ). Ishonchli alp tog 'gidroelektrostantsiyalari va atom stantsiyalari 24 va 12 g CO o'rtacha umr tsikli emissiya qiymatlariga ega2-eq / kVt soat.[3][42]

Yuklarni muvozanatlashning amaliy masalalari tufayli chiqindilar miqdorining ko'payishi muammo bo'lsa-da, Pehnt va boshq. hali ham bu 20 va 80 g CO2- ekv / kVt soatlik jarimalar hanuzgacha shamolni qazib olinadigan gaz va ~ 400 va 900 g CO chiqaradigan ko'mirga qaraganda o'n baravar kam ifloslanishiga olib keladi.2-eq / kVt soat.[41]

Ushbu yo'qotishlar fotoalbom elektr stantsiyalarining tsikli tufayli sodir bo'lganligi sababli, ular bir muncha vaqt shamol energiyasining 20-30% dan ko'prog'ini elektr tarmog'iga qo'shganda kichikroq bo'lishi mumkin, chunki fotoalbom elektr stantsiyalari almashtiriladi, ammo bu hali sodir bo'lmadi amalda.[43][yaxshiroq manba kerak ]

Noyob-erdan foydalanish

Ba'zi shamol turbinalarida ishlatiladigan doimiy magnitlarni ishlab chiqarishdan foydalaniladi neodimiy.[44] Ifloslanish xavotirlari Xitoy tomonidan eksport qilinadigan ushbu noyob tuproq elementini qazib olish bilan bog'liq bo'lib, so'nggi yillarda hukumatning harakatlarini qo'zg'atdi,[45][46] qazib olish jarayonini takomillashtirishga qaratilgan xalqaro tadqiqotlar.[47] Neodimiyga bo'lgan ehtiyojni kamaytiradigan yoki kamyob er metallaridan foydalanishni umuman yo'q qiladigan turbinalar va generatorlar konstruktsiyalari bo'yicha tadqiqotlar olib borilmoqda.[48] Bundan tashqari, yirik shamol turbinasi ishlab chiqaruvchisi Enercon GmbH noyob erlarni qazib olishning atrof muhitga salbiy ta'siri uchun javobgarlikdan qochish uchun to'g'ridan-to'g'ri qo'zg'aysan turbinalari uchun doimiy magnitlardan foydalanmaslikni juda erta tanladi.[49]

Poligondan foydalanish

Zamonaviy shamol turbinasi pichoqlari 20 yildan kam xizmat qilish muddatini ta'minlaydigan plastik / shisha tolali kompozit konstruktsiyalardan tayyorlangan.[50] 2018 yil fevral oyidan boshlab, ushbu eski pichoqlarni qayta ishlash uchun tejamkor texnologiya va bozor yo'q edi va ularni yo'q qilishning eng keng tarqalgan tartibi ularni poligonlarga olib borishdir.[51] Bo'shliq dizayni tufayli pichoqlar massasi bilan taqqoslaganda juda katta hajmni egallashi mumkin. Poligon operatorlari pichoqlarni bo'laklarga bo'linib, ba'zan ularni maydalashdan oldin maydalashni talab qila boshladilar, bu esa ko'proq energiya sarflaydi.[50][52] Yangi turbinalarning ishlab chiqarish samaradorligi va ishlash muddatini uzaytirish bo'yicha olib borilayotgan doimiy rivojlanish ishlari bilan bir qatorda pichoqni qayta ishlash uchun tejamkor, energiya tejaydigan va bozor miqyosiga mos keladigan echimlarni ishlab chiqarish davom etmoqda.[53]

Ekologiya

Yerdan foydalanish

Shamol ishlab chiqaradigan fermer xo'jaliklari ko'pincha erlarni tozalash bilan allaqachon ta'sirlangan erlarda quriladi. Shamol elektr stantsiyalari uchun zarur bo'lgan o'simliklarni tozalash va erning buzilishi ko'mir konlari va ko'mir yoqiladigan elektr stantsiyalari bilan taqqoslaganda minimaldir. Agar shamol elektr stantsiyalari ishdan chiqarilsa, landshaftni avvalgi holatiga qaytarish mumkin.[54]

2000 yildan 2009 yilgacha qurilgan AQShning qayta tiklanadigan energetika milliy laboratoriyasining tadqiqotlari shuni ko'rsatdiki, o'rtacha shamol stansiyalari maydonining atigi 1,1 foizigina yuzaning buzilishiga duch kelgan va 0,43 foizigina shamol elektr inshootlari tomonidan doimiy ravishda bezovta qilingan. O'rtacha har bir MVt quvvatga 63 gektar (156 akr) shamol elektrostansiyasining umumiy maydoni to'g'ri kelgan, ammo shamol energiyasining har bir MVt quvvatiga 0,27 gektar (0,67 gektar) doimiy ravishda buzilgan maydon.[55]

Buyuk Britaniyada ko'plab shamollarni elektrostantsiyalari - shamolning o'rtacha tezligi eng yuqori bo'lgan joylar - to'shak botqog'i bilan tez-tez qoplanadigan tog'li hududlarda. Ushbu turdagi yashash joylari nisbatan katta miqdordagi yog'ingarchilik bo'lgan joylarda mavjud bo'lib, u erda katta er maydonlari doimiy ravishda sodali bo'lib qoladi. Qurilish ishlari torf erlari gidrologiyasini buzish xavfini keltirib chiqarishi mumkin, bu esa shamol elektr stantsiyasi hududidagi torfning lokalizatsiya qilingan joylarini qurishi, parchalanishi va shu sababli saqlanadigan uglerodni chiqarishi mumkin. Shu bilan birga, qayta tiklanadigan energiya sxemalari yumshatmoqchi bo'lgan iliq iqlim Buyuk Britaniyaning torf joylariga ekzistensial xavf tug'dirishi mumkin.[56][57] Shotlandiyalik MEP torf erlarida shamol rivojlanishiga moratoriy e'lon qilish uchun "torfga zarar etkazish, karbonat angidridni shamol elektr stantsiyalarining tejashiga qaraganda ko'proq miqdorda chiqarilishiga olib keladi" deb e'lon qildi.[58] Shimoliy Irlandiyaning Atrof-muhit agentligi uchun 2014 yilgi hisobotda shuni ta'kidladiki, shamol turbinalarini torf erga qo'yish torfdan katta miqdordagi karbonat angidrid gazini chiqarishi, shuningdek toshqinlarni nazorat qilish va suv sifatiga peatland hissasiga zarar etkazishi mumkin: "Peatland resurslaridan foydalanishning potentsial ta'siri chunki shamol turbinalari juda katta va bu biologik xilma-xillikning ta'sirlari Shimoliy Irlandiya uchun eng sezilarli va eng katta moliyaviy ta'sirga ega bo'lishi shubhasizdir. "[59]

Shamol energetikasi tarafdorlari ta'kidlashlaricha, erlarning 1 foizdan kamrog'i poydevor va kirish yo'llari uchun ishlatiladi, qolgan 99 foizi dehqonchilik uchun ishlatilishi mumkin.[11] Shamol turbinasi uchun taxminan 200-400 m² kerak poydevor. Yillik ishlab chiqarish hajmi 1,4 GVt / soat bo'lgan (kichik) 500 kVt-turbinada 11,7 MVt / m² ishlab chiqariladi, bu ko'mir yoqilg'isi bilan taqqoslanadigan (taxminan 15-20 MVt / m²), ko'mir qazib olinmaydi. Shamol turbinasining kattalashishi bilan poydevorning nisbiy hajmi kamayadi.[60] Tanqidchilarning ta'kidlashicha, o'rmonlarning ba'zi joylarida minora poydevori atrofidagi daraxtlarni tozalash AQShning shimoli-sharqidagi kabi tog 'tizmalariga o'rnatish uchun zarur bo'lishi mumkin.[61] Bu odatda har bir shamol turbinasi uchun 5000 m² maydonni tozalashni talab qiladi.[62]

Turbinalar odatda shahar joylarda o'rnatilmaydi. Binolar shamolga xalaqit beradi, turbinalar ishlamay qolganda turar joylardan xavfsiz masofaga ("to'siq") qo'yilishi kerak va erning qiymati yuqori. Lar bor bir nechta e'tiborga loyiq istisnolar bunga. The WindShare ExPlace shamol turbinasi 2002 yil dekabr oyida, uning asosida o'rnatildi Ko'rgazma joyi, yilda Toronto, Ontario, Kanada. Bu Shimoliy Amerikaning yirik shahar markazida o'rnatilgan birinchi shamol turbinasi edi.[63] Chelik shamollari Shuningdek, janubda 20 MVt quvvatga ega shahar loyihasi mavjud Buffalo, Nyu-York. Ushbu loyihalarning ikkalasi ham shaharlarda joylashgan, ammo ko'l bo'yida yashamaydigan mulkda bo'lish foydali.

Chorvachilik

Yerdan hali ham dehqonchilik va mol boqish uchun foydalanish mumkin. Shamol elektr stantsiyalari mavjudligi chorvachilikka ta'sir qilmaydi. Xalqaro tajriba shuni ko'rsatadiki, chorva mollari "shamol turbinalari tagiga qadar boqiladi va ko'pincha ularni ishqalanuvchi ustun yoki soyada ishlatadi".[54]

2014 yilda bu birinchi veterinariya o'rganish tarbiyaning ta'sirini aniqlashga harakat qildi chorva mollari shamol turbinasi yaqinida olib borilgan tadqiqotlar shamol turbinasining sog'likka ta'sirini o'sayotgan ikki guruh rivojlanishiga taqqosladi g'ozlar Dastlabki natijalar shuni ko'rsatdiki, shamol turbinasidan 50 metr masofada ko'tarilgan g'ozlar ozroq vaznga ega bo'lib, stress gormonining yuqori konsentratsiyasiga ega. kortizol ularning qonida 500 metr masofadagi g'ozlarga qaraganda.[22]

Yarim ichki kiyik qurilish faoliyatidan qochish,[64] ammo turbinalar ishlayotganda ta'sirlanmagan ko'rinadi.[65][66]

Yovvoyi tabiatga ta'siri

Shamol elektr stantsiyalari takliflari uchun atrof-muhitni baholash muntazam ravishda amalga oshiriladi va mahalliy atrof-muhitga (masalan, o'simliklar, hayvonlar, tuproqlar) ta'sir ko'rsatadigan ta'sirlar baholanadi.[54] Turbinalarning joylashuvi va operatsiyalari tahdid ostida bo'lgan turlarga va ularning yashash joylariga ta'sirini oldini olish yoki kamaytirish uchun tasdiqlash jarayonining bir qismi sifatida ko'pincha o'zgartiriladi. Har qanday muqarrar ta'sirni taklifga ta'sir qilmaydigan o'xshash ekotizimlarni saqlab qolish yaxshilanishi bilan qoplash mumkin.[54]

Tomonidan qo'llab-quvvatlanadigan universitetlar, sanoat va hukumat tadqiqotchilari koalitsiyasining tadqiqot kun tartibi Barqaror kelajak uchun Atkinson markazi, modellashtirishni taklif qiladi makon-zamon naqshlari geografik xususiyatlar va ob-havo sharoitida migratsiya va yashash joyidagi yovvoyi tabiatni, yangi shamol loyihalarini qaerda joylashtirish to'g'risida ilmiy asoslangan qarorlar qabul qilish uchun asos yaratish. Aniqrog'i, quyidagilarni taklif qiladi:

  • Xavfning bashoratli modellarini ishlab chiqish uchun yovvoyi tabiatning migratsiya va boshqa harakatlari to'g'risidagi mavjud ma'lumotlardan foydalaning.
  • Yovvoyi tabiat harakati haqidagi bilimdagi bo'shliqlarni to'ldirish uchun yangi va rivojlanayotgan texnologiyalardan, shu jumladan radar, akustika va termal tasvirlardan foydalaning.
  • Yuqori potentsial shamol zaxiralari mavjud bo'lgan joylarda eng xavfli bo'lgan turlarning yoki turlarning turlarini aniqlang.[67]

Qushlar

Dastlabki tadqiqotdan olingan ma'lumotlar,[68] B. Sovacool tomonidan har yili Qo'shma Shtatlarda qushlar o'limining sabablari to'g'risida
ManbaTaxminiy
o'lim
(millionda)
Taxminiy
o'limlar
(GVt soatiga)
Shamol turbinalari[69][70][71]0.02–0.570.269
Samolyot[72]0.08(no)
Atom elektr stantsiyalari[68][69]0–0.330–0.42
Neft konidagi neft chiqindilari va chiqindi suv chuqurlari[73][74]0.5–1.0(no)
Noqulay qushlarni boshqarish o'ldiradi (aeroportlar, qishloq xo'jaligi va boshqalar ...)[75]2(no)
Aloqa minoralari (uyali, radio, mikroto'lqinli pech)[69]4–50(no)
Katta aloqa minoralari (180 'dan oshiq, N. Amerika)[76]6.8(no)
Fotoalbom yoqilg'i quvvatlari[69]145.18
Yengil va yuk mashinalari[69][75]50–100(no)
Qishloq xo'jaligi[69]67(no)
Pestitsiddan foydalanish[69]72(no)
Ovchilik[69][75]100–120(no)
Uzatish liniyalari (an'anaviy elektr stantsiyalari)[69][75]174–175(no)
Binolar va derazalar[77]365–988(no)
Uy va yovvoyi mushuklar[69][78][79][80]210–3,700(no)

To'g'ridan-to'g'ri turbinalarga ucha oladigan yoki bilvosita ularning yashash muhitini shamol rivojlanishi bilan buzadigan qushlarga shamol energiyasining ta'siri juda murakkab. Kabi loyihalar Qora qonun shamol xo'jaligi ekologik maqsadlarga qo'shgan hissasi uchun keng e'tirofga sazovor bo'ldi, shu jumladan Qushlarni himoya qilish uchun qirollik jamiyati Ushbu sxemani ta'rifi shundaki, u ochiq-oydin kon qazish maydonining landshaftini yaxshilaydi va shuningdek, 14 kvadrat kilometrdan ziyod yashash joylarini boshqarish bo'yicha keng ko'lamli loyihalarni amalga oshirgan holda, ushbu hududdagi yovvoyi tabiat turiga foyda keltiradi.[81]

Dastlabki ma'lumotlar,[68] 2013 yil davomida yuqoridagi jadvaldan "Qo'shma Shtatlarda parranda o'limining sabablari, yillik", chiziqli grafik sifatida ko'rsatilgan bo'lib, muallif keyinchalik tan olgan yadro parchalanadigan qushlar o'limining yuqori ko'rsatkichini o'z ichiga olgan. .[68]

The meta-tahlil tomonidan parrandalar o'limi to'g'risida Benjamin K. Sovacool uni boshqa tadqiqotchilar metodikasida bir qator kamchiliklar mavjudligini taxmin qilishga undadi.[69] Ularning orasida u qushlarning nobud bo'lishiga e'tibor qaratdi, ammo qushlarning tug'ilishining kamayishiga e'tibor qaratmadi: masalan, qazilma yoqilg'ilar uchun qazib olish ishlari va qazib olinadigan yoqilg'i o'simliklarining ifloslanishi ko'p toksik konlarga va kislotali yomg'irlarga olib keldi, bu ko'pchilikka zarar etkazdi yoki zaharladi. tug'ilishning kamayishiga olib keladigan uyalar va ovqatlanish joylari. Yovvoyi tabiat yoki qishloq xo'jaligi uchun qulay maydonni qisqartiradigan shamol turbinalarining katta yig'ilgan izlari, shuningdek, barcha tadqiqotlarda, shu jumladan Sovacool-da yo'qolgan. Ko'pgina tadqiqotlar, shuningdek, ishlab chiqarilgan elektr energiyasining birligiga qushlarning o'limi haqida hech qanday ma'lumot bermadi, bu esa turli xil energiya manbalari o'rtasida mazmunli taqqoslashni istisno qildi. Eng muhimi, xulosa qilishicha, texnologiyaning ommaviy axborot vositalari ta'sirida o'lchanadigan eng ko'zga ko'ringan ta'sirlari, albatta, eng ochiqchasiga emas.[69]

Sovacool AQSh shamol turbinalarida yiliga 20000 dan 573000 gacha parranda yo'q qilinishini taxmin qildi va boshqa sabablarga ko'ra qushlarning o'limiga nisbatan bu ko'rsatkichni minimal deb hisobladi. U o'quv va jadvalida eng past 20000 raqamidan foydalanadi (qarang) Qushlar o'limining sabablari ishlab chiqarilgan energiya birligi uchun to'g'ridan-to'g'ri o'lim koeffitsientiga erishish uchun jadval 0,269 ga teng GWh shamol energiyasi uchun. Odatda shamol turbinalari ob-havoga bog'liqligini qoplashni talab qiladigan fotoalbom yoqilg'isi bilan ishlaydigan elektr stantsiyalari uzilish Sovacool ma'lumotlariga ko'ra bir gigavatt soatiga (GVt) elektr energiyasidan deyarli 20 baravar ko'p qushlarni o'ldiring. AQShda yiliga 797 milliondan 5,29 milliardgacha bo'lgan boshqa inson faoliyati va mushuklar sababli qushlarning nobud bo'lishiga qo'shimcha ravishda, ko'plab tadqiqotlar qushlarning o'limini tahlil qilishga qaratilgan bo'lsa, qushlarning tug'ilishini qisqartirish bo'yicha ozgina ishlar olib borilgan va bu qo'shimcha oqibatlarga olib keladi. shamol energiyasini qisman yumshatadigan har xil ifloslanish manbalari.[69]

Sovakol qushlarning nobud bo'lishining qazilma yoqilg'i bilan ishlaydigan elektr stantsiyalariga tegishli ekanligi, ularning 96 foizi iqlim o'zgarishi ta'siriga bog'liq. Tadqiqot turli xil energiya shakllari tufayli yarasalarning o'limini baholamagan bo'lsa-da, u o'limning o'xshash nisbatini qabul qilishni asossiz deb hisobladi.[69][82] Sovacool tadqiqotlari ma'lumotlarga ishlov berish sababli ziddiyatlarni keltirib chiqardi.[83][84] Bir qator javoblarida Sovacool bir qator katta xatolarni tan oldi, xususan uning "0,33 dan 0,416 gacha bo'lgan o'limi bilan bog'liq bo'lgan GVt soatiga atom energiyasiga to'g'ri keladigan qushlarning o'limi sonini oshirib yuborish bilan bog'liqligi" bilan bog'liq bo'lgan xatolarni tan oldi va "tadqiqot allaqachon sizga raqamlar - bu yaxshilanishi kerak bo'lgan juda taxminiy taxminlar. "[68]

Smolvud tomonidan 2013 yilda o'tkazilgan meta-tahlil natijasida shamol turbinalari tomonidan parrandalar va yarasalar o'limi haqida jiddiy ma'lumot berilmaydigan bir qator omillar aniqlandi. Bularga samarasiz qidirish, qidirish radiusining etarli emasligi va yirtqichlar tomonidan tana go'shtini olib tashlash kiradi. Turli tadqiqotlar natijalarini sozlash uchun u tana go'shtini joylashtirish bo'yicha yuzlab sinovlardan tuzatish omillarini qo'lladi. Uning meta-tahlilidan kelib chiqadiki, 2012 yilda Qo'shma Shtatlarda shamol turbinalari 888 ming ko'rshapalak va 573 ming parranda, shu jumladan 83000 yirtqich qushning o'limiga olib keldi.[85]

Shuningdek, 2013 yilda jurnalda Skott Loss va boshqalar tomonidan qilingan meta-tahlil Biologik konservatsiya monopolli minora shamol turbinalari tomonidan AQShda har yili o'ldiriladigan qushlarning o'rtacha soni 234 mingtani tashkil etganligi aniqlandi. Mualliflar Smolvud tomonidan bildirilgan ko'proq sonni tan olishdi, ammo Smolvudning meta-tahlillari shamol turbinasi minoralari turlarini ajratib ko'rsatmaganligini ta'kidladilar. Faqatgina yangi shamol qurilmalari uchun ishlatiladigan monopol minoralar o'lim ko'rsatkichlariga ega bo'lib, "monopol turbinalarining balandligi oshgani sayin o'sib boradi", ammo hozirgacha tobora balandroq bo'lgan monopol minoralar GWh ga nisbatan o'limni kamaytiradimi, aniqlanmoqda.[86][87]

Shamol energetikasi inshootlarida qushlarning o'limi joylashishi, qurilishi va balandligiga qarab juda xilma-xil bo'lishi mumkin, ba'zi muassasalarda qushlarning o'limi nolga teng, boshqalari yiliga har turbinada 9,33 ta qushni tashkil qiladi.[88] Jurnaldagi 2007 yilgi maqola Tabiat AQShdagi har bir shamol turbinasi yiliga o'rtacha 0,03 qushni o'ldirishini ta'kidladi va qo'shimcha tadqiqotlar o'tkazish kerakligini tavsiya qiladi.[89][90]

Norvegiyaning Tabiatni o'rganish instituti olimlari turbinalar pichoqlaridan birini qora rangda bo'yash o'ldirilgan qushlar sonini 70 foizga kamaytirganligini aniqladilar. Qushlarning ayrim turlari (ya'ni oq dumli burgut singari yirik yirtqich qushlar) bundan ham ko'proq foyda olishdi. Bu Norvegiyadagi Smøla shamol stansiyasida sinovdan o'tkazildi[91]

Tomonidan shamol turbinasi qushlarining o'limini har tomonlama o'rganish Kanada yovvoyi tabiat xizmati 2013 yilda Kanadada 2011 yil dekabr oyiga qadar ishlaydigan 135 shamol elektrostantsiyalaridan 43 tasining hisobotlari tahlil qilindi. Qidiruv samarasizligini tuzatgandan so'ng, tadqiqot har bir minorada yiliga o'rtacha 8,2 qush o'limini aniqladi, shundan ular jami 23000 boshiga etib kelishdi. o'sha paytda Kanada uchun yil. Hayotiy yashash joylarining haqiqiy yo'qotilishi o'rtacha har bir turbinada 1,23 gektarni tashkil etdi, bu o'rtacha har bir turbinada 1,9 uyalash joyini bevosita yo'qotish bilan bog'liq. Son jihatdan aniqlanmagan yashash muhitining samarali yo'qotilishi turlar orasida juda o'zgaruvchan ekanligi kuzatildi: ba'zi turbinalar turbinalardan 100 dan 200 m gacha uyalashdan qochishgan, boshqa turlar esa pichoqlar ostida erga oziqlanish kuzatilgan. Tadqiqot natijalariga ko'ra, umuman olganda, parrandalar o'limining boshqa sabablari bilan solishtirganda qushlarga umumiy ta'sir "nisbatan kichik" bo'lgan, ammo ba'zi holatlarda xavf ostida bo'lgan turlarni himoya qilish uchun yumshatish choralari talab qilinishi mumkinligi ta'kidlangan.[92]

Tadqiqotlar shuni ko'rsatadiki, mushuklar, avtoulovlar, binolar, elektr uzatish liniyalari va elektr uzatish minoralari kabi boshqa manbalar shamol turbinalaridan ko'ra ko'proq qushlarni o'ldiradi, ko'plab tadqiqotlar va tabiatni muhofaza qilish guruhlari shamol turbinalari nomutanosib ravishda katta o'ldirilishini ta'kidladilar. ko'chib yuruvchi qushlar va yirtqich qushlar va yo'qolib ketish xavfi ostida bo'lgan qushlarni o'ldirish ehtimoli ko'proq.[93][94] Shamol inshootlari hayajonli raptor turlariga, shu jumladan ta'siriga eng ko'p e'tibor qaratdi oltin burgutlar. Yaqinda Pine Tree Wind energiya loyihasi Tehachapi, Kaliforniya mamlakatda zo'rlik bilan o'lim ko'rsatkichlari bo'yicha eng yuqori ko'rsatkichlardan biriga ega; 2012 yilga kelib kamida sakkizta oltin burgutlar o'ldirilgan AQSh baliq va yovvoyi tabiatni muhofaza qilish xizmati (USFWS).[95] Biologlarning ta'kidlashicha, katta parrandalarning nobud bo'lishiga yo'l qo'ymaslik muhimroq, chunki ularning nasl berish darajasi pastroq va ular ma'lum joylardagi shamol turbinalari tomonidan qattiqroq ta'sirlanishi mumkin.

Ko'p sonli qushlarning o'limiga binolar bilan to'qnashuv sabab bo'lgan.[96] Taxminan har yili 1 dan 9 milliongacha qushlarni baland binolar o'ldiradi Toronto, Ontario, Yovvoyi tabiatni muhofaza qilish tashkilotiga ko'ra, faqatgina Kanada Yomon nurni xabardor qilish dasturi.[97][98] Boshqa tadqiqotlar shuni ko'rsatadiki, faqatgina Qo'shma Shtatlarda 57 million odam avtoulovlar tomonidan o'ldiriladi va taxminan 365 dan 988 milliongacha binolar va plastinka oynalari bilan to'qnashuv natijasida o'ldiriladi.[77][90][99] Reklama tadbirlari yorug'lik nurlari, shuningdek silometrlar aeroportdagi ob-havo idoralarida ishlatiladigan qushlar uchun juda xavfli bo'lishi mumkin,[100] qushlar o'zlarining nurlarida ushlanib, charchoq va boshqa qushlar bilan to'qnashganda. 1954 yilda bir kecha davomida eng yomon qayd qilingan silometr nurlari paytida 53 xil turdan taxminan 50,000 qushlar vafot etdi. Warner Robins aviabazasi Qo'shma Shtatlarda.[101]

Arktik terns va shamol turbinasi Eider Barrage Germaniyada.

Buyuk Britaniyada Qushlarni himoya qilish uchun qirollik jamiyati (RSPB) "mavjud dalillar shuni ko'rsatadiki, tegishli ravishda joylashtirilgan shamol elektr stantsiyalari qushlar uchun katta xavf tug'dirmaydi".[14] Unda ta'kidlanishicha, iqlim o'zgarishi yovvoyi hayot uchun ancha katta xavf tug'diradi va shu sababli qo'llab-quvvatlaydi shamol stansiyalari va boshqa shakllari qayta tiklanadigan energiya kelajakdagi zararni yumshatish usuli sifatida. 2009 yilda RSPB "qushlar turbinalarga yaqin joylardan kutilganidan kamroq foydalanishi mumkinligi sababli" tabiatni muhofaza qilishda xavotirga ega bo'lgan bir nechta naslchilik qushlarining soni shamol turbinalariga yaqin kamayadi "deb ogohlantirdi. .[102]

Shamol turbinalari xavotir bildirildi Smola, Norvegiya aholisiga zararli ta'sir ko'rsatmoqda oq dumli burgutlar, Evropaning eng katta yirtqich qush. Ular keng joriy etish dasturining mavzusi bo'lgan Shotlandiya, bu shamol turbinalarining kengayishi bilan xavfli bo'lishi mumkin.[103]

The Peñascal shamol energiyasi loyihasi Texas shtati yirik shahar markazida joylashgan qushlarning ko'chishi yo'nalish va shamol elektr stantsiyasidan foydalanadi qush dastlab ishlab chiqilgan radar NASA va Amerika Qo'shma Shtatlari havo kuchlari 6,4 km uzoqlikdagi qushlarni aniqlash. Agar tizim qushlarning aylanadigan pichoqlar ichiga kirib qolish xavfi borligini aniqlasa, turbinalar o'chadi va qushlar o'tib ketgandan keyin qayta ishga tushiriladi.[104] 2005 yil Daniya tomonidan olib borilgan tadqiqotlar davomida kuzatuv radaridan foydalanib, chet elda shamol elektr stantsiyasida sayohat qilgan migratsiya qushlarini kuzatib borishdi. Chet elda shamol elektr stantsiyasidan o'tgan migratsiya qushlarining 1 foizidan kamrog'i Rende, Daniya, to'qnashuv xavfi tug'ilishi uchun etarlicha yaqinlashdi, ammo sayt faqat past shamol sharoitida o'rganilgan edi. Tadqiqot shuni ko'rsatadiki, hech bo'lmaganda tadqiqot o'tkazilgan past shamol sharoitida ko'chib yuruvchi qushlar katta turbinalardan qochishi mumkin.[105][106] Bundan tashqari, tungi migrantlar to'qnashuv xavfini diural faol turlarga qaraganda yuqori deb o'ylamaydilar.[107]

Kaliforniyadagi Altamont dovonidagi eski uslubdagi shamol turbinalari, ularning o'rnini ko'proq "qushlarga mos dizaynlar" egallaydi. Yangi dizaynlar balandroq bo'lsa-da, ularning "do'stona" ekanligi to'g'risida hali aniq dalillar yo'q. Yaqinda o'tkazilgan bir tadqiqot shuni ko'rsatadiki, ular yovvoyi hayot uchun xavfsizroq bo'lmasligi mumkin,[108] va ko'ra, "oddiy tuzatish" emas Oklaxoma shtat universiteti ekolog Skott Loss.[86]

2012 yilda tadqiqotchilar xabar berishlaricha, yaqin atrofdagi offshor shamol elektr stantsiyasini qurishdan keyin qushlarni to'rt yillik radar kuzatuvi bo'yicha o'rganish. Linkolnshir, bu pushti oyoqli g'ozlar qishlash uchun Buyuk Britaniyaga ko'chib o'tish, turbinalardan qochish uchun parvoz yo'lini o'zgartirdi.[109]

Da Altamont dovoni shamol zavodi Kaliforniyada, o'rtasida joylashgan aholi punkti Audubon Jamiyati, Kaliforniyaliklar qayta tiklanadigan energiya uchun va NextEra Energy Resources Ushbu hududda 5000 ga yaqin turbinalarni boshqaradiganlar, 2015 yilga kelib, turbinalarning deyarli yarmini yangi, qushlarga qulay modellar bilan almashtirishni va raptorlarning yashash joylarini tiklash uchun 2,5 million dollar ajratishni talab qiladi.[110] Taklif etilgan Chokecherry va Sierra Madre shamol energiyasi loyihasi yilda Vayoming tomonidan ruxsat berilgan Yerni boshqarish byurosi (BLM) yiliga 16 ta burgutni Baliq va yovvoyi tabiatni muhofaza qilish xizmati bashorat qilganidek "olish", shu bilan birga elektr tarmoqlarini kamroq zarar etkazish.[111][112] 2012 yilda o'tkazilgan BLM tadqiqotida har yili qariyb 5400 qush, shu jumladan 150 dan ortiq qushlar taxmin qilingan.[113][tushuntirish kerak ] Ba'zi saytlarda qushlarni tomosha qilish kerak.[114] 2016 yilda Obama ma'muriyati yuqori tezlikda ishlaydigan turbinalarni ishlatadigan shamol energetikasi kompaniyalariga 4200 ga qadar o'ldirish yoki jarohat etkazish uchun ruxsat beruvchi 30 yillik litsenziyalar beradigan qoidalarni yakunladi. oltin burgutlar va kal burgutlar, jarimaga tortilishdan oldin, amaldagi limitdan to'rt baravar ko'p.[115] Qo'shma Shtatlarda 143 ming kal va 40 ming burgut bor.[115]

Yarasalar

Ko'rshapalaklar turbinali pichoqlar, minoralar yoki elektr uzatish liniyalari bilan to'g'ridan-to'g'ri zarba berishlari mumkin. Yaqinda o'tkazilgan tadqiqotlar shuni ko'rsatadiki, turbina pichog'i uchlarini o'rab turgan past bosimli mintaqadan to'satdan o'tayotganda ko'rshapalaklar ham o'ldirilishi mumkin.[82]

Ning raqamlari ko'rshapalaklar mavjud qirg'oq va qirg'oq yaqinidagi inshootlar tomonidan o'ldirilgan, yarasalar ixlosmandlarini tashvishga solmoqda.[116]

2009 yil aprel oyida "Ko'rshapalaklar va shamol energetikasi kooperativi" dastlabki tadqiqotlar natijalarini e'lon qildilar, shamol shamollari past bo'lgan sharoitda, ko'rshapalaklar eng faol bo'lgan paytda to'xtab qolganda, yarasalar o'limi 73 foizga pasaygan.[117] Ko'rshapalaklar radar transmitterlaridan qochishadi va mikroto'lqinli uzatgichlarni shamol turbinasi minoralariga joylashtirish, ko'rshapalaklar to'qnashuvini kamaytirishi mumkin.[118][119]

Yarasalar o'limining bir qismi shamol turbinasi pichoqlari tomonidan shamolning siljishi bilan bog'liq bo'lib, ular havodan harakatlanib, mintaqadagi hasharotlarning yo'nalishini yo'qotishiga olib keladi, bu esa uni zich o'lja - yarasalar uchun jozibali ov joyiga aylantiradi.[120] Ushbu hodisaga qarshi kurashish uchun ultratovushli vositalar tanlangan shamol turbinalarida sinovdan o'tkazildi va to'qnashuv natijasida yarasalar o'limini kamaytirishi ko'rsatildi. barotrauma.[121] Ultratovushli himoya vositalarini sinovdan o'tkazish shamol turbinalari atrofida kaltakesaklarning faolligini sezilarli darajada kamaytirdi; yilda o'tkazilgan tadqiqotga ko'ra Zzitsix, Kaliforniya, ultratovushli akustik tozalovchi vositalardan foydalanilganda yarasalar faolligi 89,6-97,5% ga kamaydi.[122]

2013 yildagi tadqiqotlar shuni ko'rsatadiki, shamol turbinalari o'tgan yili AQShda 600 mingdan ziyod ko'rshapalakni o'ldirgan, eng katta o'lim esa Appalachi tog'lari. Ba'zi oldingi tadqiqotlar yiliga 33,000 dan 888,000 ga qadar o'lgan kaltaklarning taxmin qilinishini keltirib chiqardi.[123]

Ob-havo va ob-havo o'zgarishi

Shamol ishlab chiqaradigan fermer xo'jaliklari yaqin atrofdagi ob-havoga ta'sir qilishi mumkin. Aylanadigan shamol turbinasi rotorlaridan kelib chiqadigan turbulentlik shamol va shamolning vertikal aralashishini kuchaytiradi, bu shamolning shamol yo'nalishi, shu jumladan yog'ingarchilik ta'sir qiladi.[124] Umuman olganda, shamol elektr stantsiyalari kechasi engil isishga va kunduzi ozgina sovib ketishiga olib keladi. Ushbu effektni samaraliroq rotorlardan foydalanish yoki shamol turkumlarini tabiiy turbulentligi yuqori bo'lgan hududlarga joylashtirish orqali kamaytirish mumkin. Kechasi isinish "sovuqni kamaytirish va vegetatsiya davrini uzaytirish orqali qishloq xo'jaligiga foyda keltirishi mumkin. Ko'plab fermerlar buni allaqachon havo aylanishi bilan amalga oshirmoqdalar".[125][126][127]

Bir qator tadqiqotlar juda katta shamol elektr stantsiyalarining ta'sirini o'rganish uchun iqlim modellaridan foydalangan. Bir tadqiqot shuni ko'rsatadiki, dunyodagi erning 10% buyurtmasi bo'yicha shamol energetikasidan juda yuqori foydalanish uchun global iqlim o'zgarishini aniqlaydigan simulyatsiyalar. Shamol energetikasi sirtning o'rtacha haroratiga sezilarli darajada ta'sir qilmaydi va atmosferaga chiqadigan gazlarni kamaytirish orqali "ulkan global foyda keltiradi". CO
2
va havoni ifloslantiruvchi moddalar ".[128] Boshqa bir qayta ko'rib chiqilgan tadqiqotlar shuni ko'rsatdiki, 2100 yilda global energiya talabining 10 foizini qondirish uchun shamol turbinalaridan foydalanish aslida issiqlik ta'siriga olib kelishi mumkin, bu esa shamol elektr stantsiyalari joylashgan erlarda harorat 1 ° C (1.8 ° F) ga ko'tarilishi mumkin. o'rnatilgan, shu jumladan ushbu hududlardan tashqaridagi maydonlarning kichik o'sishi. Bu shamol turbinalarining gorizontal va vertikal atmosfera aylanishiga ta'siri bilan bog'liq. Suvga o'rnatilgan turbinalar sovutish ta'siriga ega bo'lsa-da, global sirt haroratiga aniq ta'sir 0,15 ° C (0,27 ° F) ga oshadi. Muallif Ron Prinn tadqiqotni "shamol energiyasiga qarshi dalil sifatida talqin qilishdan ogohlantirib, undan kelajakdagi tadqiqotlarga rahbarlik qilish uchun foydalanishga chaqirdi". "Biz shamol haqida pessimist emasmiz", dedi u. "Biz bu effektni mutlaqo isbotlamadik va odamlar qo'shimcha tadqiqotlar olib borishini afzal ko'rishimiz kerak".[129]

Odamlarga ta'siri

Estetika

Atrofi Mont-Mishel past oqimda. Shamolli qirg'oqlar shamol xo'jaliklari uchun yaxshi joy bo'lsa-da, madaniy joylarning tarixiy ko'rinishini saqlab qolish uchun estetik mulohazalar bunday o'zgarishlarga to'sqinlik qilishi mumkin.

Shamol elektr stantsiyalarining estetik mulohazalari ko'pincha ularni baholashda muhim rol o'ynaydi.[5] Ba'zilar uchun bu qabul qilingan estetik shamol elektr stantsiyalarining jihatlari tarixiy joylarni muhofaza qilish bilan ziddiyatga olib kelishi mumkin.[130] Shaharlashgan va sanoat mintaqalarida shamol elektr stantsiyalari salbiy qabul qilinmaydi.[131] Estetik masalalar sub'ektivdir va ba'zi odamlar shamol elektr stantsiyalarini yoqimli deb bilishadi yoki ularni ramz sifatida ko'rishadi energetik mustaqillik va mahalliy farovonlik.[132] Shotlandiyadagi tadqiqotlar shamol elektr stantsiyalari turizmga zarar etkazishini taxmin qilar ekan,[133] in other countries some wind farms have themselves become tourist attractions,[134][135][136] with several having mehmon markazlari at ground level or even observation decks atop turbine towers.

In the 1980s, wind energy was being discussed as part of a yumshoq energiya yo'li.[137] Qayta tiklanadigan energiyani tijoratlashtirish led to an increasing industrial image of wind power, which is being criticized by various stakeholders in the planning process, including nature protection associations.[138] Newer wind farms have larger, more widely spaced turbines, and have a less cluttered appearance than older installations. Wind farms are often built on land that has already been impacted by land clearing and they coexist easily with other land uses.

Coastal areas and areas of higher altitude such as ridgelines are considered prime for wind farms, due to constant wind speeds. However, both locations tend to be areas of high visual impact and can be a contributing factor in local communities' resistance to some projects. Both the proximity to densely populated areas and the necessary wind speeds make coastal locations ideal for wind farms.[139]

Loreley rock in Rhineland-Palatinate, part of UNESCO World heritage site Reyn darasi

Wind power stations can impact on important sight relations which are a key part of culturally important landscapes, such as in the Reyn darasi yoki Moselle vodiysi.[140] Conflicts between the heritage status of certain areas and wind power projects have arisen in various countries. In 2011 UNESCO raised concerns regarding a proposed wind farm 17 kilometres away from the French island abbey of Mont-Saint-Mishel.[141] In Germany, the impact of wind farms on valuable madaniy landshaftlar has implications on rayonlashtirish va erdan foydalanishni rejalashtirish.[140][142] For example, sensitive parts of the Moselle valley and the background of the Gambach qal'asi, according to the plans of the state government, will be kept free of wind turbines.[143]

Wind turbines require samolyotning ogohlantiruvchi chiroqlari, which may create yorug'lik ifloslanishi. Complaints about these lights have caused the US FAA to consider allowing fewer lights per turbine in certain areas.[144] Residents near turbines may complain of "shadow flicker" caused by rotating turbine blades, when the sun passes behind the turbine. This can be avoided by locating the wind farm to avoid unacceptable shadow flicker, or by turning the turbine off for the time of the day when the sun is at the angle that causes flicker. If a turbine is poorly sited and adjacent to many homes, the duration of shadow flicker on a neighbourhood can last hours.[145]

Shovqin

A 2014 study by Health Canada [146] involving 1238 households (representing 79 percent of the households in the geographic area studied) and 4000 hours of testing in Ontario and on Prince Edward Island includes the following supportive statements of wind turbine low frequency noise annoyance in its summary:

"Wind turbines emit low frequency noise, which can enter the home with little or no reduction in energy, potentially resulting in.. annoyance."

Regarding the comparison of low frequency wind turbine noise annoyance to transportation noise annoyance, the Health Canada study summary states: "Studies have consistently shown.. that, in comparison to the scientific literature on noise annoyance to transportation noise sources such as rail or road traffic, community annoyance with (low frequency) wind turbine noise begins at a lower sound level and increases more rapidly with increasing wind turbine noise."

The summary also includes the following three findings of its own study:

"Statistically significant exposure-response relationships were found between increasing wind turbine noise levels and the prevalence of reporting high annoyance. These associations were found with annoyance due to noise, vibrations, blinking lights, shadow and visual impacts from wind turbines. In all cases, annoyance increased with increasing exposure to wind turbine noise levels."

"Community annoyance was observed to drop at distances between 1–2 kilometers (0.6 to 1.2 miles) in Ontario." (It dropped off at 550 meters (1/3 mile) on Prince Edward Island.)

"Annoyance was significantly lower among the 110 participants who received personal benefit, which could include rent, payments or other indirect benefits of having wind turbines in the area e.g., community improvements."

Shamol turbinasi sindromi, a psixosomatik disorder, pertains to the belief that low frequency wind turbine noise, either directly or through annoyance, causes or contributes to various measurable health effects related to anxiety, for which there is little general evidence.[147]

The above Health Canada summary states that "no statistically significant association was observed between measured blood pressure, resting heart rate, (hair cortisol concentrations) and wind turbine noise exposure."

Xavfsizlik

Some turbine nacelle fires cannot be extinguished because of their height, and are sometimes left to burn themselves out. In such cases they generate toxic fumes and can cause secondary fires below.[148] Newer wind turbines, however, are built with automatic fire extinguishing systems similar to those provided for jet aircraft engines. These autonomous systems, which can be retrofitted to older wind turbines, automatically detect a fire, shut down the turbine unit, and extinguish the fires.[149][150][151][152][153]

During winter, ice may form on turbine blades and subsequently be thrown off during operation. This is a potential safety hazard, and has led to localised shut-downs of turbines.[154] A 2007 study noted that no insurance claims had been filed, either in Europe or the US, for injuries from ice falling from wind towers, and that while some fatal accidents have occurred to industry workers, only one wind-tower related fatality was known to occur to a non-industry person: a parachutist.[155]

Given the increasing size of production wind turbines, blade failures are increasingly relevant when assessing public safety risks from wind turbines. The most common failure is the loss of a blade or part thereof[156]

Offshore

Ko'pchilik offshor shamol elektr stantsiyalari have contributed to electricity needs in Evropa va Osiyo for years, and as of 2014 the first offshore wind farms are under development in U.S. waters. While the offshore wind industry has grown dramatically over the last several decades, especially in Europe, there is still some uncertainty associated with how the construction and operation of these wind farms affect marine animals and the marine environment.[157]

Traditional offshore wind turbines are attached to the seabed in shallower waters within the near-shore marine environment. As offshore wind technologies become more advanced, floating structures have begun to be used in deeper waters where more wind resources exist.

Common environmental concerns associated with offshore wind developments include:[158]

  • The risk to dengiz qushlari being struck by wind turbine blades or being displaced from critical habitats;
  • Underwater noise associated with the installation process of monopile turbines;
  • The physical presence of offshore wind farms altering the behavior of dengiz sutemizuvchilar, baliq, and seabirds by reasons of either attraction or avoidance;
  • Potential disruption of the near-field and far-field marine environments from large offshore wind projects.

Germany restricts underwater noise during qoziq haydash ga less than 160 dB.[159]

Due to the landscape protection status of large areas of the Vadden dengizi, mayor Butunjahon merosi ro'yxati with various national parks (e.g. Quyi Sakson Vadden dengizi milliy bog'i ) German offshore installations are mostly restricted on areas outside the hududiy suvlar.[160] Offshore capacity in Germany is therefore way behind the British or Danish near coast installments, which face much lower restrictions.

In January 2009, a comprehensive government environmental study of coastal waters in the Birlashgan Qirollik concluded that there is scope for between 5,000 and 7,000 offshor shamol turbinalari to be installed without an adverse impact on the marine environment. The study – which forms part of the Department of Energy and Climate Change's Offshore Energy Strategic Environmental Assessment – is based on more than a year's research. It included analysis of seabed geology, as well as surveys of sea birds and marine mammals.[161][162] There does not seem to have been much consideration however of the likely impact of displacement of fishing activities from traditional fishing grounds.[163]

A study published in 2014 suggests that some seals prefer to hunt near turbines, likely due to the laid stones functioning as artificial reefs which attract invertebrates and fish.[164]

Shuningdek qarang

Adabiyotlar

  1. ^ Buller, Erin (2008-07-11). "Capturing the wind". Uinta County Herald. Arxivlandi asl nusxasi 2008-07-31. Olingan 2008-12-04. The animals don't care at all. We find cows and antelope napping in the shade of the turbines. – Mike Cadieux, site manager, Wyoming Wind Farm
  2. ^ Guezuraga, Begoña; Zauner, Rudolf; Pölz, Werner (2012). "Life cycle assessment of two different 2 MW class wind turbines". Qayta tiklanadigan energiya. 37: 37–44. doi:10.1016 / j.renene.2011.05.008.
  3. ^ a b v "IPCC Working Group III – Mitigation of Climate Change, Annex II I: Technology – specific cost and performance parameters" (PDF). IPCC. 2014. p. 10. Arxivlangan asl nusxasi (PDF) 2014 yil 16-iyun kuni. Olingan 1 avgust 2014.
  4. ^ "IPCC Working Group III – Mitigation of Climate Change, Annex II Metrics and Methodology. pp. 37–40, 41" (PDF). Arxivlandi asl nusxasi (PDF) 2014-09-29.
  5. ^ a b Tomas Kirchhoff (2014): Energiewende und Landschaftsästhetik. Versachlichung esthetischer Bewertungen von Energieanlagen durch Bezugnahme auf drei intersubjektive Landschaftsideale, ichida: Naturschutz und Landschaftsplanung 46 (1), 10-16.
  6. ^ What are the pros and cons of onshore wind energy?. Grantem iqlim o'zgarishi va atrof-muhit bo'yicha tadqiqot instituti. 2018 yil yanvar.
  7. ^ a b v Nathan F. Jones, Liba Pejchar, Joseph M. Kiesecker. "The Energy Footprint: How Oil, Natural Gas, and Wind Energy Affect Land for Biodiversity and the Flow of Ecosystem Services ". BioScience, Volume 65, Issue 3, March 2015. pp. 290–301
  8. ^ Szarka, Joseph. Wind Power in Europe: Politics, Business and Society. Springer, 2007. p.176
  9. ^ a b Loren D. Knopper, Christopher A. Ollson, Lindsay C. McCallum, Melissa L. Whitfield Aslund, Robert G. Berger, Kathleen Souweine, and Mary McDaniel, Wind Turbines and Human Health, [Frontiers of Public Health]. June 19, 2014; 2: 63.
  10. ^ Diesendorf, Mark. Why Australia Needs Wind Power, Turli xil, Jild No. 13, Summer 2003–04, pp. 43–48.
  11. ^ a b "Shamol energetikasi bo'yicha tez-tez so'raladigan savollar". Britaniya shamol energiyasi assotsiatsiyasi. Arxivlandi asl nusxasi 2006-04-19. Olingan 2006-04-21.
  12. ^ "Wind Turbine Interactions with Birds, Bats, and their Habitats:A Summary of Research Results and Priority Questions" (PDF). National Wind Coordinating Collaborative. 31 mart 2010 yil.
  13. ^ Eilperin, Juliet; Steven Mufson (16 April 2009). "Qayta tiklanadigan energetikaning ekologik paradoksi". Washington Post. Olingan 2009-04-17.
  14. ^ a b "Shamol xo'jaliklari". Qushlarni himoya qilish uchun qirollik jamiyati. 2005 yil 14 sentyabr. Olingan 6 dekabr 2012.
  15. ^ "Wind-Wildlife Technology Research and Development". NREL National Wind Technology Center. Olingan 7 may 2019.
  16. ^ "How Much Noise Does a Wind Turbine Make?". 2014-08-03.
  17. ^ Wind Energy Comes of Age By Paul Gipe
  18. ^ Gohlke, Julia M.; Hrynkow, Sharon H.; Portier, Christopher J. (2008). "Sog'liqni saqlash, iqtisodiyot va atrof-muhit: millat uchun barqaror energiya tanlovi". Atrof muhitni muhofaza qilish istiqbollari. 116 (6): A236–37. doi:10.1289 / ehp.11602. PMC  2430245. PMID  18560493.
  19. ^ Professor Simon Chapman. "Summary of main conclusions reached in 25 reviews of the research literature on wind farms and health " Sidney universiteti School of Public Health, April 2015
  20. ^ Xemilton, Tayler (2009 yil 15-dekabr). "Shamol sog'liq uchun toza qonun loyihasini oladi". Toronto Star. Toronto. B1-B2 betlar. Olingan 16 dekabr 2009.
  21. ^ W. David Colby, Robert Dobie, Geoff Leventhall, David M. Lipscomb, Robert J. McCunney, Michael T. Seilo, Bo Søndergaard. "Wind Turbine Sound and Health Effects: An Expert Panel Review", Canadian Wind Energy Association, December 2009.
  22. ^ a b Mikołajczak, J.; Borowski, S.; Marć-Pieńkowska, J.; Odrowąż-Sypniewska, G.; Bernacki, Z.; Siódmiak, J.; Szterk, P. (2013). "Preliminary studies on the reaction of growing geese (Anser anser f. Domestica) to the proximity of wind turbines". Polish Journal of Veterinary Sciences. 16 (4): 679–86. doi:10.2478/pjvs-2013-0096. PMID  24597302.
  23. ^ a b Kubiszewski, Ida; C. J. Cleveland; P. K. Endres (1 January 2010). "Meta-Analysis of Net Energy Return for Wind Power Systems". Qayta tiklanadigan energiya. 35 (1): 218–25. doi:10.1016/j.renene.2009.01.012.
  24. ^ Weißbach, D.; Ruprecht, G.; Huke, A.; Czerski, K.; Gottlieb, S.; Hussein, A. (2013). "Energy intensities, EROIs (energy returned on invested), and energy payback times of electricity generating power plants". Energiya. 52: 210–21. doi:10.1016 / j.energy.2013.01.029.
  25. ^ "Vestas: Comparing energy payback". Arxivlandi asl nusxasi 2013-06-15. Olingan 2013-05-05.
  26. ^ "Life cycle assessment of electricity produced from onshore sited wind power plants based on Vestas V82-1.65 MW turbines Arxivlandi 2014-12-04 da Orqaga qaytish mashinasi "4-bet. Vestalar, 29 December 2006. Accessed: 27 November 2014.
  27. ^ Vittrup, Sanne. "6 MW vindmølle betaler sig energimæssigt tilbage 33 gange " Inglizcha tarjima Ingeniøren, 26 November 2014. Accessed: 27 November 2014.
  28. ^ Mielke, Erik. Water Consumption of Energy Resource Extraction, Processing, and Conversion Garvard Kennedi maktabi, October 2010. Accessed: 1 February 2011.
  29. ^ LCA in Wind Energy: Environmental Impacts through the Whole Chain
  30. ^ Wind Energy Environmental issues. table V.1.2 & V.1.15
  31. ^ ExternE. The EU's Externality study.Page 35 figure 9
  32. ^ Hydropower-Internalised Costs and Externalised Benefits"; Frans H. Koch; International Energy Agency (IEA)-Implementing Agreement for Hydropower Technologies and Programmes; Ottawa, Ontario, Canada. pp. 131–34, Figure 1.
  33. ^ ExternE. The EU's Externality study.Page 37
  34. ^ White, S. W. (2007). "Net Energy Payback and CO2 Emissions from Three Midwestern Wind Farms: An Update". Tabiiy resurslarni o'rganish. 15 (4): 271–81. doi:10.1007/s11053-007-9024-y. S2CID  110647290.
  35. ^ Smil, Vaclov (2016-02-29). "To Get Wind Power You Need Oil - Each wind turbine embodies a whole lot of petrochemicals and fossil-fuel energy". IEEE Spektri.
  36. ^ a b Dolan, Stacey L.; Xit, Garvin A. (2012). "Life Cycle Greenhouse Gas Emissions of Utility-Scale Wind Power". Sanoat ekologiyasi jurnali. 16: S136–S154. doi:10.1111/j.1530-9290.2012.00464.x. S2CID  153821669. SSRN  2051326.
  37. ^ "IPCC Working Group III – Mitigation of Climate Change, Annex II Metrics and Methodology. pp. 37–40, 41" (PDF). Arxivlandi asl nusxasi (PDF) 2014-09-29.
  38. ^ "Claverton-Energy.com". Claverton-Energy.com. Olingan 29 avgust 2010.
  39. ^ "Is wind power reliable?". Arxivlandi asl nusxasi 2010 yil 5 iyunda. Olingan 29 avgust 2010.
  40. ^ Milligan, Michael (October 2010) Operating Reserves and Wind Power Integration: An International Comparison. National Renewable Energy Laboratory, p. 11.
  41. ^ a b Pehnt, Martin; Oeser, Michael; Swider, Derk J. (2008). "Consequential environmental system analysis of expected offshore wind electricity production in Germany". Energiya. 33 (5): 747–59. CiteSeerX  10.1.1.577.9201. doi:10.1016/j.energy.2008.01.007.
  42. ^ "IPCC Working Group III – Mitigation of Climate Change, Annex II Metrics and Methodology. pp. 37–40, 41" (PDF). Arxivlandi asl nusxasi (PDF) 2015-09-08 da.
  43. ^ Breyer, nasroniy; Koskinen, Otto; Blechinger, Philipp (2015). "Profitable climate change mitigation: The case of greenhouse gas emission reduction benefits enabled by solar photovoltaic systems". Qayta tiklanadigan va barqaror energiya sharhlari. 49: 610–28. doi:10.1016/j.rser.2015.04.061.
  44. ^ Hilsum, Lindsey (6 December 2009). "Chinese pay toxic price for a green world". London: Sunday Times. Olingan 2011-03-02.
  45. ^ Bradsher, Keith (26 December 2009). "Earth-Friendly Elements Are Mined Destructively". The New York Times. Olingan 2011-03-02.
  46. ^ Biggs, Stuart (6 January 2011). "Rare Earths Leave Toxic Trail to Toyota Prius, Vestas Turbines". Bloomberg L.P. Olingan 2011-03-02.
  47. ^ Ingebretsen, Mark. Developing greener, cheaper magnets Ames laboratoriyasi. Accessed: 10 March 2011.
  48. ^ Biello, David (13 October 2010). "Rare Earths: Elemental Needs of the Clean-Energy Economy". Ilmiy Amerika. Olingan 2011-03-02.
  49. ^ Enercon explanation on p.4 on avoidance of Neodymium use
  50. ^ a b Joe Sneve (4 September 2019). "Sioux Falls landfill tightens rules after Iowa dumps dozens of wind turbine blades". Argus rahbari. Olingan 5 sentyabr 2019.
  51. ^ Rick Kelley (18 February 2018). "Retiring worn-out wind turbines could cost billions that nobody has". Valley Morning Star. Olingan 5 sentyabr 2019. “The blades are composite, those are not recyclable, those can’t be sold,” Linowes said. “The landfills are going to be filled with blades in a matter of no time.”
  52. ^ Eller, Donnelle (2019-11-08). "With few recycling options, wind turbine blades head to Iowa landfills". Desmoines Register. “Disposing of turbine blades is an issue that will likely linger for years in Iowa. Large, investor-owned Iowa utilities are erecting new turbines and replacing blades to extend the life of older ones."
  53. ^ "Accelerating Wind Turbine Blade Circularity" (PDF). WindEurope – Cefic - EuCIA. 2020-05-31.
  54. ^ a b v d New South Wales Government (1 November 2010). The wind energy fact sheet Arxivlandi 2011-03-20 da Orqaga qaytish mashinasi Department of Environment, Climate Change and Water, p. 13
  55. ^ Paul Denholm, Maureen Hand, Maddalena Jackson, and Sean Ong, Land-Use Requirements of Modern Wind Power Plants in the United States, National Renewable Energy Laboratory, NREL/TP-6A2-45834, Aug. 2009.
  56. ^ Prentice, Colin (19 December 2013). "Climate change poses serious threat to Britain's peat bogs". London: London Imperial kolleji. Olingan 2013-12-19.
  57. ^ Smith, Jo; va boshq. (2012 yil 5 sentyabr). "Renewable energy: Avoid constructing wind farms on peat". Tabiat. 489 (7414): 33. Bibcode:2012Natur.489Q..33S. doi:10.1038/489033d. PMID  22955603.
  58. ^ Stevenson, Tony Struan (20 May 2009). "Bid to ban peatland wind farms comes under attack". Sunday Herald. newsquest (sunday herald) limited. Arxivlandi asl nusxasi 2009 yil 27 iyunda. Olingan 20 may 2009.
  59. ^ David Tosh, W. Ian Montgomery & Neil Reid A review of the impacts of onshore wind energy development on biodiversity Arxivlandi 2015-05-31 da Orqaga qaytish mashinasi, Northern Ireland Environment Agency, Research and Development Series 14/02, 2014, p.54
  60. ^ Erich Hau. Windkraftanlagen: Grundlagen, Technik, Einsatz, Wirtschaftlichkeit, Berlin: Heidelberg 2008, pp. 621–23. (Nemis). (For the english Edition see Erich Hau, Wind Turbines: Fundamentals, Technologies, Application, Economics, Springer 2005)
  61. ^ Forest clearance for Meyersdale, Pa., wind power facility
  62. ^ Statement of the Government of Brandenburg, Germaniya.
  63. ^ "Canada's First Urban Wind Turbine – Not Your Average Windmill". Toronto Hydro. 2006-02-06. Arxivlandi asl nusxasi 2008-03-30 kunlari. Olingan 2008-04-11.
  64. ^ Skarin, Anna; Nellemann, nasroniy; Rönnegård, Lars; Sandström, Per; Lundqvist, Henrik (2015). "Wind farm construction impacts reindeer migration and movement corridors". Landshaft ekologiyasi. 30 (8): 1527–40. doi:10.1007/s10980-015-0210-8.
  65. ^ Flydal, Kjetil; Eftestøl, Sindre; Reimers, Eigil; Colman, Jonathan E. (2004). "Effects of wind turbines on area use and behaviour of semi-domestic reindeer in enclosures". Rangifer. 24 (2): 55. doi:10.7557/2.24.2.301. oyna
  66. ^ "Article list". Arxivlandi asl nusxasi 2018-09-20. Olingan 2016-02-26.
  67. ^ Zehnder va Varxaft, Alan va Zellman. "Shamol energetikasi bo'yicha universitet hamkorligi" (PDF). Kornell universiteti. Arxivlandi asl nusxasi (PDF) 2011 yil 1 sentyabrda. Olingan 17 avgust 2011.
  68. ^ a b v d e "... the study already tells you the numbers are very rough estimates that need to be improved. I even explicitly state this, as well, in the conclusion: 'the rudimentary numbers presented here are intended to provoke further research and discussion,' in the abstract 'this paper should be respected as a preliminary assessment,' and in the title of the study, which has the word 'preliminary' in it...you are correct that errors 1 and 2 are true..." Benjamin Sovacool, Benjamin Sovacool takes issue with Lorenzini's criticism of his work, Atomic Insights website, 11 July 2013.
  69. ^ a b v d e f g h men j k l m n Sovacool, Benjamin K. (2013). "The avian benefits of wind energy: A 2009 update". Qayta tiklanadigan energiya. 49: 19–24. doi:10.1016/j.renene.2012.01.074.
  70. ^ "U.S. Fish & Wildlife Estimate of Bird Mortality Due to Wind Turbines" (PDF). Letter to the Department of the Interior. Amerika qushlarni himoya qilish. 2012 yil 22 mart. Olingan 6 dekabr 2012.
  71. ^ Smallwood, K. S. (2013). "Comparing bird and bat fatality-rate estimates among North American wind-energy projects". Yovvoyi tabiat jamiyati byulleteni. 37: 19–33. doi:10.1002/wsb.260.
  72. ^ Ruane, Laura (6 November 2008). "Newest Air Defense: Bird Dogs". USA Today. Olingan 6 dekabr 2012.
  73. ^ Contaminant Issues – Oil Field Waste Pits, U.S. Fish & Wildlife Service, U.S. Department of the Interior. Qabul qilingan 2013 yil 30-iyul.
  74. ^ Johns, Robert. Actions by Feds Cut Annual Bird Deaths in Oil and Gas Fields by Half, Saving Over One Million Birds From Grisly Death, Vashington, DC: Amerika qushlarni himoya qilish, January 3, 2013. Retrieved July 30, 2013.
  75. ^ a b v d Bird, David Michael. The Bird Almanac: The Ultimate Guide to Essential Facts and Figures of the World's Birds, Key Porter Books, 1999, ISBN  155263003X, 978-1552630037.
  76. ^ North-Hager, Eddie. "Millions of Birds Perish at Communication Towers, USC Study Finds". Janubiy Kaliforniya universiteti. Olingan 6 dekabr 2012.
  77. ^ a b Foderaro, Lisa W. Researching Stop Signs in the Skies for Birds, May 14, 2014, p. A21 (New York edition), and May 13, 2014 online. Retrieved from nytimes.com on May 14, 2014. Quote: "In January, scientists concluded that, nationwide, 365 million to 988 million birds die annually after crashing into buildings and houses."
  78. ^ "Cats Indoors! The American Bird Conservancy's Campaign for Safer Birds and Cats". Milliy Audubon Jamiyati. Arxivlandi asl nusxasi 2010 yil 5 iyunda. Olingan 6 dekabr 2012.
  79. ^ Angier, Natalie. [1], The New York Times, January 29, 2013, Retrieved January 30, 2013.
  80. ^ U.S. Cats Kill Up To 3.7 Billion Birds, 20.7 Billion Small Mammals Annually, Parij: Agence France-Presse, January 29, 2013. Retrieved from Globe and Mail website, January 30, 2013.
  81. ^ UK's most powerful wind farm could power Paisley, Britaniya shamol energiyasi assotsiatsiyasi, 2006 yil yanvar.
  82. ^ a b Baerwald, Erin F; D'Amours, Genevieve H; Klug, Brandon J; Barclay, Robert MR (2008-08-26). "Barotrauma is a significant cause of bat fatalities at wind turbines". Hozirgi biologiya. 18 (16): R695–R696. doi:10.1016/j.cub.2008.06.029. OCLC  252616082. PMID  18727900. S2CID  17019562. XulosaCBC radiosiQuirks & Quarks (2008-09-20). Laysource includes audio podcast of interview with author.
  83. ^ Craig K.R. Uillis; Robert M.R. Barclay; Justin G. Boyles; R. Mark Brigham; Virgil Brack Jr.; David L. Waldien; Jonathan Reichard (2010). "Bats are not birds and other problems with Sovacool's (2009) analysis of animal fatalities due to electricity generation". Energiya siyosati. 38 (4): 2067–69. doi:10.1016/j.enpol.2009.08.034. hdl:2263/11581.
  84. ^ Lorenzini, Paul (April 30, 2013). "Nukes kill more birds than wind?". Atomic Insights. Olingan 26 avgust 2013.
  85. ^ K. Shawn Smallwood, "Comparing bird and bat fatality-rate estimates among North American wind-energy projects", Wildlife Society Bulletin, 26 Mar. 2013.
  86. ^ a b Loss, Scott R.; Will, Tom; Marra, Peter P. (2013). "Estimates of bird collision mortality at wind facilities in the contiguous United States". Biologik konservatsiya. 168: 201–09. doi:10.1016/j.biocon.2013.10.007.
  87. ^ "Study: California Wind Power is the Worst For Wildlife, Chris Clarke, November 2013". Arxivlandi asl nusxasi 2014-02-20.
  88. ^ Barclay, Robert; E. F. Baerwald; J.C. Gruver (2007). "Variation in bat and bird fatalities at wind energy facilities" (PDF). Kanada Zoologiya jurnali. 85 (3): 381–87. doi:10.1139/Z07-011. Arxivlandi asl nusxasi (PDF) 2016 yil 4 martda. Olingan 6 dekabr 2012.
  89. ^ Marris, Emma; Daemon Fairless (10 May 2007). "Wind farms' deadly reputation hard to shift". Tabiat. 447 (7141): 126. Bibcode:2007Natur.447..126M. doi:10.1038/447126a. PMID  17495894. S2CID  12854198. Olingan 28 iyun 2013.
  90. ^ a b Emma Marris; Daemon Fairless (10 May 2007). "Wind farms' deadly reputation hard to shift". Tabiat. 447 (7141): 126. Bibcode:2007Natur.447..126M. doi:10.1038/447126a. PMID  17495894. S2CID  12854198.
  91. ^ Why are wind turbines being painted black?
  92. ^ J. Ryan Zimmerling, Andrea C. Pomeroy, Marc V. d'Entremont and Charles M. Francis, "Canadian estimate of bird mortality due to collisions and direct habitat loss associated with wind turbine developments", Avian Conservation & Ecology, 2013, v.8 n.2.
  93. ^ Takster, Kris B.; Buchanan, Graeme B.; Carr, Jamie; Butchart, Styuart X. M.; Nyubold, Tim; Green, Rhys E.; Tobias, Joseph A.; Foden, Vendi B.; O'Brien, Sue; Pearce-Higgins, James W. (13 September 2017). "Bird and bat species' global vulnerability to collision mortality at wind farms revealed through a trait-based assessment". Qirollik jamiyati materiallari B: Biologiya fanlari. 284 (1862): 10. doi:10.1098/rspb.2017.0829. PMC  5597824. PMID  28904135.
  94. ^ Hutchins, Michael (April 8, 2017). "Understanding the Threat Wind Energy Poses to Birds". abcbirds.org. Amerika qushlarni himoya qilish. Olingan 2019-06-18.
  95. ^ Sahagun, Louis (16 February 2012). "U.S. probes golden eagles' deaths at DWP wind farm". Los Anjeles Tayms. Olingan 6 dekabr 2012.
  96. ^ Balogh, Anne L.; Ryder, Thomas B.; Marra, Peter P. (2011). "Population demography of Gray Catbirds in the Suburban Matrix: Sources, Sinks and Domestic Cats". Ornitologiya jurnali. 152 (3): 717–26. doi:10.1007/s10336-011-0648-7. S2CID  4848430.
  97. ^ Ostin, Yan. Casualties of Toronto's Urban Skies, The New York Times, October 28, 2012, p. A6. Retrieved online November 2, 2012.
  98. ^ Kennedi, Jou. Country Matters: City Birds Battered To Oblivion, Dublin, Irlandiya: Yakshanba mustaqil, November 4, 2012. Retrieved online, November 4, 2012.
  99. ^ Lomborg, Bjørn (2001). Skeptik ekolog. Nyu-York shahri: Kembrij universiteti matbuoti.
  100. ^ 10,000 Birds Trapped In The World Trade Center Light Beams, StapleNews, September 16, 2010.
  101. ^ Johnston, D; Haines (1957). "Analysis of Mass Bird Mortality in October, 1954". Auk. 74 (4): 447–58. doi:10.2307/4081744. JSTOR  4081744.
  102. ^ Fitch, Davey. Upland birds face displacement threat from poorly sited wind turbines (Matbuot xabari), Qushlarni himoya qilish uchun qirollik jamiyati website, September 26, 2009. Retrieved August 2, 2013. This press release in turn cites:
    • Pearce-Higgins, J. W.; Stephen, L.; Langston, R. H. W.; Bainbridge, I. P.; Bullman, R. (2009). "The distribution of breeding birds around upland wind farms". Amaliy ekologiya jurnali. doi:10.1111/j.1365-2664.2009.01715.x.
  103. ^ Elliott, Valerie (28 January 2006). "Wind Farms Condemned As Eagles Fall Prey To Turbines". The Times.
  104. ^ McDermott, Matthew (2 May 2009). "Texas Wind Farm Uses NASA Radar to Prevent Bird Deaths". Treehugger. Olingan 6 dekabr 2012.
  105. ^ "Wind Turbines A Breeze For Migrating Birds". Yangi olim (2504): 21. 18 June 2005. Olingan 6 dekabr 2012.
  106. ^ Desholm, Mark; Johnny Kahlert (9 June 2005). "Avian Collision Risk At An Offshore Wind Farm". Biologiya xatlari. 1 (3): 296–98. doi:10.1098/rsbl.2005.0336. PMC  1617151. PMID  17148191.
  107. ^ Welcker, J.; Liesenjohann, M.; Blew, J.; Nehls, G.; Grünkorn, T. (2017). "Nocturnal migrants do not incur higher collision risk at wind turbines than diurnally active species". Ibis. 159 (2): 366–73. doi:10.1111/ibi.12456.
  108. ^ Will Newer Wind Turbines Mean Fewer Bird Deaths? The jury is still out on what works to protect wildlife. By Andrew Curry, for National Geographic. 2014 yil
  109. ^ Bob Yirka (15 August 2012). "British researchers find geese alter course to avoid wind farm". Phys.org. Olingan 6 dekabr 2012.
  110. ^ Dalton, Andrew (7 December 2010). "Altamont Pass to Get Less-Deadly Wind Turbines". SFist. Arxivlandi asl nusxasi 2013 yil 16 aprelda. Olingan 6 dekabr 2012.
  111. ^ "Critical federal approvals for massive Wyoming wind project". AP. 2017 yil 18-yanvar. Olingan 29 oktyabr 2017.
  112. ^ "BLM Announces Major Milestone and FWS Issues Record of Decision for Potential Eagle Take Permit for Chokecherry and Sierra Madre Phase I Wind Energy Project". Yerni boshqarish byurosi. 2016 yil 9 mart. Olingan 29 oktyabr 2017. "take" (disturb, injure or kill)
  113. ^ "Federal Environmental Impact Statement for Chokecherry and Sierra Madre Wind Energy project". Yerni boshqarish byurosi, Rawlins Field Office. 3 Iyul 2012. Arxivlangan asl nusxasi 2012 yil 14 avgustda. Olingan 6 dekabr 2012.
  114. ^ McCoy, Janet (12 February 2016). "Auburn's eagles participating in Colorado wind technology research to help prevent bird strikes". Auburn universiteti. Olingan 29 oktyabr 2017.
  115. ^ a b Daly, Matthew (December 14, 2016). "Final wind-turbine rule permits thousands of eagle deaths". Associated Press.
  116. ^ "Caution Regarding Placement of Wind Turbines on Wooded Ridge Tops" (PDF). Yaramaslarni saqlash xalqaro. 2005 yil 4-yanvar. Olingan 2006-04-21.
  117. ^ "Effectiveness of Changing Wind Turbine Cut-in Speed to Reduce Bat Fatalities at Wind Facilities" (PDF). Amerika shamol energiyasi assotsiatsiyasi. 2009-04-28. Olingan 2009-04-28.
  118. ^ Aron, Jacob (2009-07-17). "Radar beams could protect bats from wind turbines". London: Guardian. Olingan 2009-07-17.
  119. ^ Nicholls, Barry; Racey, Paul A. (2007). Cresswell, Will (tahrir). "Bats Avoid Radar Installations: Could Electromagnetic Fields Deter Bats from Colliding with Wind Turbines?". PLOS ONE. 2 (3): e297. Bibcode:2007PLoSO...2..297N. doi:10.1371/journal.pone.0000297. PMC  1808427. PMID  17372629. XulosaGuardian (2009-07-17). ochiq kirish
  120. ^ Arnett, Edward B.; Hein, Cris D.; Schirmacher, Michael R.; Huso, Manuela M. P.; Szewczak, Joseph M. (2013-09-10). "Correction: Evaluating the Effectiveness of an Ultrasonic Acoustic Deterrent for Reducing Bat Fatalities at Wind Turbines". PLOS ONE. 8 (9). doi:10.1371/annotation/a81f59cb-0f82-4c84-a743-895acb4b2794. ISSN  1932-6203.
  121. ^ Arnett, Edward B.; Hein, Cris D.; Schirmacher, Michael R.; Huso, Manuela M. P.; Szewczak, Joseph M. (2013-09-10). "Correction: Evaluating the Effectiveness of an Ultrasonic Acoustic Deterrent for Reducing Bat Fatalities at Wind Turbines". PLOS ONE. 8 (9). doi:10.1371/annotation/a81f59cb-0f82-4c84-a743-895acb4b2794. ISSN  1932-6203.
  122. ^ Arnett, Edward B.; Hein, Cris D.; Schirmacher, Michael R.; Huso, Manuela M. P.; Szewczak, Joseph M. (2013-09-10). "Correction: Evaluating the Effectiveness of an Ultrasonic Acoustic Deterrent for Reducing Bat Fatalities at Wind Turbines". PLOS ONE. 8 (9). doi:10.1371/annotation/a81f59cb-0f82-4c84-a743-895acb4b2794. ISSN  1932-6203.
  123. ^ Morin, Monte. 600,000 bats killed at wind energy facilities in 2012, study says, LA Times, 2013 yil 8-noyabr.
  124. ^ "Wind Power Found to Affect Local Climate".
  125. ^ "Turbines and turbulence". Tabiat. 468 (7327): 1001. 2010. Bibcode:2010Natur.468Q1001.. doi:10.1038/4681001a. PMID  21179120.
  126. ^ Baidya Roy, Somnath; Traiteur, Justin J. (2010). "Impacts of wind farms on surface air temperatures". Milliy fanlar akademiyasi materiallari. 107 (42): 17899–904. Bibcode:2010PNAS..10717899B. doi:10.1073/pnas.1000493107. PMC  2964241. PMID  20921371.
  127. ^ Wind farms impacting weather Arxivlandi 2010-09-06 da Orqaga qaytish mashinasi, Science Daily.
  128. ^ Keyt, Devid V.; Decarolis, Joseph F.; Denkenberger, David C.; Lenschow, Donald H.; Malyshev, Sergey L.; Pakala, Stiven; Rasch, Philip J. (2004). "The influence of large-scale wind power on global climate". Milliy fanlar akademiyasi materiallari. 101 (46): 16115–20. Bibcode:2004PNAS..10116115K. doi:10.1073/pnas.0406930101. PMC  526278. PMID  15536131.
  129. ^ MIT analysis suggests generating electricity from large-scale wind farms could influence climate – and not necessarily in the desired way MIT, 2010.
  130. ^ Tourismus und Regionalentwicklung in Bayern, Diana Schödl, Windkraft und Tourismus – planerische Erfassung der Konfliktbereiche, in Marius Mayer, Hubert Job, 05.12.2013, Arbeitsgruppe "Tourismus und Regionalentwicklung" der Landesarbeitsgemeinschaft Bayern der ARL, p 125. ff
  131. ^ Günter Ratzbor (2011): Windenergieanlagen und Landschaftsbild. Zur Auswirkung von Windrädern auf das Landschaftsbild. Thesenpapier des Deutschen Naturschutzrings DNR Arxivlandi 2014-01-16 da Orqaga qaytish mashinasi, 17-19 betlar
  132. ^ Gourlay, Simon. Wind farms are not only beautiful, they're absolutely necessary, Guardian, 2008 yil 12-avgust.
  133. ^ "Tourism blown off course by turbines". Bervikshir: The Berwickshire News. 2013-03-28. Olingan 2013-10-08.
  134. ^ Yosh, Ketrin (2007-08-03). "Kanadadagi shamol elektr stantsiyalari turbinali sayyohlarni uchirib yubordi". Edmonton jurnali. Arxivlandi asl nusxasi 2009-04-25. Olingan 2008-09-06.
  135. ^ Zhou, Renjie; Yadan Wang (2007-08-14). "Residents of Inner Mongolia Find New Hope in the Desert". Worldwatch instituti. Arxivlandi asl nusxasi 2010-11-09 kunlari. Olingan 2008-11-04.
  136. ^ "Centre d'interprétation du cuivre de Murdochville". Arxivlandi asl nusxasi 2008-07-05 da. Olingan 2008-11-19. – The Copper Interpretation Centre of Merdokvil, Kanadada Miller tog'ida shamol turbinasi bo'yicha ekskursiyalar mavjud.
  137. ^ Windenergie in Deutschland: Konstellationen, Dynamiken und Regulierungspotenziale Im Innovationsprozess, Bö Ohlhorst, Springer-Verlag, 2009, p.90 ff
  138. ^ Windenergie in Deutschland: Konstellationen, Dynamiken und Regulierungspotenziale Im Innovationsprozess, Bö Ohlhorst, Springer-Verlag, 2009, s.163, "Kritik an zunehmend industrieller Charakter der Windenergienutzung"
  139. ^ Dipert, Brayan. Uglerod-energetik simni kesish: javob shamolda esadimi?, EDN Network veb-sayti, 2006 yil 15 dekabr.
  140. ^ a b Sören Schöbel (2012): Windenergie und Landschaftsästhetik: Zur landchaftsgerechten Anordnung von Windfarmen, Jovis-Verlag, Berlin
  141. ^ YuNESKOning shamol turbinasi muammosi: Mont-Sen-Mishelning dunyo merosi maqomi tahdid ostida, Stefan Simons, Der Spiegel
  142. ^ Nol, Verner (2009): Landschaftsästhetische Auswirkungen von Windkraftanlagen, s.2, 8
  143. ^ Fittkau, Lyudjer: Estetik va Windräder, Neues Gutachten zu "Windenergienutzung und bedeutenden Kulturlandschaften" Reynland-Pfalzda, Kultur heute, 2013 yil 30-iyul
  144. ^ Rod Tompson (2006 yil 20-may). "Shamol turbinasi chiroqlarida raqiblar uchqun ko'rmoqda". Honolulu Star-byulleteni. Olingan 2008-01-15.
  145. ^ Yangi Janubiy Uels hukumati (2010 yil 1-noyabr). Shamol energetikasi to'g'risidagi ma'lumotlar varaqasi Arxivlandi 2011-03-20 da Orqaga qaytish mashinasi, Yangi Janubiy Uelsning atrof-muhit, iqlim o'zgarishi va suv boshqarmasi, p. 12.
  146. ^ https://www.canada.ca/en/health-canada/services/health-risks-safety/radiation/everyday-things-emit-radiation/wind-turbine-noise/wind-turbine-noise-health-study- xulosa-natijalar.html
  147. ^ Shamol energetikasi loyihalarining atrof-muhitga ta'siri qo'mitasi, Milliy tadqiqot kengashi (2007). Shamol energetikasi loyihalarining atrof-muhitga ta'siri, 158-59 betlar.
  148. ^ Turbin alangada ko'tariladi 2013 yil 26-avgustda olingan.
  149. ^ Jigarrang, Kurt. Dartmut ikkita shamol turbinasi uchun kengashni tanlashga ruxsat beradi, SouthCoastToday.com 2010 yil 5-yanvar. Qabul qilingan 8 fevral 2012 yil.
  150. ^ Yong'in o'chirgichlar bilan jihozlangan dengizdan tashqaridagi yirik shamol xo'jaligi Arxivlandi 2013-01-26 da Arxiv.bugun, Infor4Fire.com veb-sayti, 19-avgust, 2011 yil. 8-fevral, 2012 yil.
  151. ^ Shamol turbinalari uchun yong'indan himoya: Ba'zi uchun xavfsiz - MiniMax, Minimax.de veb-sayti. Qabul qilingan 8 fevral 2012 yil.
  152. ^ Shamol energetikasi inshootlari uchun aspiratsion tutun detektori AMX4004 WEA: Minimax tomonidan yong'indan himoya, Minimax.de veb-sayti. Qabul qilingan 8 fevral 2012 yil.
  153. ^ O'rnatilgan o't o'chiruvchilar: suv va azot; Yong'in bilan kurash shamol turbinasi biznesi uchun tobora dolzarb mavzularga aylanishi mumkin, Zamonaviy energiya tizimlari, 2007 yil 1-may.
  154. ^ Vardrop, Merrey (2008-12-04). "Shamol turbinasi muzli uylar bilan yuvinishdan keyin yopildi". Daily Telegraph. London.
  155. ^ Maykl Klepinger, Michigan shamol tizimlarini joylashtirish uchun erdan foydalanish bo'yicha ko'rsatmalar Arxivlandi 2013-05-03 da Orqaga qaytish mashinasi, Michigan shtati universiteti, 2007 yil oktyabr
  156. ^ Brouwer, SR; Al-Jiburi, SHS; Kardenas, IC; Halman, JIM (2018). "Shamol generatorlaridan jamoat xavfsizligi uchun xavflarni tahlil qilish tomon". Ishonchli muhandislik va tizim xavfsizligi. 180: 77–87. doi:10.1016 / j.ress.2018.07.010.
  157. ^ Rodmell, D. va Jonson, M., 2002. Buyuk Britaniyaning suvlarida dengiz energetikasi asosida shamol energiyasini ishlab chiqarish va baliqchilikni rivojlantirish: ular bir-biriga mos keladimi? M. Jonson va P. Xart, nashrlar. Dengiz kimga tegishli? Xall universiteti, 76-103 betlar.
  158. ^ "Tetis".
  159. ^ Pace, doktor Federika (2015 yil 21-iyul). "Siz buni eshitdingizmi? Offshore shamol zavodlarida qurilish shovqinini kamaytirish". www.renewableenergyworld.com. Olingan 29 oktyabr 2017. Qoziq haydash operatsiyalari uchun 750 metr radiusdan tashqarida 160 dB re 1 mPa2 s bo'lgan SEL chegarasi offshor shamol stansiyalari uchun litsenziya sharoitida paydo bo'ladi.
  160. ^ Internationales Wirtschaftsforum Regenerative Energien (IWR), Germaniyaning shamol energetikasi sohasi Offshore windpark veb-sayti Arxivlandi 2014-07-29 da Orqaga qaytish mashinasi
  161. ^ Tadqiqot natijalariga ko'ra offshor shamol elektr stantsiyalari dengiz muhiti bilan birgalikda mavjud bo'lishi mumkin, BusinessGreen.com veb-sayti.
  162. ^ Buyuk Britaniyaning offshor energetikasi: atrof-muhitni strategik baholash, Buyuk Britaniya Energetika va iqlim o'zgarishi vazirligi, 2009 yil yanvar.
  163. ^ Jonson, M.L .; Rodmell, D.P. (2009). "Baliqchilik, atrof-muhit va offshor shamol xo'jaliklari: joylashuvi, joylashuvi, joylashuvi". Oziq-ovqat etikasi. 4 (1): 23–24.
  164. ^ Warwicker, Mishel. "Dengizdagi shamol stansiyalaridagi muhrlarning ozuqasi " BBC, 21 Iyul 2014. Kirish: 22 Iyul 2014. Muhr yo'lining videosi

Qo'shimcha o'qish

  • Robert Gasch, Jochen Twele (tahr.), Shamol elektr stantsiyalari. Asoslari, dizayni, qurilishi va ishlatilishi, Springer 2012 yil ISBN  978-3-642-22937-4.
  • Erix Xau, Shamol turbinalari: asoslari, texnologiyalari, qo'llanilishi, iqtisodiyoti Springer, 2013 yil ISBN  978-3-642-27150-2 (Google Books-da oldindan ko'rish)
  • Alois Sheffarczyk (tahr.), Shamol energetikasi texnologiyasini tushunish, Wiley & Sons 2014, ISBN  978-1-118-64751-6.
  • Hermann-Josef Wagner, Jyotirmay Mathur, Shamol energetikasi tizimlari bilan tanishish. Asoslari, texnologiyasi va ishlashi. Springer 2013 yil, ISBN  978-3-642-32975-3.

Tashqi havolalar