Development of Thermodynamic and Kinetic Simulation Tools and Testing Procedures For Enhanced Durability of Concrete Containing Industrial By-Products

Default ARPA-E Project Image

Program:
Exploratory Topics
Award:
$1,175,218
Location:
Corvallis, Oregon
Status:
ALUMNI
Project Term:
09/27/2019 - 03/26/2022
Website:

Critical Need:

This topic would develop extremely durable concretes and cementitious materials to tackle technology challenges in the development of widely applicable concrete and cement. Cement is the second most used substance in the world (next to water), largely due to its low cost, abundance, and reliability in a wide variety of environments. Cement has been a LITERAL building block of society dating back to the ancient Egyptians, Greeks, and Romans, but current production and utilization methods pose significant energy and emissions challenges. These threaten cement’s growth as domestic infrastructure degrades with age. Cement is important to U.S. energy production, as well as to infrastructure industry. The International Energy Agency estimated that in 2016 the cement and concrete sector consumed 10.5 exa-joules of energy and generated 2.2 gigatons of CO2 emissions globally. ARPA-E is seeking to develop novel materials for infrastructure with improved performance and lifetime and lower energy and emissions impacts. These projects present opportunities to develop material and process improvements that could improve the durability of cement, while maintaining or lowering production and deployment-related emissions. They could also ensure new types of cement are cost-competitive with existing traditional materials.

Project Innovation + Advantages:

Develop computational tools to evaluate the feasibility of using industrial by-product materials to make low energy cements. The objective is to reduce energy demand and greenhouse emissions related to the production of cements, to leverage the practical economic benefits of low-energy binder systems, and to produce highly durable concrete.

Contact

ARPA-E Program Director:
Dr. Joseph King
Project Contact:
Dr. Jason Weiss
Press and General Inquiries Email:
ARPA-E-Comms@hq.doe.gov
Project Contact Email:
jason.weiss@oregonstate.edu

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Release Date:
05/09/2019