Jia Liu scite author profile

Abstract:The continued development of urban areas in recent decades has caused multiple issues affecting the sustainability of urban drainage systems. The increase of impervious surface areas in urban regions alters watershed hydrology and water quality. Typical impacts to downstream hydrologic regimes include higher peak flows and runoff volumes, shorter lag times, and reduced infiltration and base flow. Urban runoff increases the transport of pollutants and nutrients and thus degrades water bodies downstream from urban areas. One of the most frequently used practices to mitigate these impacts is bioretention. Despite its widespread use, research on bioretention systems remains active, particularly in terms of mix design and nitrogen treatment. Recent research focusing on bioretention is reviewed herein. The use of mesocosms provides the ability to isolate particular treatment processes and replicate variability. Computational models have been adapted and applied to simulate bioretention, offering potential improvements to their operation, maintenance, and design. Maintenance practices are important for sustained operation and have also been reviewed. Predicting maintenance is essential to assessing lifecycle costs. Within these research areas, gaps are explored, and recommendations made for future work.

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Highly Water‐Dispersible Biocompatible Magnetite Particles with Low Cytotoxicity Stabilized by Citrate Groups

Liu

et al. 2009

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Einheitliche Magnetit‐Partikel mit stabilisierenden Citratgruppen wurden in einer Hochtemperatur‐Solvothermalsynthese hergestellt. Die in Wasser dispergierbaren Partikel können leicht in Zellen eindringen, ohne diese zu zerstören, was für eine hervorragende Bioverträglichkeit spricht. Bei der Abtrennung von Peptiden wurde eine hohe Anreicherungsfähigkeit der Magnetit‐Partikel beobachtet.

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Tourism eco-efficiency of Chinese coastal cities – Analysis based on the DEA-Tobit model

Liu

Zhang

2017

Ocean & Coastal Management

146

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An experimental study of rill erosion and morphology

et al. 2015

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A Blockchain-Based Framework for Green Logistics in Supply Chains

et al. 2020

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The logistics industry around the world has proliferated over recent years as a large number of business organizations have come to recognize the importance of logistics. Cost control used to be emphasized to remain competitive, but recently green logistics has gained attention with the awareness of the integration of economy and society as a whole. Nowadays, green logistics is a useful concept to improve the sustainability of logistics operations, and its related policies and theoretical research have been investigated and explored. However, the practical applications of green logistics are impeded by real-time data sharing, which is common in the logistics industry. Blockchain technology is adopted to address this challenge and enable data sharing among related stakeholders. This paper presents a reference framework for green logistics based on blockchain to reach the sustainable operations of logistics, with the integration of the Internet of Things and big data. Finally, potential benefits and limitations are analyzed when implementing this framework.

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Jia Liu

Review and Research Needs of Bioretention Used for the Treatment of Urban Stormwater

Highly Water‐Dispersible Biocompatible Magnetite Particles with Low Cytotoxicity Stabilized by Citrate Groups

Tourism eco-efficiency of Chinese coastal cities – Analysis based on the DEA-Tobit model

An experimental study of rill erosion and morphology

A Blockchain-Based Framework for Green Logistics in Supply Chains

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