Reduction of carbon dioxide by bio-façades for sustainable development of the environment
Hamidreza Rezazadeh, Zahra Salahshoor, Ferial Ahmadi, Farshad Nasrollahi
Environmental Engineering Research. 2022;27(2):200583 Published online 2021 Mar 2 DOI: https://doi.org/10.4491/eer.2020.583
|
Citations to this article as recorded by
Microalgae bio-reactive façade: Location and weather-based systematic optimization
Victor Pozzobon
Building and Environment.2024; 253: 111352. CrossRef Microalgae bio-reactive façade: A radiative-convective model powered by hourly illumination computation and historical weather data
Victor Pozzobon
Journal of Building Engineering.2024; 90: 109407. CrossRef Effect of solvent and calcination process on physicochemical features of silica nanocapsule for CO2 capture
Abdul Rahman Abdul Rahim, Khairiraihanna Johari, Murid Hussain
Environmental Engineering Research.2024; 29(6): 240011. CrossRef Analysis of the impact of growing green walls based on the reduction of PM2.5 particles in the resilient central urban fabric
Mohadese Borna, Mansour Yeganeh
Frontiers in Built Environment.2024;[Epub] CrossRef Strategies to reduce air pollution emissions from urban residential buildings
Robiel Manzueta, Prashant Kumar, Arturo H. Ariño, César Martín-Gómez
Science of The Total Environment.2024; 951: 175809. CrossRef What Is Your Building Doing for the City? Systematic Literature Review on the Potential of Façade Design for the Mitigation of Urban Environmental Problems
Alejandro Prieto, Marcela Pastén
Sustainability.2024; 16(17): 7855. CrossRef Microalgae bio-reactive façade: System thermal–biological optimization
Victor Pozzobon
Renewable Energy.2024; 235: 121377. CrossRef Architectural Mitigating Strategies for Air Pollution in the Built Environment
Ajuluchukwu E. Igwe, Emmanuel C. Ezema, Francis O. Okeke, Cyriacus Okpalike
IOP Conference Series: Earth and Environmental Sci.2022; 1054(1): 012046. CrossRef
|