Effect of pyrolysis temperature and biomass particle size on the heating value of biocoal and optimization using response surface methodology

Insights into the bioenergy potential of jackfruit wastes considering their physicochemical properties, bioenergy indicators, combustion behaviors, and emission characteristics

(2020) José Luiz Francisco Alves et al.   RENEWABLE ENERGY

Influence of pyrolysis temperature and bio-waste composition on biochar characteristics

(2020) Leandro Rodriguez Ortiz et al.   RENEWABLE ENERGY

The potential of agricultural residues for energy production in Calabria (Southern Italy)

(2019) Angelo Algieri et al.   RENEWABLE & SUSTAINABLE ENERGY REVIEWS

Influence of Process Parameters on Optimization of Biochar Fuel Characteristics Derived from Rice Husk: a Promising Alternative Solid Fuel

(2019) Krishna Yadav et al.   BioEnergy Research

Biochar higher heating value estimative using thermogravimetric analysis

(2019) L. C. Malucelli et al.   JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY

Effects of temperature and particle size on the compositions, energy conversions and structural characteristics of pyrolysis products from different crop residues

(2019) Ziyu Hong et al.   ENERGY

A comprehensive study on estimating higher heating value of biomass from proximate and ultimate analysis with machine learning approaches

(2019) Jiangkuan Xing et al.   ENERGY

Prediction of higher heating values of biochar from proximate and ultimate analysis

(2019) Cheng Qian et al.   FUEL

Pyrolysis of cashew nutshells: Characterization of products and energy balance

(2018) Javier Ábrego et al.   ENERGY

Optimal use of condensed parameters of ultimate analysis to predict the calorific value of biomass

(2018) Ayse Ozyuguran et al.   FUEL

A mass- and energy balance-based process modelling study for the pyrolysis of cotton stalks with char utilization for sustainable soil enhancement and carbon storage

(2018) Sebastian Schaffer et al.   BIOMASS & BIOENERGY

Characterization and Process Optimization of Biochar Produced Using Novel Biomass, Waste Pomegranate Peel: A Response Surface Methodology Approach

(2017) M. T. H. Siddiqui et al.   Waste and Biomass Valorization

Application of response surface methodology and artificial neural network on pyrolysis of safflower seed press cake

(2016) Dilek Angın et al.   Energy Sources Part A-Recovery Utilization and Environmental Effects

Experimental investigation of torrefaction of two agricultural wastes of different composition using RSM (response surface methodology)

(2015) Hyungseok Nam et al.   ENERGY

Investigating the potential for a self-sustaining slow pyrolysis system under varying operating conditions

(2014) Kyle Crombie et al.   BIORESOURCE TECHNOLOGY

Fermentative Hydrogen Production from Carob Pod: A Typical Mediterranean Forest Fruit

(2014) M. S. Fountoulakis et al.   Waste and Biomass Valorization

Spanish biofuels heating value estimation. Part I: Ultimate analysis data

(2013) Roberto García et al.   FUEL

Spanish biofuels heating value estimation. Part II: Proximate analysis data

(2013) Roberto García et al.   FUEL

Production and characterization of slow pyrolysis biochar: influence of feedstock type and pyrolysis conditions

(2012) Frederik Ronsse et al.   Global Change Biology Bioenergy

Pyrolysis of pistachio shell: Effects of pyrolysis conditions and analysis of products

(2011) Korkut Açıkalın et al.   FUEL

Prediction of higher heating values of biomass from proximate and ultimate analyses

(2010) Chun-Yang Yin   FUEL

Response surface methodology (RSM) as a tool for optimization in analytical chemistry

(2008) Marcos Almeida Bezerra et al.   TALANTA