Next‐generation biofuels and platform biochemicals from lignocellulosic biomass

Okolie, Jude A.; Mukherjee, Arghya; Nanda, Sonil; Dalai, Ajay K.; Koziński, Janusz A.

doi:10.1002/er.6697

Cited by 95 publications

(43 citation statements)

References 181 publications

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“…In parallel, biogas is also used for industrial and urban applications to produce in combination heat and power [13]. AD is a mature technology, which has high potential to offer new strength to the agricultural economy by generating employment opportunities for the rural population and income from waste management and valorization [9].…”

Section: Ad Dynamics and Perspectivesmentioning

confidence: 99%

“…The efficiency of the anaerobic digestion process is dependent also on temperature, hydraulic retention time, blending, C/N ratio, surface area, feedstock loading rate, the content of total solids and volatile solids, theoretical methane yield, biochemical methane potential, organic loading rate, shear stress and inhibitors (NH 3 , furfural, etc.) [9,13]. Some of these parameters could be adjusted during the biomethanation to ensure a beneficial AD process and biogas yield [23].…”

Section: Ad Process/technologymentioning

confidence: 99%

“…The concentration of C and N provides an image of the nutrients level of the AD substrate. More specifically, very high or low C/N ratio could affect the total ammoniacal nitrogen (NH 3 -N) and fatty acid production that may also affect the biogas production yield and rate [9]. In general terms, a C/N ratio of 20-30 is considered as a friendly environmentally that could balance C and N nutrients necessary for microbial growth.…”

Section: Ad Process/technologymentioning

confidence: 99%

“…Minimum 3 weeks are required for the AD microorganisms to be familiar with the new feedstock/substrate and conditions (temperature, pH, etc.). As evidenced, the retention time should be between 10 and 15 days [9]. The operating temperature in the digester constitutes a crucial factor for the effectiveness of AD process and a tool for control of the whole process [13,23].…”

Section: Ad Process/technologymentioning

confidence: 99%

“…), thermochemical (pyrolysis, etc.) and catalytic (transesterification) conversion processes [9]. Anaerobic digestion (AD) constitutes an attractive and effective method of waste treatment and conversion into biogas, in which both pollution mitigation and energy recovery can be achieved.…”

Section: Introductionmentioning

confidence: 99%

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Anaerobic Digestion of Lignocellulosic Waste Materials

Kamperidou

Terzopoulou

2021

Sustainability

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Nowadays, the climate mitigation policies of EU promote the energy production based on renewable resources. Anaerobic digestion (AD) constitutes a biochemical process that can convert lignocellulosic materials into biogas, used for chemical products isolation or energy production, in the form of electricity, heat or fuels. Such practices are accompanied by several economic, environmental and climatic benefits. The method of AD is an effective method of utilization of several different low-value and negative-cost highly available materials of residual character, such as the lignocellulosic wastes coming from forest, agricultural or marine biomass utilization processes, in order to convert them into directly usable energy. Lignin depolymerization remains a great challenge for the establishment of a full scale process for AD of lignin waste. This review analyzes the method of anaerobic digestion (biomethanation), summarizes the technology and standards involved, the progress achieved so far on the depolymerization/pre-treatment methods of lignocellulosic bio-wastes and the respective residual byproducts coming from industrial processes, aiming to their conversion into energy and the current attempts concerning the utilization of the produced biogas. Substrates’ mechanical, physical, thermal, chemical, and biological pretreatments or a combination of those before biogas production enhance the hydrolysis stage efficiency and, therefore, biogas generation. AD systems are immensely expanding globally, especially in Europe, meeting the high demands of humans for clean energy.

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Section: Ad Dynamics and Perspectivesmentioning

confidence: 99%

Section: Ad Process/technologymentioning

confidence: 99%

Section: Ad Process/technologymentioning

confidence: 99%

Section: Ad Process/technologymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Anaerobic Digestion of Lignocellulosic Waste Materials

Kamperidou

Terzopoulou

2021

Sustainability

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Catalytic Conversion of Cellulose to 5‐Hydroxymethylfurfural: Advancements in Heterogeneous Catalysts and Cutting‐Edge Hydrolysis Strategies

Rezayan,

Zhang,

et al. 2023

ChemCatChem

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The catalytic conversion of lignocellulose‐derived carbohydrates, particularly cellulose, into 5‐hydroxymethylfurfural (HMF), holds significant potential as a crucial step in the sustainable production of valuable platform chemicals. This review presents the remarkable progress made in the field, with a specific emphasis on the role of heterogeneous catalysts, innovative methods for accelerating cellulose hydrolysis, and the design of flow reactor technologies. The distinctive properties and surface functionalities of catalysts facilitate the efficient breakdown of cellulose's intricate structure, thereby promoting selective hydrolysis leading to HMF formation. Therefore, this review comprehensively examines various categories of heterogeneous catalysts, including metal oxides/phosphates, zeolites, functionalized silica/carbon‐based materials, heteropolyacids (HPAs), and metal‐organic frameworks (MOFs), highlighting their unique mechanisms and performance in cellulose conversion. Furthermore, the review describes the intriguing progress in hydrolysis strategies (pretreatment techniques and advanced heating systems) that have been crucially involved in overcoming the challenges associated with cellulose recalcitrance and achieving enhanced HMF yields. The synergistic interactions between catalysts and innovative hydrolysis methods have played a central role in the breakthroughs within cellulose conversion technology. Another aspect covered in this work is the advancement in using fixed‐/fluidized‐bed reactors and slug microreactors for the continuous production of HMF. Lastly, the current challenges and future perspectives are presented to propose the dilemma and development direction for efficient cellulose‐to‐HMF conversion.

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Spraying Characteristics of Alcohol‐Coal‐Water Slurries with Low Coal Content

et al. 2022

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The results of spraying characteristics of alcohol‐coal‐water slurries are presented. It has been experimentally proved that the lowest viscosity value of the studied slurries varies from 54 to 329 mPa s. The density value of alcohol‐coal‐water slurries decreases to 1130 kg m−3 when the content of isopropyl alcohol in the fuel composition is 8 wt %. The largest value of jet spraying angle corresponds to alcohol‐coal‐water fuel with an isopropyl alcohol content of 8 wt %. The number of sufficiently large droplets decreases in comparison with a typical two‐component coal‐water fuel. The calorific value of alcohol‐coal‐water slurries rises when the third liquid fuel component is introduced into the composition of coal‐water fuel.

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Next‐generation biofuels and platform biochemicals from lignocellulosic biomass

Cited by 95 publications

References 181 publications

Anaerobic Digestion of Lignocellulosic Waste Materials

Anaerobic Digestion of Lignocellulosic Waste Materials

Catalytic Conversion of Cellulose to 5‐Hydroxymethylfurfural: Advancements in Heterogeneous Catalysts and Cutting‐Edge Hydrolysis Strategies

Spraying Characteristics of Alcohol‐Coal‐Water Slurries with Low Coal Content

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