Smart Sustainable Concrete Construction

Kyle Kammer; Jeremy Dominik; Monica Chhatwani; Beverly A. Garnant; Bruce A.  Suprenant

doi:10.14359/51740273

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Title: Smart Sustainable Concrete Construction

Author(s): Kyle Kammer, Jeremy Dominik, Monica Chhatwani, Beverly A. Garnant, and Bruce A. Suprenant

Publication: Concrete International

Volume: 45

Issue: 12

Appears on pages(s): 35-49

Keywords: sustainability, carbon, project, design

DOI: 10.14359/51740273

Date: 12/1/2023

Abstract:
Architects, structural engineers, and contractors should work together to ensure that reducing embodied carbon in concrete on every project is a priority. This article sets out the framework for concrete contractors’ participation in smart sustainable concrete construction. It reflects input from the American Society of Concrete Contractors (ASCC) Sustainability Committee.

Related References:

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2. AIA Document D503™-2020, “Guide for Sustainable Projects,” American Institute of Architects, Washington, DC, 2020, 67 pp.

3. AIA MasterSpec®, “033000 Cast-in-Place Concrete,” Deltek, Inc., Herndon, VA, 2021, 58 pp.

4. ACI Committee 318, “Building Code Requirements for Structural Concrete (ACI 318-19) and Commentary (ACI 318R-19) (Reapproved 2022),” American Concrete Institute, Farmington Hills, MI, 2019, 624 pp.

5. “Marin County Building Code,” Chapter 19.07 – Carbon Concrete Requirements, Marin County, CA, Aug. 3, 2023, https://library.municode.com/ca/marin_county/codes/municipal_code?nodeId=TIT19MACOBUCO_CH19.07CACORE_19.07.020DE.

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24. Hasik, V.; DeRousseau, M.; and Northcott, P., “EC3 Uncertainty General Methodology,” Building Transparency, Seattle, WA, Feb. 2, 2023, 10 pp.

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34. ACI Committee 301, “Specifications for Concrete Construction (ACI 301-20),” American Concrete Institute, Farmington Hills, MI, 2020, 74 pp.

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