Your search keyword '"Wu, Xue"' showing total 5 results

1. Carbon emissions in the logistics industry: driving factors and decoupling effects

Author

Ding, Heping, Wu, Xue, Guo, Yuxia, and Liu, Conghu

Published

2024

2. A Novel MOWSO algorithm for Microgrid multi-objective optimal dispatch.

Author

HE, Yu-Ling, WU, Xue-Wei, SUN, Kai, LIU, Xiang-Yu, WANG, Hai-Peng, ZENG, Si-Ming, and ZHANG, Yi

Subjects

*METAHEURISTIC algorithms, *MICROGRIDS, *OPTIMIZATION algorithms, *PARETO distribution, *CARBON emissions, *ALGORITHMS

Abstract

• Microgrid optimal dispatch to reduce costs, carbon emissions and power fluctuation. • The multi-objective optimization algorithm based on war strategy. • Pareto frontier sort based on membership degree. • Reasonable allocation of new energy and energy storage. This article introduces a novel metaheuristic multi-objective optimization algorithm to address the complex multi-objective optimization scheduling challenges of the microgrids for the first time. Comparing with common multi-objective optimization algorithms, the proposed Multi-Objective War Strategy Optimization (MOWSO) has the following highlights: 1) MOWSO only needs to set three parameters. The few parameters make the algorithm simple to debug and real-world implement in practical applications. 2) MOWSO avoids the local centralized distribution of Pareto frontier based on a random selection strategy. The selection range of multiple objectives is expanded properly. In addition, a comprehensive multi-objective optimization dispatch model for microgrids is established, concurrently considering operating costs, carbon emissions, and power fluctuations. Furthermore, the impact of new energy proportion and Energy Storage (ES) on microgrid optimal dispatch is thoroughly investigated. Finally, a case study about a village microgrid in North China is presented to validate the effectiveness and the superiority of proposed multi-objective optimization dispatch model and novel MOWSO algorithm. [ABSTRACT FROM AUTHOR]

Published

2024

3. Amino-functionalized rare earth hexanuclear cluster based MOFs for CO2/CH4 separation.

Author

Song, Rui, Wu, Xue, Liu, Lin, and Han, Zhengbo

Subjects

*CARBON sequestration, *NATURAL gas pipelines, *GREENHOUSE gases, *SOLVENT extraction, *CARBON emissions, *NATURAL gas transportation, *NATURAL gas, *RARE earth oxides

Abstract

Herein, we synthesized three novel isomorphic materials, RE-BDC-NH 2 (RE = Sm, Y, Er), and compared their capacity to confirm the importance of pore size. Er-BDC-NH 2 was proved to be the best choice among them with a relatively high CO 2 adsorption capacity (91 cm3g−1) and CO 2 /CH 4 selectivity (15). [Display omitted] • Three 3D stable microporous amino-functionalized rare earth hexanuclear cluster based MOFs composed of tetrahedral cages and octahedral cages were synthesized. • They exhibit notable CO 2 gas adsorption performance, compared with CH 4. • They achieve the separation of CO 2 /CH 4 mixture gas with excellent selectivity and recyclability. Climate pollution and global warming caused by greenhouse gases have become one of our toughest environmental challenges. CO 2 capture and separation from natural gas can effectively reduce CO 2 emissions and improve energy efficiency, accordingly, it is a serious challenge faced by industrial separation and scientific research to effectively reduce the carbon dioxide concentration in natural gas pipeline transportation and achieve the acquisition of high-purity methane (>99.5 %). In this study, three stable hexanuclear microporous rare earth cluster-based MOFs (Sm-BDC-NH 2 , Er-BDC-NH 2 , Y-BDC-NH 2) were successfully synthesized. The selectivity of CO 2 /CH 4 was improved by the introduction of amino groups to achieve better CO 2 /CH 4 separation performance, which was proved by dynamic penetration experiments. [ABSTRACT FROM AUTHOR]

Published

2024

4. Mechanism insight into highly efficient stabilization of Cd contaminated soils by steam flash heating.

Author

Fan, Xiaolu, Wu, Xue, Li, Xueyan, Wu, Tianyun, Jiang, Bo, Xiong, Jing, Li, Fei, Li, Shupeng, Zheng, Lei, Wang, Xinzi, Yao, Linying, Zhang, Fang, and Zhang, Dayi

Subjects

*X-ray absorption near edge structure, *SOIL pollution, *HEAVY metals removal (Sewage purification), *CARBON emissions, *HEATING, *POTASSIUM

Abstract

Soil cadmium (Cd) contamination is a world-wide challenge and chemical stabilization is the most used remediation strategy. To solve the disadvantages of high stabilizer dosage and cost, we innovated a cost-efficient steam flash heating (SFH) approach to chemically immobilize Cd in contaminated soils, which introduced high-pressure saturated water vapor into soil microstructure, broke their binding with soil particles and accelerated Cd reactions with stabilizers by ultrafast pressure release. Using calcium dihydrogen phosphate, potassium hydrogen phosphate or calcium carbonate as stabilizer, Cd stabilization efficiency was 10.4%, 13.4% and 17.1% higher by SFH than conventional chemical stabilization, and the lowest Cd content in leachate was 0.61 mg/L. Additionally, SFH approach averagely reduced 50.1 ± 7.29% of stabilizer dosage, 34.1% of cost, and 29.9% of CO 2 emission. BCR sequential extraction results suggested that acid extractable Cd was preferentially transformed into residual Cd by SFH. Analysis of X-ray absorption near edge structure (XANES) documented that SFH treatment produced more stable Cd-minerals of Cd 3 (PO 4) 2 , CaCO 3 -Cd, and CdCO 3. Our findings proved the state-of-the-art SFH approach and uncovered its mechanisms to stabilize Cd in contaminated soils, offering a green and cost-efficient remediation alternative for heavy metal contaminated site management. [Display omitted] • Innovative steam flash heating for effective Cd immobilization. • SFH improves the molecular contact and mass transfer to accelerate Cd stabilization. • Higher cost-efficiency and lower energy consumption in steam flash heating. • Steam flash heating changes Cd immobilization mechanism evidenced by XANES. [ABSTRACT FROM AUTHOR]

Published

2024

5. How the urban morphology affects the suitable solar energy techniques and performance: A block-scale study based on the typological method in Macau.

Author

Yang, Ying, Hsieh, Chun-Ming, and Wu, Xue-Ying

Subjects

*ENERGY consumption, *URBAN morphology, *CARBON emissions, *SOLAR energy, *SOLAR air conditioning, *SOLAR technology, *CLIMATE change mitigation

Abstract

• Proposal of a method to construct typical generic block models using local datasets. • Urban form influences strategy of solar technology in low-carbon scenario. • Solar cooling contributes to carbon reduction in subtropical areas. • Technology and morphology design can overcome the high-density constraints. The use of solar energy in an urban context is essential for low-carbon urban development and global climate change mitigation. In this paper, the application of multiple solar energy techniques, namely, photovoltaic (PV), photothermal (PT), and photothermal-driven cooling (PC) techniques, in tropical Macau was investigated. Based on the typological method, sixty generic block typologies were formulated. A parametric workflow was constructed to facilitate block modelling and simulate energy consumption and solar radiation. The optimal technique strategy for each typology was identified under a low-carbon scenario. The energy and environmental performance levels of the blocks were evaluated by calculating and comparing the solar potentials, load matching conditions, primary energy consumption levels, and carbon dioxide emissions. The results indicated that the PT technique should be preferred for blocks with high floor area ratio (FAR) values, while the PV technique should be prioritized for blocks with low FAR values under the low-carbon scenario. Moreover, the PC technique is necessary in subtropical areas to reduce carbon emissions. In addition, it is suggested that solar energy should be adopted in blocks with high site coverage ratio (SC) and low surface area-to-volume ratio (SAV) values, as well as blocks with low FAR values. Regarding blocks constrained by high-density urban development, appropriate decisions on technology and morphological design could help to overcome constraints and realize low-carbon community targets. This study could provide suggestions for urban planners and building designers in the application of the urban solar potential at the early stages of urban design or urban regeneration. [ABSTRACT FROM AUTHOR]

Published

2024