Building new structures from low-carbon and renewable resources is gaining significant attention both within the construction industry and wider society. This article will look at constructing new homes with hemp, a low-carbon, and sustainable material.
By Reginald Davey
18 Aug 2022
Researchers at a private university in the USA recently announced that they were developing a hemp rebar product that could replace steel rebar in construction projects.
By Ben Pilkington
9 Aug 2022
Due to the increasing number of automobiles, millions of tires are produced each year. Scrap tires are made up of nylon fiber and scrap tire rubber. One of the most effective ways to dispose of used tire rubber and nylon fiber is to recycle them in asphalt pavement.
Cities release 70% of CO2 emissions and utilize two-thirds of global energy production, while buildings consume more than one-third of global final energy consumption; thus, growing energy-usage efficiency in buildings provides more opportunities for sustainable development.
A new research project led by Colorado University (CU) Boulder engineers has developed a carbon neutral – and potentially even carbon negative – cement production method that uses microalgae to capture and sequester carbon dioxide from the atmosphere.
By Ben Pilkington
21 Jul 2022
A modular carbon-neutral housing retrofit startup, ecoworks, has recently raised $7.7 million in private funding to deliver its carbon-free retrofitting project for existing residential buildings.
By Ben Pilkington
11 Jul 2022
Rheological concepts and methods used in concrete incorporate the deformation of hardened cement paste, the handling and placement of newly mixed concrete, and the characteristics of its component elements, particularly concrete and slurries.
By Akhlaqul Karomah
28 Jun 2022
This study in the journal Buildings compares the suggested method to refined finite element model analysis and simplified model analysis and recommends a method for the rapid prediction of seismic damage to urban buildings utilizing low-LOD information.
The most intuitive spatial aspect of urbanization is that man-made space replaces natural space, resulting in an urban heat island that threatens human thermal comfort, health, and energy usage. Several investigations have examined the impact of urban vegetation coverage on the thermal environment, but the issue of how that impact will affect urban energy consumption needs has been overlooked.
The inclusion of polyvinyl alcohol (PVA) fiber in concrete improves its toughness significantly, according to previous research. The mechanical and thermal performance of polyvinyl alcohol fiber reinforced cement composites (GPCC) were examined in a recent study in the journal Buildings. This study lays the groundwork for future research into the use of GPCC and proposes a mixed proportion that is optimal.