05-15-2026, 10:25 PM
[center]![[Image: 27c4e77c0ba11a9e725d8a7523418cbb.jpg]](https://i127.fastpic.org/big/2026/0516/bb/27c4e77c0ba11a9e725d8a7523418cbb.jpg)
Low Carbon Built Environment: Concepts, Tools, And Method
Published 5/2026
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 6h 25m | Size: 3.72 GB[/center]
Low carbon structure, Net-zero buildings, Embodied & operational carbon, LCA, Carbon calculation tools, Circularity
What you'll learn
• Understand the relationship between climate change and the construction industry, including global and national sustainability commitments.
• Learn the fundamentals of embodied carbon, operational carbon, and Life Cycle Assessment (LCA) in buildings.
• Identify high-carbon construction materials and explore low-carbon alternatives such as fly ash concrete, GGB =S, AAC blocks, and bamboo.
• Develop skills to interpret Environmental Product Declarations (EPDs) and evaluate material carbon impacts.
• Apply passive design principles and structural optimization techniques to reduce carbon emissions in buildings.
• Explore modern construction approaches such as prefabrication, modular construction, lightweight structures, and circular design strategies.
• Understand building energy performance, HVAC efficiency, thermal comfort, and renewable energy integration for Net Zero Energy Buildings (NZEBs).
• Gain hands-on exposure to carbon calculation methods, LCA standards, and industry tools such as EC3 and The Structural Carbon tool.
• Learn retrofit and renovation strategies to achieve carbon savings compared to demolition and new construction.
• Build practical experience through assignments, software screenshots and case studies on low-carbon solutions.
• Develop the ability to design, evaluate, and communicate sustainable and low-carbon strategies for buildings and infrastructure projects.
Requirements
No programming experience needed.
Description
The "Low Carbon Built Environment: Concepts, Tools, and Methods" course provides a comprehensive understanding of sustainable and low-carbon approaches in the building and construction industry. The course explores the relationship between climate change and the built environment, focusing on strategies to reduce greenhouse gas emissions throughout a building's life cycle.
Students will learn the principles of embodied and operational carbon, Life Cycle Assessment (LCA), energy-efficient building design, and low-carbon material selection. The course introduces global and national climate frameworks, including the IPCC, Paris Agreement, Sustainable Development Goals (SDGs) and policy for sustainable development.
The course emphasizes practical and industry-oriented learning through case studies, software screenshots, and carbon calculations. Students will gain hands-on exposure to tools such as EC3 and The Structural Carbon tool.
Key topics include passive design strategies, structural optimization, renewable energy integration, retrofit and renovation approaches, circular economy concepts, prefabrication, modular construction, and Net Zero Energy Buildings (NZEBs). The course also examines green building policies, environmental standards, ESG practices, and emerging global trends in sustainable construction.
Through assignments, comparative carbon analysis, and calculation methods and tools, students will develop the ability to evaluate, calculate, and reduce carbon impacts in buildings and infrastructure projects. The course is designed for architecture, civil engineering, construction management, and sustainability students and professionals seeking practical knowledge and technical skills in low-carbon construction and whole-life carbon assessment.
Who this course is for
The course is designed for architecture, civil engineering, construction management, and sustainability students and professionals seeking practical knowledge and technical skills in low-carbon construction and whole-life carbon assessment.
Low Carbon Built Environment: Concepts, Tools, And Method
Published 5/2026
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 6h 25m | Size: 3.72 GB[/center]
Low carbon structure, Net-zero buildings, Embodied & operational carbon, LCA, Carbon calculation tools, Circularity
What you'll learn
• Understand the relationship between climate change and the construction industry, including global and national sustainability commitments.
• Learn the fundamentals of embodied carbon, operational carbon, and Life Cycle Assessment (LCA) in buildings.
• Identify high-carbon construction materials and explore low-carbon alternatives such as fly ash concrete, GGB =S, AAC blocks, and bamboo.
• Develop skills to interpret Environmental Product Declarations (EPDs) and evaluate material carbon impacts.
• Apply passive design principles and structural optimization techniques to reduce carbon emissions in buildings.
• Explore modern construction approaches such as prefabrication, modular construction, lightweight structures, and circular design strategies.
• Understand building energy performance, HVAC efficiency, thermal comfort, and renewable energy integration for Net Zero Energy Buildings (NZEBs).
• Gain hands-on exposure to carbon calculation methods, LCA standards, and industry tools such as EC3 and The Structural Carbon tool.
• Learn retrofit and renovation strategies to achieve carbon savings compared to demolition and new construction.
• Build practical experience through assignments, software screenshots and case studies on low-carbon solutions.
• Develop the ability to design, evaluate, and communicate sustainable and low-carbon strategies for buildings and infrastructure projects.
Requirements
No programming experience needed.
Description
The "Low Carbon Built Environment: Concepts, Tools, and Methods" course provides a comprehensive understanding of sustainable and low-carbon approaches in the building and construction industry. The course explores the relationship between climate change and the built environment, focusing on strategies to reduce greenhouse gas emissions throughout a building's life cycle.
Students will learn the principles of embodied and operational carbon, Life Cycle Assessment (LCA), energy-efficient building design, and low-carbon material selection. The course introduces global and national climate frameworks, including the IPCC, Paris Agreement, Sustainable Development Goals (SDGs) and policy for sustainable development.
The course emphasizes practical and industry-oriented learning through case studies, software screenshots, and carbon calculations. Students will gain hands-on exposure to tools such as EC3 and The Structural Carbon tool.
Key topics include passive design strategies, structural optimization, renewable energy integration, retrofit and renovation approaches, circular economy concepts, prefabrication, modular construction, and Net Zero Energy Buildings (NZEBs). The course also examines green building policies, environmental standards, ESG practices, and emerging global trends in sustainable construction.
Through assignments, comparative carbon analysis, and calculation methods and tools, students will develop the ability to evaluate, calculate, and reduce carbon impacts in buildings and infrastructure projects. The course is designed for architecture, civil engineering, construction management, and sustainability students and professionals seeking practical knowledge and technical skills in low-carbon construction and whole-life carbon assessment.
Who this course is for
The course is designed for architecture, civil engineering, construction management, and sustainability students and professionals seeking practical knowledge and technical skills in low-carbon construction and whole-life carbon assessment.
Code:
https://rapidgator.net/file/11757fb1b9ba6065e75394619a8d9455/Low_Carbon_Built_Environment_Concepts,_Tools,_and_Method.part4.rar.html
https://rapidgator.net/file/a781a4bede16c64d352563c34e72dc62/Low_Carbon_Built_Environment_Concepts,_Tools,_and_Method.part3.rar.html
https://rapidgator.net/file/08c33f1397c8eba2d2689039e2599078/Low_Carbon_Built_Environment_Concepts,_Tools,_and_Method.part2.rar.html
https://rapidgator.net/file/8ec8bb87d169c2b313a9a1aa6ad28525/Low_Carbon_Built_Environment_Concepts,_Tools,_and_Method.part1.rar.html
https://nitroflare.com/view/1AED55BE95CC6A0/Low_Carbon_Built_Environment_Concepts%2C_Tools%2C_and_Method.part4.rar
https://nitroflare.com/view/D04A7907B30855B/Low_Carbon_Built_Environment_Concepts%2C_Tools%2C_and_Method.part3.rar
https://nitroflare.com/view/6E600208DFFC984/Low_Carbon_Built_Environment_Concepts%2C_Tools%2C_and_Method.part2.rar
https://nitroflare.com/view/0D10DD3F967179E/Low_Carbon_Built_Environment_Concepts%2C_Tools%2C_and_Method.part1.rar