Optimal Compressive Strength of RHA Ultra-High-Performance Lightweight Concrete (UHPLC) and Its Environmental Performance Using Life Cycle Assessment

Kennedy C. Onyelowe; Ahmed M. Ebid; Hisham A. Mahdi; Ariel Riofrio; Danial Rezazadeh Eidgahee; Haci Baykara; Atefeh Soleymani; Denise-Penelope N. Kontoni; Jamshid Shakeri; Hashem Jahangir

Optimal Compressive Strength of RHA Ultra-High-Performance Lightweight Concrete (UHPLC) and Its Environmental Performance Using Life Cycle Assessment

محل انتشار: ژورنال مهندسی عمران، دوره: 8، شماره: 11

سال انتشار: 1401

نوع سند: مقاله ژورنالی

زبان: انگلیسی

مشاهده: 33

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https://civilica.com/doc/1962833

شناسه ملی سند علمی:

JR_CEJ-8-11_003

تاریخ نمایه سازی: 2 اردیبهشت 1403

چکیده مقاله:

Frequent laboratory needs during the production of concrete for infrastructure development purposes are a factor of serious concern for sustainable development. In order to overcome this trend, an intelligent forecast of the concrete properties based on multiple data points collected from various concrete mixes produced and cured under different conditions is adopted. It is equally important to consider the impact of the concrete components in this attempt to take care of the environmental risks involved in this production. In this work, ۱۹۲ mixes of an ultra-high-performance lightweight concrete (UHPLC) were collected from literature representing different mixes cured under different periods and laboratory conditions. These mix proportions constitute measured variables, which are curing age (A), cement content (C), fine aggregate (FAg), plasticizer (PL), and rice husk ash (RHA). The studied concrete property was the unconfined compressive strength (Fc). This exercise was necessary to reduce multiple dependence on laboratory examinations by proposing concrete strength equations. First, the life cycle assessment evaluation was conducted on the rice husk ash-based UHPLC, and the results from the ۱۹۲ mixes show that the C-۷۸۳ mix (۸۷ kg/m۳ RHA) has the highest score on the environmental performance evaluation, while C-۳۰۰ (۷۵ kg/m۳ RHA) with life cycle indices of ۲۸۹.۸۵ kg CO۲eq. Global warming potential (GWP), ۰.۶۶ kg SO۲eq. Terrestrial acidification and ۵.۷۷ m۳ water consumption was selected to be the optimal choice due to its good profile in the LCA and the Fc associated with the mix. Second, intelligent predictions were conducted by using six algorithms (ANN-BP), (ANN-GRG), (ANN-GA), (GP), (EPR), and (GMDH-Combi). The results show that (ANN-BP) with performance indices of R; ۰.۹۸۹, R۲; ۰.۹۷۹, mean square error (MSE); ۲۲۵۲.۵۵, root mean squared error (RMSE); ۴۲.۴۶ MPa and mean absolute percentage error (MAPE); ۴.۹۵% outclassed the other five techniques and is selected as the decisive model. However, it also compared well and outclassed previous models, which had used gene expression programming (GEP) and random forest regression (RFR) and achieved R۲of ۰.۹۶ and ۰.۹۱, respectively. Doi: ۱۰.۲۸۹۹۱/CEJ-۲۰۲۲-۰۸-۱۱-۰۳ Full Text: PDF

کلیدواژه ها:

Lightweight Concrete ، Sustainable Construction ، Environmental Impact ، Life Cycle Impact Assessment ، Green Concrete.

نویسندگان

Danial Rezazadeh Eidgahee

Haci Baykara

Atefeh Soleymani

Denise-Penelope N. Kontoni

Jamshid Shakeri

Hashem Jahangir

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