Macro-site selection of wind/solar hybrid power station based on Ideal Matter-Element Model

Wu, Yunna; Yang, Yisheng; Feng, Tiantian; Li-na, Kong; Liu, Wei; Luo-jie, Fu

doi:10.1016/j.ijepes.2013.02.024

Cited by 57 publications

(10 citation statements)

References 11 publications

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“…Suitable place identification to install solar and wind farm is a complicated task. Moreover, issues such as meteorological needs, ecological concerns and financial gains, also need to be considered for plant installation and operation [ 107 , 108 ]. Area with the abundant resources such as solar irradiation and wind velocity may not be the only feasible thing.…”

Section: Assessment Of Solar and Wind Resourcesmentioning

confidence: 99%

Green and renewable resources: an assessment of sustainable energy solution for Far North Queensland, Australia

Islam

Hassan

Rasul

et al. 2022

Int J Energy Environ Eng

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Remote communities, which do not have a connection to the national grid in Far North Queensland (FNQ), depend on dirty and costly diesel generators to meet their energy demands. The cost of power generation is considerable in those areas, because the diesel fuel must be carried by truck or ship and a fuel reserve must be held on-site in case of expected demand or weather closure. Moreover, Australia has an energy security issue in relation to liquid fuels. Australia is reliant on imported fuel such as diesel to fill the shortage, as domestic production and supply are unable to fulfil domestic demand. As a result, by deploying hybrid integrated renewable energy systems in remote areas, isolated communities may lower their power prices, enjoy a more secure and dependable source of electricity and minimise their carbon footprint by eliminating or reducing the usage of diesel. In this study, an extensive literature review has been conducted focussing on renewable resources for Australia and Far North Queensland, different hybrid energy systems including energy storage, and finally highlights the alternative clean and renewable energy options for Far North Queensland (FNQ) remote communities. In addition, this study has performed an assessment of renewable energy available from solar and wind resources considering climatic, geographical and economic aspects for FNQ. The literature review and the assessment show that solar and wind resources including hydrogen storage have significant potential for energy solution of FNQ. The assessment results indicate that selected regions of FNQ have suitable land area of 142,294.86 km 2 (55.94% of total selected areas) for solar and 144,563.80 km 2 (56.83% of total selected areas) for wind. The total calculated potential power can be 14,448 GW from solar PV and 1040.97 GW from wind energy. This study provides a significant pathway for parties interested in investing in renewable energy in FNQ. Moreover, knowing a land’s suitability will increase confidence and hence speed up the renewable energy investment.

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Section: Assessment Of Solar and Wind Resourcesmentioning

confidence: 99%

Green and renewable resources: an assessment of sustainable energy solution for Far North Queensland, Australia

Islam

Hassan

Rasul

et al. 2022

Int J Energy Environ Eng

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“…Ana yollara yakınlık, güneş enerjisi santralleri inşa ve kurulum aşamasındaki maliyetleri etkili bir şekilde azaltabilir. Bu nedenle, ana yollara daha yakın konumlara daha yüksek bir öncelik verilmelidir [25,45,46].…”

Section: Ulaşım Ağına Mesafeunclassified

“…Üretilen elektriği şebekeye kolayca enjekte etmek ve iletim kayıplarını en az seviyeye indirmek için saha yüksek voltaj kablolarına yakın olmalıdır [45,46]. Bu nedenle, iletim güç hatlarının yakınında bulunan alanlara daha yüksek öncelik değerleri atanmalıdır.…”

Section: Enerji Nakil Hatlarına Mesafeunclassified

Güneş Enerjisi Santrali için Uygun Alanların CBS Tabanlı AHP Yöntemi ile Belirlenmesi: Mersin İli Örneği

Güner

Tekin

Çilek

et al. 2021

Çukurova Üniversitesi Mühendislik Fakültesi Dergisi

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Güneş enerji santrallerinin nihai yer seçim kriterleri çevresel, topografik, ekonomik, ve yasal mevzuatlar gibi bir çok değişkene bağlıdır. Yer seçimini etkileyen bu kriterler düşünüldüğünde, güneş enerji santrallerinin yer seçim yaklaşımları büyük yatırımlar için kritik bir konudur. Bu kriterlerin sistematik bir hiyerarşide düzenlemek zorunludur. Güneş enerjisi santrallerin yer seçiminin modern yöntemlerle seçilmesi ile ülke ekonomisine önemli bir katkı sağlanacağı düşünülmektedir. Bu doğrultuda mevcut çalışma, Coğrafi Bilgi Sistemleri (CBS) tabanlı çok kriterli bir karar verme (ÇKKV) tekniğini kullanarak Mersin İli'ndeki (Türkiye) güneş enerjisi santralleri için uygun yerlerin belirlenmesi amaçlamaktadır. Çevresel, ekonomik ve topografik kriterleri ağırlıklandırmak ve potansiyel alanların uygunluğunu değerlendirmek için analitik hiyerarşi yöntemi (AHP) uygulanmıştır. Sonuç olarak, çalışma alanının güneş enerjisi alanları için sahile yakın Tarsus, Yenişehir, Erdemli, Silifke, Anamur ilçelerinin ve çevresi alanların yüksek uygunluk düzeyine sahip olduğu tespit edilmiştir. Çalışma alanının kuzeydoğusunda yer alan Çamlıyayla ilçesinin ise güneş enerji santralleri için az uygun alan olarak bulunmuştur.

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“…Table1: The most effective criteria in solar site selection References Sub criteria Criteria (Lee et al, 2015), (Niblick & Landis, 2016), (Kengpol et al, 2012), (Saha & Eckelman, 2018), (Fritsche et al, 2017), (Al Garni & Awasthi, 2017), (Zoghi et al, 2017), (Liu et al, 2017) Construction cost Economic (Liu et al, 2017), (Lee et al, 2015), (Jun et al, 2014), (Liu et al, 2017), (Yun-na et al, 2013), (Vafaeipour et al, 2014), (Simsek et al, 2018) Maintenance cost (Liu et al, 2017), (Bendato et al, 2017), (Chang & Starcher, 2018), (Ogunmodimu & Okoroigwe, 2018), (Minaeian et al, 2017), (Sultan et al, 2018, (Saha & Eckelman, 2018), (Fritsche et al, 2017) Initial investment (Liu et al, 2017), (Sultan et al, 2018, (Alkhalidi et al, 2018), (Anwar et al, 2017), (Wu et al, 2018) Total revenue (Zheng et al, 2016), (Liu et al, 2017), (Al Garni & Awasthi, 2017), (Chang & Starcher, 2018), (Ogunmodimu & Okoroigwe, 2018) Transmission losses (Sun et al, 2013), (Buffat et al, 2018), (Bouhal et al, 2018) Energy production (Buffat et al, 2018), (Saha & Eckelman, 2018), (Herrando et al, 2018) Financial incentives…”

Section: Introductionmentioning

confidence: 99%

A hybrid approach based on MCDM methods and Monte Carlo simulation for sustainable evaluation of potential solar sites in east of Iran

Kannan

Moazzeni

Darmian

et al. 2021

Journal of Cleaner Production

107

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Macro-site selection of wind/solar hybrid power station based on Ideal Matter-Element Model

Cited by 57 publications

References 11 publications

Green and renewable resources: an assessment of sustainable energy solution for Far North Queensland, Australia

Green and renewable resources: an assessment of sustainable energy solution for Far North Queensland, Australia

Güneş Enerjisi Santrali için Uygun Alanların CBS Tabanlı AHP Yöntemi ile Belirlenmesi: Mersin İli Örneği

A hybrid approach based on MCDM methods and Monte Carlo simulation for sustainable evaluation of potential solar sites in east of Iran

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