Review
Energy & Fuels
Lina Patricia Vega, Karen Tatiana Bautista, Heliana Campos, Sebastian Daza, Guillermo Vargas
Summary: This article focuses on the current situation of biofuel production and research development in Latin American countries such as Argentina, Brazil, Mexico, Chile, Costa Rica, and Colombia. Brazil stands out as a leader in the region, making significant advancements in clean energy production through biofuels policy implementation. The review highlights the challenges these countries face in utilizing their comparative advantages for biofuel production.
Article
Energy & Fuels
Hobyung Chae, Sangmu Bae, Jae-Weon Jeong, Yujin Nam
Summary: Thermoelectric generators (TEGs) utilize temperature differences to produce electricity and have potential for various industrial applications. This study introduces an advanced technique that utilizes temperature gradients in water pipes to increase power generation, with efficient modulation of output power through flow control. The feasibility evaluation in residential settings shows that TEGs can generate 10.95 kWh of electricity per unit, and to achieve zero-energy buildings, 64.5 m2 of TEG deployment is required per unit given a zT value of 1.
Article
Energy & Fuels
Majid Ahmed Mohammed, Bashar Mahmood Ali, Khalil Farhan Yassin, Obed Majeed Ali, Omar Rafae Alomar
Summary: This study compares the effects of different phase change materials on the performance of solar panels. The experiment shows that the use of beeswax can lower the temperature of the panel and increase the efficiency of the photovoltaic system.
Article
Energy & Fuels
Iraj Faraji Davoudkhani, Mahmoud Rerza Shakarami, Almoataz Y. Abdelaziz, Adel El-Shahat
Summary: This paper presents an optimization-based method for designing a wide-area damping controller (WADC) based on remote signals to improve the damping of inter-area oscillations by considering the time delays. The grey wolf optimization (GWO) algorithm is utilized to solve the optimization problem, and simulations and statistical results demonstrate the superiority of the proposed method.
Article
Energy & Fuels
Mokhtar Benasla, Imane Boukhatem, Tayeb Allaoui, Abderrahmane Berkani, Petr Korba, Felix Rafael Segundo Sevilla, Mohamed Belfedel
Summary: The idea of exporting dispatchable solar electricity from the North African region to Europe is still being discussed. This paper focuses on the potential of Algeria as a supplier and analyzes possible import corridors and barriers.
Article
Energy & Fuels
Yanzi Jia, Anpeng Hu, Dawei Hu, Mingfeng Li, Huifeng Li, Qinghe Yang, Zhiwei Liu, Zhicai Shao, Shuangqin Zeng, Xinqiang Zhao, Yifan Wang
Summary: By strengthening metal-support interaction (MSI) and metal dispersion, a catalyst with high activity and long-term stability was designed. The impacts of pseudo-boehmite and catalyst calcination temperature on surface properties were thoroughly investigated.
Article
Energy & Fuels
Mahmoud A. S. Sakr, W. Osman, Omar H. Abd-Elkader, Hazem Abdelsalam, Qinfang Zhang
Summary: In this study, the properties of finite single walled TiO2 nanotubes and the effects of doping with various atoms on their electronic and optical properties were investigated using density functional theory calculations. The study also explored the impact of doping on the UV-Vis absorption spectra of TiO2 nanotubes. Additionally, the adsorption properties of TiO2 nanotubes for H-2 molecules were studied, and it was found that doping with carbon or silicon atoms can significantly enhance the adsorption energy, making doped TiO2 nanotubes potential efficient hydrogen storage devices.
Article
Energy & Fuels
Rujie Wang, Cairao Qi, Zheng Jian, Huajun Zhao, Pan Zhang, Shanlong An, Qiangwei Li, Lidong Wang
Summary: A dual-functionalized ionic liquid with high CO2 adsorption capacity and excellent regeneration energy has been synthesized by facile neutralizing method, showing promising potential in carbon capture.
Article
Energy & Fuels
Jiajia Zhao, Shixiang Tian, Quanle Zou, Honggao Xie, Qican Ran, Tengfei Ma, Xuan Zhang
Summary: This study investigates the influence of SiO2-H2O nanofluids on the wettability of coal dust and presents substantial improvement in the wettability when treated with nanofluids. SiO2 nanoparticles with high surface energy and adsorption characteristics enhance the wettability by forming aggregates on the surface of coal dust. The research holds significant theoretical and practical importance for managing dust in coal mines.
Article
Energy & Fuels
Zhengpeng Chen, Jiajia Wang, Mingfei Li, Jiangbo Dong, Renci Xu, Jinsong Cheng, Kai Xiong, Mumin Rao, Chuangting Chen, Chenjin Shen, Xiaowei Li, Yihan Ling
Summary: The development of CO2 electrolysis using symmetric solid oxide electrolytic cells requires the identification of electrode materials with high catalytic activity and stability. In this study, a high entropy perovskite electrode material LPSSCFN was designed and synthesized, which exhibited higher stability and chemical compatibility in the CO2 atmosphere compared to SSFN. Symmetric cells with LPSSCFN-GDC electrode showed higher electrolytic current density and excellent long-term stability compared to those with SSFN-GDC electrode.
Article
Energy & Fuels
Ashutosh Rawat, Sonu Dhakla, Samir K. Maity, Prem Lama
Summary: This study provides a deep insight into the efficient hydroprocessing of crude oil using oil soluble MoS2 catalysts. The results show that the oil soluble MoS2 catalysts exhibit better hydroprocessing activity and can increase the lighter and more valuable fractions in the crude oil. Additionally, the analysis of solid coke formation provides insights into the coke formation mechanism.
Article
Energy & Fuels
Theodoros Papalas, Evangelos Palamas, Andy N. Antzaras, Angeliki A. Lemonidou
Summary: This study successfully synthesized bimetallic Ni-Co oxygen carriers with ZrO2 as a structure stabilizer using a one-pot sol-gel auto-combustion method. The redox properties and catalytic activity of the reduced state were evaluated, showing that the reduced bimetallic materials exhibited higher reforming activity and stability compared to monometallic materials, with Co addition promoting the oxidation kinetics.
Article
Energy & Fuels
Zhigang Zhao, Weiguo Kong, Xiaoyong Zhang, Mingzhi Liu, Ping Cui
Summary: The study investigated the use of a disposable Ca-containing catalyst generated from calcium-rich construction demolition waste in the steam gasification of bituminous coal. It was found that increasing the catalyst loading amount significantly improved the molar yields of H2 and CO, with kneading method being an effective loading technique.
Article
Energy & Fuels
Dmitry A. Sukhorukov, Roman G. Kukushkin, Maria V. Alekseeva (Bykova), Olga A. Bulavchenko, Olesya O. Zaikina, Mikhail E. Revyakin, Maxim O. Kazakov, Vadim A. Yakovlev
Summary: This paper focuses on upgrading sewage sludge-derived pyrolysis oil through hydrotreatment using catalysts. The results show that effective heteroatom removal can be achieved, especially with the NiMoPS/Al2O3 catalyst at 400 degrees C. Additionally, the catalysts used in the process accumulate certain impurities, indicating the importance of selecting appropriate catalysts and construction materials for further study.
Article
Energy & Fuels
Ricardo Novella, Antonio Garcia, Josep Gomez-Soriano, Alvaro Fogue-Robles
Summary: In response to the existing political environment and concerns about climate change, strict regulations on traditional propulsion systems reliant on fossil fuels have been imposed. This study evaluates the potential of substituting EGR dilution with a water injection system for full load operation on a conventional diesel engine and compares it with EGR. The results show that water injection significantly reduces boost pressure requirements while achieving similar engine efficiency and reducing NOx emissions by around 80%.
Article
Energy & Fuels
Wenfeng Fu, Kanghai Yu, Hao Song, Kai Zhang, Weijie Yang
Summary: A new descriptor was proposed in this study to accelerate the evaluation of different amine pairings and successfully establish a relationship between hydrogen bond strength and reaction energy barrier, providing theoretical guidance for the design of mixed amines.
Article
Energy & Fuels
Qing-qing Sun, Hui-yong Niu, Hai-yan Wang, Yan-xiao Yang, Si-wei Sun
Summary: This study investigates the effects of water immersion on the macrostructure and microgroup of lignite. The results show that water immersion leads to changes in the pore structure and enhanced adsorption capacity of coal. The highest content of active functional groups is observed in samples immersed in water for 90-120 days.
Article
Energy & Fuels
Xiaolong Tang, Chaosheng Liao, Shufeng Zhou, Cheng Chen, Lin Li, Xiaokang Huang, Mingjie Zhang, Chao Chen, Ping Li
Summary: This study aimed to investigate the mechanism of microbial roles during anaerobic storage of forages for biogas production. The results showed that the use of yeast-contained inoculants increased biogas production in perennial sorghum. As the proportion of yeast in the inoculant increased, the content of organic acids significantly increased. Additionally, the equal application of yeast and lactic acid bacteria altered the relative abundance of microorganisms and inhibited the growth of some harmful fungi.
Article
Energy & Fuels
Yuzhi Liu, Chang Deng, Peiwen Wu, Hui Liu, Feng Liu, Ruoyu Liu, Wenshuai Zhu, Chunming Xu
Summary: In this study, a high-entropy zeolitic imidazolate framework (HE-ZIF) was synthesized and utilized in an oxidative desulfurization system (ODS) for diesel fuel. The HE-ZIF demonstrated efficient desulfurization and the production of high-value products, enhancing the overall sustainability of the process.
Article
Energy & Fuels
Kaimin Liu, Zhongwen Pei, Hanqian Yang, Jing Yang, Yangtao Li, Xiaopeng Feng
Summary: The addition of hydrogen to liquid methane gas engines is seen as a promising way to improve their performance. However, current studies are limited to a few operating points. In this study, the effects of hydrogen addition on emissions, combustion, and performance of a liquid methane gas engine are comprehensively investigated under all operating conditions. The results show that increasing the hydrogen energy share improves the brake thermal efficiency and reduces fuel consumption and emissions. However, it is important to control the proportion of hydrogen addition to avoid excessive nitrogen oxide emissions.