Elemental Loss, Enrichment, and Transformation as Well as Life Cycle Assessment of Torrefied Corncob

31 Pages Posted: 22 Jul 2021

See all articles by Congyu Zhang

Congyu Zhang

Harbin Institute of Technology

Wei-Hsin Chen

National Cheng Kung University

Shih-Hsin Ho

Harbin Institute of Technology

Abstract

Elemental loss, enrichment, and transformation are crucial to evaluate the fuel properties of torrefied biomass, and life cycle assessment (LCA) can reflect the environmental impact of torrefaction operation. Herein, corncob is selected as the feedstock for the exploration of fuel properties variation during the torrefaction process. The obtained result implies that torrefaction operation obviously changes the macroscopic and microscopic morphologies of torrefied corncob, and leads to a higher calorific value and bigger surface area. With the development of the torrefaction process, the loss of weight percentage of elemental C, H, and O occurs and is in the order of O > C > H. The relative content of elemental C gradually increases and leads to better fuel properties. The forms of elemental N and O are stable and do not change during the torrefaction process, but the form of C gradually changes from a combined state to an elemental state. These results are confirmed by Fourier transform infrared (FT-IR) spectra, contact angle detection, and thermogravimetric and derivative thermogravimetric analysis. The LCA result infers that slight torrefaction possesses the lowest environmental impact, whereas the mild torrefaction condition of 250 °C appears to be the optimal choice for corncob upgrading.

Suggested Citation

Zhang, Congyu and Chen, Wei-Hsin and Ho, Shih-Hsin, Elemental Loss, Enrichment, and Transformation as Well as Life Cycle Assessment of Torrefied Corncob. Available at SSRN: https://ssrn.com/abstract=3891238 or http://dx.doi.org/10.2139/ssrn.3891238

Congyu Zhang

Harbin Institute of Technology ( email )

92 West Dazhi Street
Nan Gang District
Harbin, heilongjiang 150001
China

Wei-Hsin Chen (Contact Author)

National Cheng Kung University ( email )

Shih-Hsin Ho

Harbin Institute of Technology ( email )

92 West Dazhi Street
Nan Gang District
Harbin, 150001
China

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