An Overview on the Conversion of Forest Biomass into Bioenergy

Qing Yu,Wanxi Peng,Yafeng Yang,Meisam Tabatabaei,Su Shiung Lam,Homa Hosseinzadeh-Bandbafha,Han Yang,Quyet Van Le,Yacheng Wang,Christian Sonne

doi:10.3389/fenrg.2021.684234

Abstract

Biomass plays a crucial role in mitigating the concerns associated with increasing fossil fuel combustion. Among various types of biomass, forest biomass has attracted considerable attention given its abundance and variations. In this work, an overview is presented on different pathways available to convert forest biomass into bioenergy. Direct use of forest biomass could reduce carbon dioxide emissions associated with conventional energy production systems. However, there are certain drawbacks to the direct use of forest biomass, such as low energy conversion rate and soot emissions and residues. Also, lack of continuous access to biomass is a severe concern in the long-term sustainability of direct electricity generation by forest biomass. To solve this problem, co-combustion with coal, as well as pelletizing of biomass, are recommended. The co-combustion of forest biomass and coal could reduce carbon monoxide, nitrogen oxides, and sulfide emissions of the process. Forest biomass can also be converted into various liquid and gaseous biofuels through biochemical and thermochemical processes, which are reviewed and discussed herein. Despite the favorable features of forest biomass conversion processes to bioenergy, their long-term sustainability should be more extensively scrutinized by future studies using advanced sustainability assessment tools such as life cycle assessment, exergy, etc.

Highlights

Greenhouse gases (GHGs) emissions and other harmful gases are among the primary global concern, mainly caused by the increasing use of fossil energy carriers (Jun-jun and Da-rui, 2012)
Co-combustion is a feasible and straightforward option for solving the concerns associated with the direct combustion of forest biomass, such as permanent access to biomass, the area required for storage, and economic problems related to transportation and distribution (Liang et al, 2017)
Power plants relying on forest biomass pellets face several problems such as high energy consumption, labor-intensive process, higher prices than other solid biofuels, need for higher storage space in comparison with oil, need for ash removal, and susceptibility of pellets to moisture exposure (Abdoli et al, 2018)

Summary

Introduction

Greenhouse gases (GHGs) emissions and other harmful gases are among the primary global concern, mainly caused by the increasing use of fossil energy carriers (Jun-jun and Da-rui, 2012). Previous research has established that the direct combustion of forest biomass generates 20% less CO2 emissions than fossil fuels (Froese et al, 2010). The conversion rate of forest biomass into electricity by Rankine cycle is reported at about 39–44%; the combustion of each ton of forest biomass generates about 4.4 kWh of electric energy (Van den Broek et al, 1996; Dote et al, 2001).

Results

Conclusion