Design of optimal sand fences around a desert solar park—a case study from Phase IV of the Mohammed bin Rashid Al Maktoum Solar Park

Solar energy parks in desert areas must resist the encroachment of moving sand and burial by migrating dunes. It is therefore important to design economical, effective sand fences to protect the parks. Based on an analysis of wind regime data and the grain-size distribution of transported sands, fie...

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Published in	Natural hazards (Dordrecht) Vol. 113; no. 1; pp. 673 - 697
Main Authors	Yao, Zhengyi, Xiao, Jianhua, Xie, Xiaosong, Zhu, Haijun, Qu, Jianjun
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.08.2022 Springer Nature B.V
Subjects	Civil Engineering Deserts Design Dunes Earth and Environmental Science Earth Sciences Encroachment Environmental Management Eolian sands Fences Geophysics/Geodesy Geotechnical Engineering & Applied Earth Sciences Grain size distribution Height Hydrogeology Lateral pressure Mass flux Natural Hazards Original Paper Parks Parks & recreation areas Sand Security Size distribution Solar energy Wind Wind regime Blown sand hazards Sand fence Mobile dunes Aeolian sand Solar park
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Abstract	Solar energy parks in desert areas must resist the encroachment of moving sand and burial by migrating dunes. It is therefore important to design economical, effective sand fences to protect the parks. Based on an analysis of wind regime data and the grain-size distribution of transported sands, field-measured sand fluxes, and theoretical calculations, we designed the form, height, and structure of such sand fences. The aeolian sand in the study area is uniformly graded fine sand with particles ranging in size from 0.063 to 0.250 mm. Drift potential averaged 646 VU (i.e., a high-energy wind environment) and dune migration averaged 11.9 m yr −1 . The vertical mass flux profiles of aeolian sand followed power functions. The sand quantity transported below 10 cm in height accounted for > 99.8% of the total, with most of the remainder transported above 20 cm. The yearly maximum depth of sand deposited at the sand fences ranged from 1.63 to 2.50 m for mobile dunes and from 0.84 to 1.08 m for flat land. The lateral pressure exerted on the sand fence by accumulated sand ranged from 4.9 to 9.2 kPa for mobile dunes and from 1.1 to 3.1 kPa for flat land. Our results suggest an optimal sand fence height of 2.0 to 2.5 m for areas with mobile dunes and 1.0 to 1.5 m for flat land. To conserve materials, the sand fence could be combined with a security fence or wind fence. Our results provide a reference for designing sand fences in sandy areas.
AbstractList	Solar energy parks in desert areas must resist the encroachment of moving sand and burial by migrating dunes. It is therefore important to design economical, effective sand fences to protect the parks. Based on an analysis of wind regime data and the grain-size distribution of transported sands, field-measured sand fluxes, and theoretical calculations, we designed the form, height, and structure of such sand fences. The aeolian sand in the study area is uniformly graded fine sand with particles ranging in size from 0.063 to 0.250 mm. Drift potential averaged 646 VU (i.e., a high-energy wind environment) and dune migration averaged 11.9 m yr −1 . The vertical mass flux profiles of aeolian sand followed power functions. The sand quantity transported below 10 cm in height accounted for > 99.8% of the total, with most of the remainder transported above 20 cm. The yearly maximum depth of sand deposited at the sand fences ranged from 1.63 to 2.50 m for mobile dunes and from 0.84 to 1.08 m for flat land. The lateral pressure exerted on the sand fence by accumulated sand ranged from 4.9 to 9.2 kPa for mobile dunes and from 1.1 to 3.1 kPa for flat land. Our results suggest an optimal sand fence height of 2.0 to 2.5 m for areas with mobile dunes and 1.0 to 1.5 m for flat land. To conserve materials, the sand fence could be combined with a security fence or wind fence. Our results provide a reference for designing sand fences in sandy areas. Solar energy parks in desert areas must resist the encroachment of moving sand and burial by migrating dunes. It is therefore important to design economical, effective sand fences to protect the parks. Based on an analysis of wind regime data and the grain-size distribution of transported sands, field-measured sand fluxes, and theoretical calculations, we designed the form, height, and structure of such sand fences. The aeolian sand in the study area is uniformly graded fine sand with particles ranging in size from 0.063 to 0.250 mm. Drift potential averaged 646 VU (i.e., a high-energy wind environment) and dune migration averaged 11.9 m yr−1. The vertical mass flux profiles of aeolian sand followed power functions. The sand quantity transported below 10 cm in height accounted for > 99.8% of the total, with most of the remainder transported above 20 cm. The yearly maximum depth of sand deposited at the sand fences ranged from 1.63 to 2.50 m for mobile dunes and from 0.84 to 1.08 m for flat land. The lateral pressure exerted on the sand fence by accumulated sand ranged from 4.9 to 9.2 kPa for mobile dunes and from 1.1 to 3.1 kPa for flat land. Our results suggest an optimal sand fence height of 2.0 to 2.5 m for areas with mobile dunes and 1.0 to 1.5 m for flat land. To conserve materials, the sand fence could be combined with a security fence or wind fence. Our results provide a reference for designing sand fences in sandy areas.
Author	Xie, Xiaosong Yao, Zhengyi Qu, Jianjun Zhu, Haijun Xiao, Jianhua
Author_xml	– sequence: 1 givenname: Zhengyi surname: Yao fullname: Yao, Zhengyi organization: Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences – sequence: 2 givenname: Jianhua orcidid: 0000-0002-5899-9502 surname: Xiao fullname: Xiao, Jianhua email: xiaojh@lzb.ac.cn organization: Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences – sequence: 3 givenname: Xiaosong surname: Xie fullname: Xie, Xiaosong organization: Shanghai Electric Power Generation Engineering Co – sequence: 4 givenname: Haijun surname: Zhu fullname: Zhu, Haijun organization: East China Electric Power Design Institute Co. Ltd – sequence: 5 givenname: Jianjun surname: Qu fullname: Qu, Jianjun organization: Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences
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Keywords	Blown sand hazards Sand fence Mobile dunes Aeolian sand Solar park
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Snippet	Solar energy parks in desert areas must resist the encroachment of moving sand and burial by migrating dunes. It is therefore important to design economical,...
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SubjectTerms	Civil Engineering Deserts Design Dunes Earth and Environmental Science Earth Sciences Encroachment Environmental Management Eolian sands Fences Geophysics/Geodesy Geotechnical Engineering & Applied Earth Sciences Grain size distribution Height Hydrogeology Lateral pressure Mass flux Natural Hazards Original Paper Parks Parks & recreation areas Sand Security Size distribution Solar energy Wind Wind regime
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Title	Design of optimal sand fences around a desert solar park—a case study from Phase IV of the Mohammed bin Rashid Al Maktoum Solar Park
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