Life Cycle Assessment (LCA) Analysis Of Concrete Slab Construction For Estimating The Environmental Impact

Authors

  • Annisa Nur Rakhmawati Brawijaya University
  • Yatnanta Padma Devia Brawijaya University
  • Indradi Wijatmiko Brawijaya University

DOI:

https://doi.org/10.21776/ub.rekayasasipil.2020.014.03.10

Keywords:

concrete plates, life cycle assessment, carbon emissions, global warming, SimaPro 9

Abstract

Global warming and air pollution become one of the environmental issues facing the world. the construction sector consumes about 40% of total global energy. Many strategies have been adopted to improve the efficiency of building construction to reduce material consumption and carbon emissions. One way to find out the environmental impact and carbon emissions produced is with a Life Cycle Assessment (LCA). This study aims to predict the environmental impact of concrete slab construction in two-story dwellings using the Life Cycle Assessment (LCA) approach of the material used with the help of software, namely Simapro 9.0. The scope of the study is the cradle to the grave. The results of the SimaPro 9.0 concrete plate construction analysis, especially in global warming are 1.02, E+07 kg CO2 eq. The biggest contribution to the manufacture of concrete slabs is the casting process with a value of 1.00, E+07 kg CO2 eq.

Author Biographies

Annisa Nur Rakhmawati, Brawijaya University

Master Student at Brawijaya University Department in Civil Engineering Construction Management

Yatnanta Padma Devia, Brawijaya University

Lecturer in the Department of Civil Engineering, Brawijaya University

Indradi Wijatmiko, Brawijaya University

Lecturer in the Department of Civil Engineering, Brawijaya University

References

Hermawan, Marzuki, P. F., Abduh, M., & R. Driejana. (2013). Peran Life Cycle Analysis (LCA) Pada Material Konstruksi Dalam Upaya Menurunkan Dampak Emisi Karbon Dioksida pada Efek Gas Rumah Kaca. Konfrensi Nasional Teknik Sipil 7 (KoNTekS7) (hal. K-47 - K-52). Surakarta: Universitas Sebelas Maret.

Hollerud, B., Bowyer, J., Howe, J., Pepke, E., & Fernholz, K. (2017). A Reviews Life Cycle Assessment Tools. Dovetail Partners, Inc.

Ponsioen, T. (2014, July 21). Home: Sustainability news. Normalization: New Developments in Normalisation Sets: https://www.pre-sustainability.com/news/the-normalisation-step-in-lcia

Portet, S. S. (2015). Life Cycle Assessment (LCA) For An Apartment Project in Nardovegen. Trondheim, Ålesund, Gjøvik, Norway: Norwegian University of Science and Technology.

Pujadi, & Yola, S.T., M.Eng, M. (2013). Analisis Sustainability Packaging dengan Metode Life Cycle Assessment (LCA). Riau: Universitas Islam Negeri (UIN) Sultan Syarif Kasim .

Putri, H. P. (2017). Life Cycle Assessment (LCA) Emisi Pada Proses Produksi Bahan Bakar Minyak (BBM) Jenis Bensin dengan Pendekatan Metode Analytical Hierarchy Process (AHP). Surabaya: Institut Teknologi Sepuluh November.

Utomo, B. P. (2018). Identifikasi Dampak Lingkungan Pada Material Pembuatan Batik Cap Menggunakan Metode Life Cycle Assessment (LCA) dengan Software SimaPro 8.30. Surakarta: Universitas Muhammadiyah Surakarta.

Wang, J., Tingley, D. D., Mayfield, M., & Wang, Y. (2018). Life Cycle Impact Comparison of Different Concrete Floor Slabs Considering Uncertainty and Sensitivity Analysis. Cleaner Production, 374-385.

Wibowo, A. (2013). Aplikasi IPCC Guideline 2006 Untuk Perhitungan Emisi Gas Rumah Kaca Kehutanan di Sumatera Selatan. Jurnal Analisis Kebijakan Kehutanan, 166-186.

Wisanggeni, D. H. (2017). Perbandingan Sistem Pelat Konvensional dan Precast Half Slab Ditinjau Dari Segi Waktu dan Biaya Pada Proyek My Tower Apartement Surabaya. Surabaya: Institut Teknologi Sepuluh Nopember.

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Published

2020-10-30

How to Cite

Rakhmawati, A. N., Devia, Y. P., & Wijatmiko, I. (2020). Life Cycle Assessment (LCA) Analysis Of Concrete Slab Construction For Estimating The Environmental Impact. Rekayasa Sipil, 14(3), pp.232–237. https://doi.org/10.21776/ub.rekayasasipil.2020.014.03.10

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