Review
Environmental Sciences
Asma Musfira Shabbirahmed, Dibyajyoti Haldar, Pinaki Dey, Anil Kumar Patel, Reeta Rani Singhania, Cheng-Di Dong, Mihir Kumar Purkait
Summary: This article provides an in-depth review of environmentally acceptable thermochemical and biological pretreatment techniques for sugarcane bagasse (SB). It discusses the conversion processes for the formation of industrially relevant products, such as biofuels, bioplastics, and bio adsorbents, and provides insights into practical applications and scientific developments.
ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
(2022)
Article
Agricultural Engineering
Andre Aguiar, Thais Suzane Milessi, Daniella Regina Mulinari, Melina Savioli Lopes, Sirlene Maria da Costa, Rafael Garcia Candido
Summary: Sugarcane straw, accounting for one-third of the total sugarcane energy, has great potential for applications in energy generation and production of high-value bioproducts and biomaterials. Progress in processing sugarcane straw highlights the possibilities of obtaining valuable products and promoting environmental-friendly and cost-effective processes.
BIOMASS & BIOENERGY
(2021)
Review
Agricultural Engineering
Myung Won Seo, See Hoon Lee, Hyungseok Nam, Doyeon Lee, Diyar Tokmurzin, Shuang Wang, Young-Kwon Park
Summary: The study shows that replacing biological processes with thermochemical conversion processes in biorefineries is feasible, easy, and effective. Challenges in thermochemical conversion processes were also identified, and the potential of artificial intelligence and machine learning for bio-oil and syngas production processes was highlighted.
BIORESOURCE TECHNOLOGY
(2022)
Review
Energy & Fuels
Jude A. Okolie, Alivia Mukherjee, Sonil Nanda, Ajay K. Dalai, Janusz A. Kozinski
Summary: Rapid industrialization, increasing fuel prices, exhausting fossil fuel resources and greenhouse gas emissions have led to a search for alternative energy sources. Lignocellulose biomass-derived biofuels and biochemicals offer clean solutions, utilizing renewable and abundant resources. Various conversion technologies can be used to produce fuel and chemicals from lignocellulosic biomass, and this review covers a wide range of biofuels and value-added biochemicals, discussing current status, challenges, and future perspectives in their production and utilization.
INTERNATIONAL JOURNAL OF ENERGY RESEARCH
(2021)
Article
Agricultural Engineering
V. C. Deivayanai, P. R. Yaashikaa, P. Senthil Kumar, Gayathri Rangasamy
Summary: Pretreatment of lignocellulosic biomass is crucial for sustainable energy production, and this review provides various pretreatment strategies and summarizes the research on converting lignocellulosic biomass to hydrogen, including operational conditions and enhancement methods.
BIORESOURCE TECHNOLOGY
(2022)
Review
Agricultural Engineering
A. Saravanan, P. Senthil Kumar, S. Jeevanantham, S. Karishma, Dai-Viet N. Vo
Summary: The conversion of biomass into biofuels is an innovative approach to address environmental pollution and reduce carbon emissions. Lignocellulosic biomass has attracted researchers around the world as a main feedstock for biofuel production, with various pretreatment methods being widely used to enhance hydrolysis rate and accessibility.
BIORESOURCE TECHNOLOGY
(2022)
Review
Engineering, Environmental
Charles B. Felix, Wei-Hsin Chen, Aristotle T. Ubando, Young-Kwon Park, Kun-Yi Andrew Lin, Arivalagan Pugazhendhi, Thanh-Binh Nguyen, Cheng-Di Dong
Summary: This review highlights the benefits of using thermogravimetry for biomass gasification, focusing on the determination of kinetic parameters and other relevant gasification parameters. The future trends may involve blending different biomass feedstocks and implementing artificial intelligence for improved gasifier designs and data processing.
CHEMICAL ENGINEERING JOURNAL
(2022)
Article
Energy & Fuels
Meicen Liu, Jameson Hunter, Jian Shi, Yi Zheng
Summary: Bioleaching is an effective pretreatment method for removing inorganic elements from lignocellulosic biomass, especially K, Ca, and Mg. It was found that bioleaching greatly improved the removal rates of K, Ca, and Mg, while Ca was precipitated by oxalic acid produced by the fungus.
Review
Green & Sustainable Science & Technology
Nicolas M. Clauser, Giselle Gonzalez, Carolina M. Mendieta, Julia Kruyeniski, Maria C. Area, Maria E. Vallejos
Summary: Sustainable development is the common goal of bioeconomy and circular economy, with biorefinery platforms playing a strategic role in enhancing the bioeconomy. Utilizing renewable sources for fuel, chemicals, and energy production promotes sustainability, reduces greenhouse gas emissions, and creates manufacturing jobs, ultimately advancing regional and social systems. Through the implementation of biorefineries and low environmental impact technologies, new sustainable production strategies for biofuels and energy can be established, making biobased industries more competitive and improving current value chains.
Review
Chemistry, Physical
Margarita Rodionova, Ayshat M. Bozieva, Sergey K. Zharmukhamedov, Yoong Kit Leong, John Chi-Wei Lan, Ayfer Veziroglu, T. Nejat Veziroglu, Tatsuya Tomo, Jo-Shu Chang, Suleyman Allakhverdiev
Summary: This review provides an overview of the principles, applications, and engineering perspectives of LC biomass biorefinery, focusing on thermochemical and biochemical processes for potential biofuel applications.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
(2022)
Review
Green & Sustainable Science & Technology
Y. A. Reyes, M. Perez, E. L. Barrera, Y. Martinez, K. K. Cheng
Summary: This study critically reviews the thermochemical conversion processes of the invasive tree species Dichrostachys cinerea (marabou) as a high-quality biomass for sustainable biofuel production. Biomass gasification is identified as the most promising technology for small-scale applications in rural areas. The study also emphasizes the sustainable use of invasive tree species as an energy resource, providing income and investment opportunities in developing countries and isolated regions.
RENEWABLE & SUSTAINABLE ENERGY REVIEWS
(2022)
Review
Agricultural Engineering
Aban Sakheta, Richi Nayak, Ian O'Hara, Jerome Ramirez
Summary: This paper provides an overview of the current state of the art in modelling thermochemical conversion of lignocellulosic biomass. It emphasizes the recent advances in artificial intelligence (AI)-based modelling and explores the applications of simulation and AI in process modelling. The review shows that AI-based models offer higher accuracy compared to thermodynamic equilibrium modelling.
BIORESOURCE TECHNOLOGY
(2023)
Article
Energy & Fuels
Ana d'Espiney, Helena M. Pinheiro, Isabel P. Marques, Joerg Kretzschmar, Karl-Friedrich Cyffka, Daniela Thraen
Summary: Bioenergy research aims to uncover the potentials of biological residues and improve the use of local resources and decisions to combat climate change. This study develops a methodology to assess regional biomass and bioenergy potentials, considering theoretical framework, quantification methods, and necessary parameters. The case study in Lafoes, Portugal illustrates the application of this method, resulting in three bioresidue categories and two bioenergy conversion routes. The biochemical route shows higher technical energy potential and possibly better environmental and economic performances.
BIOMASS CONVERSION AND BIOREFINERY
(2023)
Article
Agricultural Engineering
Christopher Nzediegwu, M. Anne Naeth, Scott X. Chang
Summary: The HTC process can convert wet/dry biomass into hydrochars for various applications, with the temperature playing a significant role in the properties of the hydrochars. Lignocellulosic and non-lignocellulosic feedstocks exhibit different behaviors under varying HTC temperatures.
BIORESOURCE TECHNOLOGY
(2021)
Review
Green & Sustainable Science & Technology
R. Andler, C. Valdes, V. Urtuvia, C. Andreessen, A. Diaz-Barrera
Summary: Fruit residues have the potential to be a sustainable substrate for PHA production, offering benefits such as simple processing, high fermentable sugar content, and non-competition with food crops. With proper optimization, integrating fruit residues into PHA production processes can lead to a more eco-friendly and circular bioeconomy transformation in the industry.
JOURNAL OF CLEANER PRODUCTION
(2021)
Article
Agricultural Engineering
Jiawei Fu, Jingyong Liu, Weijie Xu, Zhibin Chen, Fatih Evrendilek, Shuiyu Sun
Summary: The study demonstrates that torrefaction pretreatment can improve the efficiency of coffee grounds pyrolysis, decrease activation energy, and promote the generation of C=C. The optimal conditions are pyrolysis temperature > 600 degrees C and torrefaction temperature <= 270 degrees C. Different torrefaction temperatures have an impact on the composition ratio of bio-oils, with 200 and 250 degrees C potentially being more suitable for the torrefaction of coffee grounds.
BIORESOURCE TECHNOLOGY
(2022)
Article
Engineering, Environmental
Xiaojie Tang, Xi Chen, Yao He, Fatih Evrendilek, Zhiyun Chen, Jingyong Liu
Summary: The study compared the co-pyrolysis of textile dyeing sludge and waste shared bike tires, finding that co-pyrolysis can reduce waste emissions and recover valuable oils and chars, with TP55 showing the best performance.
CHEMICAL ENGINEERING JOURNAL
(2022)
Article
Green & Sustainable Science & Technology
Zhiyun Chen, Jingyong Liu, Huashan Chen, Ziyi Ding, Xiaojie Tang, Fatih Evrendilek
Summary: This study investigated the combustion performance and mechanism of Chinese medicine residues in different atmospheres. The results showed that Chinese medicine residues performed better in air atmosphere than in oxy-fuel atmosphere, with the increasing oxygen fraction improving oxy-fuel combustion performance. The ash composition in oxy-fuel atmosphere mainly consisted of calcium carbonate and calcium hydroxyphosphate.
Article
Environmental Sciences
Xieyuan Wu, Jingyong Liu, Zebin Wei, Zihong Chen, Fatih Evrendilek, Wenxiao Huang
Summary: This study investigates the co-combustion characteristics of Sedum alfredii Hance biomass and textile dyeing sludge, and finds that oxy-fuel atmosphere can effectively reduce waste emissions. The research provides practical insights for sustainable waste-to-energy conversion.
SCIENCE OF THE TOTAL ENVIRONMENT
(2022)
Article
Energy & Fuels
Jinwen Hu, Yueyao Song, Jingyong Liu, Fatih Evrendilek, Gang Zhang, Mingzhong Ren, Wuming Xie, Shuiyu Sun
Summary: The emission-to-ash desulfurization and full waste circularity can be improved by selecting the appropriate wastes and operational conditions. This study proposes a new combination of textile dyeing sludge (TDS), bamboo residues (BR), torrefaction, and oxy-fuel atmosphere to enhance co-combustion performance and reduce SO2 emissions. The findings provide practical insights into sustainable, efficient, and clean co-combustion and energy utilization.
Article
Engineering, Environmental
Ziyi Ding, Zihong Chen, Jingyong Liu, Fatih Evrendilek, Yao He, Wuming Xie
Summary: The co-combustion of waste plastics and textile dyeing sludge can enhance circular economies, energy recovery, and pollution control. The interaction between plastics and TDS optimized combustion effects, releasing more CO2 but reducing emissions of CH4, C-H, and C-O.
JOURNAL OF HAZARDOUS MATERIALS
(2022)
Article
Green & Sustainable Science & Technology
Hongyi Huang, Jingyong Liu, Hui Liu, Fatih Evrendilek, Gang Zhang, Yao He
Summary: This study explored the co-combustion performance of textile dyeing sludge and waste biochar and found a synergy effect between them at temperatures ranging from 530 to 700 degrees Celsius. Adding 40% waste biochar reduced SO2 emission but increased NO emission. The addition of waste biochar also inhibited the formation of certain pollutants while promoting the decomposition of others. There were also changes in the main mineral phases of the bottom slags.
Article
Environmental Sciences
Huihuang Zou, Shengzheng Huang, Mingzhong Ren, Jingyong Liu, Fatih Evrendilek, Wuming Xie, Gang Zhang
Summary: This study aimed to investigate the co-pyrolytic synergistic effects of textile dyeing sludge (TDS) and waste biochar (WBC) for optimal resource utilization and environmental mitigation. Results showed a strong synergistic effect between TDS and WBC in the presence of CO2, particularly between 800 and 900 degrees C. Increasing the TDS fraction led to a significant reduction in NH3 emissions. Co-pyrolysis transformed certain harmful compounds into more stable forms and inhibited the formation of S-containing compounds.
SCIENCE OF THE TOTAL ENVIRONMENT
(2022)
Article
Environmental Sciences
Mehmet Aydin, Fatih Evrendilek, Ismail Erkan Aydin, Seckin Aydin Savas, Deniz Eren Evrendilek
Summary: This study estimated the transport dynamics of SARS-CoV-2-laden droplets with diameters ranging from 1 to 500 μm at wind speeds from 1 to 4 m/s. The study found that the size of the droplet, wind speed, and falling time influenced the transport distance of the virus. Smaller droplets evaporated and settled faster than larger ones, and larger droplets did not remain suspended in the air under windy conditions.
AIR QUALITY ATMOSPHERE AND HEALTH
(2022)
Article
Environmental Sciences
Akif Ari, Pelin Erturk Ari, Soner Ozenc Ilhan, Eftade O. Gaga
Summary: This study aimed to investigate the potential health risks of VOC inhalation for agricultural workers using handheld two-stroke gasoline engines. The results showed higher concentrations of certain VOCs in personal samples collected from machine operators. The estimated carcinogenic risks were within acceptable levels for all workers. However, shaker machine operators may face potential noncarcinogenic health hazards in both acute and chronic exposure scenarios.
ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
(2022)
Article
Engineering, Environmental
Xieyuan Wu, Zhiliang Chen, Jingyong Liu, Zebin Wei, Zihong Chen, Fatih Evrendilek, Shuiyu Sun, Zhibin Chen
Summary: This study investigates the enrichment rates and speciation distributions of Zn and Cd, as well as the behaviors of Cl and S, during the co-combustion of a hyperaccumulator of Zn and Cd and textile dyeing sludge. The study reveals that temperature and atmosphere changes affect the transformations of Zn and Cd, and Cl and S indirectly affect the migrations of Zn and Cd. The study also proposes optimal settings for stabilizing Zn and Cd with an acceptable risk.
CHEMICAL ENGINEERING JOURNAL
(2023)
Article
Green & Sustainable Science & Technology
Junhui Zhang, Jiacong Chen, Jingyong Liu, Fatih Evrendilek, Gang Zhang, Zhibin Chen, Shengzheng Huang, Shuiyu Sun
Summary: The co-combustion of textile dyeing sludge (TDS) and cattle manure (CM) can enhance resource circularity and pollution control. However, the migration and transformation behaviors of ashes during this process are still unclear. This study used thermogravimetric experiments and thermodynamic simulations to investigate the transformation and migration of co-combustion ashes and the interactions involved. The addition of TDS increased the environmental safety of Ni and Cr by transforming them from extractable form to stable form. P dominated S in the reaction with Ca, promoting the emission of S-containing gases and the generation of apatite P. The reactions between minerals in CM and Ca in TDS resulted in the formation of calcium silicate, reducing the S-fixation ability of Ca and increasing the emission of S-containing gases. These findings provide insights into the interactions among minerals, heavy metals, and specific elements, and their impact on pollutant emissions, thus enhancing pollution control strategies.
JOURNAL OF CLEANER PRODUCTION
(2023)
Article
Environmental Sciences
Zhibin Chen, Zhiliang Chen, Jingyong Liu, Ping Zhuang, Fatih Evrendilek, Shengzheng Huang, Tao Chen, Wuming Xie, Yao He, Shuiyu Sun
Summary: This study investigated the co-combustion of aboveground and belowground biomass of Pfaffia glomerata with pulverized coal. The results showed that the mixtures of 30% aboveground biomass and 70% coal and 10% belowground biomass and 90% coal exhibited the strongest co-combustion synergy, reducing dependence on fossil fuels and stabilizing heavy metals in ash.
SCIENCE OF THE TOTAL ENVIRONMENT
(2023)
Article
Energy & Fuels
Jiawei Fu, Xijian Wu, Jingyong Liu, Fatih Evrendilek, Tao Chen, Wuming Xie, Weijie Xu, Yao He
Summary: Co-pyrolysis of spent coffee grounds and polyethylene can reduce waste streams and pollution, while valorizing energy and by-products. The co-pyrolysis performance is influenced by temperature and blend ratio. The study revealed that co-pyrolysis consists of two stages, the degradation of spent coffee grounds followed by the depolymerization of polyethylene and lignin. The products of co-pyrolysis include a variety of oxygen-containing compounds, and CP73 showed the highest yields of hydrocarbons and alcohols, beneficial for further utilization.
Article
Engineering, Environmental
Shengzheng Huang, Jingyong Liu, Siqi Chen, Jin Wang, Zhibin Chen, Fatih Evrendilek, Tao Chen, Wenxiao Huang, Wuming Xie, Shuiyu Sun
Summary: This study explores the effects of HCl and H3PO4 pretreatment on the physi-chemical properties and decomposition characteristics of an As-hyperaccumulator. The results show that HCl pretreatment retains the main components of the hyperaccumulator while introducing Cl to the carbon chain, while H3PO4 pretreatment destroys the carbon chain and removes more organics and minerals. HCl pretreatment improves the pyrolysis efficiency, while H3PO4 pretreatment decreases leaching of heavy metals. These findings provide valuable insights for the management and utilization of post-harvest hyperaccumulators.
CHEMICAL ENGINEERING JOURNAL
(2023)
Article
Agricultural Engineering
Yinping Xiang, Meiying Jia, Rui Xu, Jialu Xu, Lele He, Haihao Peng, Weimin Sun, Dongbo Wang, Weiping Xiong, Zhaohui Yang
Summary: This study investigated the impact of the non-antibiotic pharmaceutical carbamazepine on antibiotic resistance genes (ARGs) during anaerobic digestion. The results showed that carbamazepine induced the enrichment of ARGs and increased the abundance of bacteria carrying these genes. It also facilitated microbial aggregation and intercellular communication, leading to an increased frequency of ARGs transmission. Moreover, carbamazepine promoted the acquisition of ARGs by pathogens and elevated their overall abundance.
BIORESOURCE TECHNOLOGY
(2024)
Review
Agricultural Engineering
Weixin Zhao, Tianyi Hu, Hao Ma, Dan Li, Qingliang Zhao, Junqiu Jiang, Liangliang Wei
Summary: This review summarizes the effects and potential mechanisms of biochar on microbial behavior in AD systems. The addition of biochar has been found to promote microbial colonization, alleviate stress, provide nutrients, and enhance enzyme activity. Future research directions include targeted design of biochar, in-depth study of microbial mechanisms, and improved models.
BIORESOURCE TECHNOLOGY
(2024)
Review
Agricultural Engineering
Christina Karmann, Anna Magrova, Pavel Jenicek, Jan Bartacek, Vojtech Kouba
Summary: This review assesses nitrogen removal technologies in reject water treatment, highlighting the differences in environmental impacts and economic benefits. Partial nitritation-anammox shows potential for economic benefits and positive environmental outcomes when operated and controlled properly.
BIORESOURCE TECHNOLOGY
(2024)
Article
Agricultural Engineering
Wei-Hao Huang, Ying-Ju Chang, Duu-Jong Lee
Summary: This study modified pinecone biochar with layered double hydroxide (LDH) to enhance its adsorption capacity for heavy metal and phosphate ions. The LDH-biochar showed significantly improved adsorption capacities for Pb2+ and phosphate, and a slight increase for Cu2+ and Co2+. The LDH layer enhanced the adsorption through various mechanisms.
BIORESOURCE TECHNOLOGY
(2024)
Article
Agricultural Engineering
Chao Song, Fanfan Cai, Shuang Yang, Ligong Wang, Guangqing Liu, Chang Chen
Summary: This paper developed a machine learning model to predict the biochemical methane potential during anaerobic digestion. Model analysis identified lignin content, organic loading, and nitrogen content as key attributes for methane production prediction. For feedstocks with high cellulose content, early methane production is lower but can be improved by prolonging digestion time. Moreover, lignin content exceeding a certain value significantly inhibits methane production.
BIORESOURCE TECHNOLOGY
(2024)
Article
Agricultural Engineering
Sang Min Lee, Ju Young Lee, Ji-Sook Hahn, Seung-Ho Baek
Summary: This study successfully developed an efficient platform strain using Yarrowia lipolytica for the bioconversion of renewable resources into adipic acid, achieving a remarkable increase in production level.
BIORESOURCE TECHNOLOGY
(2024)
Article
Agricultural Engineering
Sefkan Kendir, Matthias Franzreb
Summary: This study presents a novel approach using magnetic separation to efficiently harvest freshwater microalgae, Chlorella vulgaris. By combining pH-induced calcium phosphate precipitation with cheap natural magnetite microparticles, harvesting efficiencies up to 98% were achieved in the model medium.
BIORESOURCE TECHNOLOGY
(2024)
Article
Agricultural Engineering
Ishaq Kariim, Ji-Yeon Park, Wajahat Waheed Kazmi, Hulda Swai, In-Gu Lee, Thomas Kivevele
Summary: The impact of reaction temperature, residence time, and ethanol: acetone on the energy compositions and yield enhancement of biocrudes was investigated. The results showed that under appropriate conditions, biocrudes with high energy and low oxygen content can be obtained, indicating a high potential for utilization.
BIORESOURCE TECHNOLOGY
(2024)
Article
Agricultural Engineering
Xiyue Zhang, Xiyao Li, Liang Zhang, Yongzhen Peng
Summary: Intermittent aeration is an innovative approach to enhance nitrogen removal in low carbon-to-nitrogen ratio municipal sewage, providing an efficient strategy for the continuous plug-flow AOA process.
BIORESOURCE TECHNOLOGY
(2024)
Article
Agricultural Engineering
Xu Yang, Mahmoud Mazarji, Mengtong Li, Aohua Li, Ronghua Li, Zengqiang Zhang, Junting Pan
Summary: This study investigated the impact of magnetite on the nitrogen cycle of pig manure biostabilisation. The addition of magnetite increased N2O emissions and decreased NH3 emissions during composting. It also increased the total nitrogen content but should be considered for its significant increase in N2O emissions in engineering practice.
BIORESOURCE TECHNOLOGY
(2024)
Review
Agricultural Engineering
Ty Shitanaka, Haylee Fujioka, Muzammil Khan, Manpreet Kaur, Zhi-Yan Du, Samir Kumar Khanal
Summary: The market value of microalgae has exponentially increased in the past two decades, thanks to their applications in various industries. However, the supply of high-value microalgal bioproducts is limited due to several factors, and strategies are being explored to overcome these limitations and improve microalgae production, thus increasing the availability of algal-derived bioproducts in the market.
BIORESOURCE TECHNOLOGY
(2024)
Article
Agricultural Engineering
Martin Kerner, Thorsten Wolff, Torsten Brinkmann
Summary: The efficiency of using enriched CO2 from flue gas for large-scale production of green microalgae has been studied. The results show that the use of membrane devices and static mixers can effectively improve the CO2 recovery rate and maintain the suitable pH and temperature during cultivation, achieving a more economical and sustainable microalgae production.
BIORESOURCE TECHNOLOGY
(2024)
Article
Agricultural Engineering
Rui Ma, Ji Li, Rd Tyagi, Xiaolei Zhang
Summary: This review summarizes the microorganisms capable of using CO2 and CH4 to produce PHAs, illustrating the production process, factors influencing it, and discussing optimization techniques. It identifies the challenges and future prospects for developing economically viable PHAs production using GHGs as a carbon source.
BIORESOURCE TECHNOLOGY
(2024)
Article
Agricultural Engineering
Bing Wang, Peng Zhang, Xu Guo, Xu Bao, Junjie Tian, Guomin Li, Jian Zhang
Summary: The addition of zeolite in the co-composting of chicken manure and straw significantly reduced the emissions of ammonia and N2O, and increased the nitrate content. Zeolite also promoted the abundance of nitrification genes and inhibited the expression of denitrification genes.
BIORESOURCE TECHNOLOGY
(2024)
Article
Agricultural Engineering
Rohit Dey, Franziska Ortiz Tena, Song Wang, Josef Martin Messmann, Christian Steinweg, Claudia Thomsen, Clemens Posten, Stefan Leu, Matthias S. Ullrich, Laurenz Thomsen
Summary: This study investigated the operation of a 1000L microalgae-based membrane photobioreactor system for continuous secondary wastewater treatment. The research focused on a green microalgae strain called Desmodesmus sp. The study aimed to understand key trends and optimization strategies by conducting experiments in both summer and winter seasons. The findings showed that maintaining low cell concentrations during periods of light inhibition was beneficial for nutrient uptake rates. Effective strategies for enhancing algae-based wastewater treatment included cell mass recycling and adjusting dilution rates based on light availability.
BIORESOURCE TECHNOLOGY
(2024)