Statistics for Numerical Prediction of Drag Reduction and Interfacial Shapes Over Superhydrophobic Surfaces

Total visits

views
Numerical Prediction of Drag Reduction and Interfacial Shapes Over Superhydrophobic Surfaces 300

Total visits per month

views
January 2024 1
February 2024 2
March 2024 3
April 2024 6
May 2024 4
June 2024 2
July 2024 0

File Visits

views
Alame_umn_0130E_21466.pdf 205

Top country views

views
United States 122
China 85
United Kingdom 9
South Korea 8
Hong Kong SAR China 7
India 6
Turkey 6
Canada 5
Germany 5
Romania 5
Russia 4
Singapore 4
Austria 3
France 3
Israel 3
Netherlands 3
Serbia 3
Iraq 2
Iran 2
Peru 2
Taiwan 2
Spain 1
Finland 1
Ireland 1
Italy 1
Kenya 1
Lebanon 1

Top city views

views
Minneapolis 24
Ashburn 12
Saint Paul 12
Hangzhou 10
Beijing 8
Arlington 5
Burnsville 5
Madison 5
Rochester 5
Des Moines 4
Jinan 4
Ulsan 4
Bischofshofen 3
Singapore 3
Worcester 3
Wuhan 3
Ann Arbor 2
Arad 2
Boardman 2
Callao 2
Chicago 2
Chongqing 2
Cincinnati 2
Fuzhou 2
Haikou 2
Keban 2
Moscow 2
Nanchang 2
Nikinci 2
Paris 2
Putian 2
Sunnyvale 2
Taichung 2
Wednesbury 2
Aligarh 1
Ames 1
Austin 1
Baltimore 1
Beirut 1
Bengaluru 1
Besançon 1
Breaza 1
Buffalo 1
Cambridge 1
Changzhou 1
Chanshan 1
Chenzhou 1
College Station 1
Corvallis 1
Dallas 1
Davis 1
Dublin 1
Durgapur 1
Edinburg 1
Edinburgh 1
Edmonton 1
Enschede 1
Frankfurt am Main 1
Guangzhou 1
Haarlem 1
Harbin 1
Hefei 1
Istanbul 1
Kanpur 1
Kosekoy 1
Kowloon 1
Las Vegas 1
Los Angeles 1
Luzhou 1
Madrid 1
Miami 1
Montreal 1
Naaldwijk 1
Nanjing 1
Neptune City 1
New Malden 1
Norristown 1
Novi Sad 1
Penza 1
Poplar 1
Pulandian 1
Quanzhou 1
Ramat Gan 1
Reston 1
San Bruno 1
San Leandro 1
Seoul 1
Shanghai 1
Shenzhen 1
Shimla 1
Silver Spring 1
St. John's 1
Starkville 1
State College 1
Suwon 1
Taizhou 1
Teddington 1
Tehran 1
Tianjin 1
Tongxiang 1