Jiajia Qi scite author profile

To assess the relative contributions of traffic emission and other potential sources to high levels of atmospheric ammonia (NH) in urban areas in the wintertime, atmospheric NH and related pollutants were measured at an urban site, ∼300 m from a major traffic road, in northern China in November and December 2015. Hourly average NH varied from 0.3 to 10.8 ppb with an average of 2.4 ppb during the campaign. Contrary to the common perspective in literature, traffic emission was demonstrated to be a negligible contributor to atmospheric NH. Atmospheric NH correlated well with ambient water vapor during many time periods lasting from tens of hours to several days, implying NH released from water evaporation is an important source. Emissions from local green space inside the urban areas were identified to significantly contribute to the observed atmospheric NH during ∼60% of the sampling times. Evaporation of predeposited NH through wet precipitation combined with emissions from local green space likely caused the spikes of atmospheric NH mostly occurring 1-4 h after morning rush hours or after and during slight shower events. There are still ∼30% of the data samples with appreciable NH level for which major contributors are yet to be identified.

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Ensemble Control of Time-Invariant Linear Systems with Linear Parameter Variation

2016

IEEE Trans. Automat. Contr.

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In this paper, we study the control of a class of time-invariant linear ensemble systems whose natural dynamics are linear in the system parameter. This class of ensemble control systems arises from practical engineering and physical applications, such as transport of quantum particles and control of uncertain harmonic systems. We establish explicit algebraic criterions to examine controllability of such ensemble systems. Our derivation is based on the notion of polynomial approximation, where the elements of the reachable set of the ensemble system are represented in polynomials of the system parameter and used to approximate the desired state of interest. In addition, we highlight the role of the spectra of the system matrices play in the determination of ensemble controllability. Finally, illustrative examples and numerical simulations for optimal control of this class of linear ensemble systems are presented to demonstrate the theoretical results.

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A multifunctional supramolecular hydrogel for infected wound healing

Ding

Zou

et al. 2022

Biomater. Sci.

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Honeycomb-like amorphous VPO4/C spheres with improved sodium storage performance as anode materials for sodium-ion batteries

Yan

Zhang

et al. 2020

Ionics

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Jiajia Qi

Identification of Major Sources of Atmospheric NH₃ in an Urban Environment in Northern China During Wintertime

Ensemble Control of Time-Invariant Linear Systems with Linear Parameter Variation

A multifunctional supramolecular hydrogel for infected wound healing

Honeycomb-like amorphous VPO4/C spheres with improved sodium storage performance as anode materials for sodium-ion batteries

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Jiajia Qi

Identification of Major Sources of Atmospheric NH3 in an Urban Environment in Northern China During Wintertime

Ensemble Control of Time-Invariant Linear Systems with Linear Parameter Variation

A multifunctional supramolecular hydrogel for infected wound healing

Honeycomb-like amorphous VPO4/C spheres with improved sodium storage performance as anode materials for sodium-ion batteries

Contact Info

Product

Resources

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Identification of Major Sources of Atmospheric NH₃ in an Urban Environment in Northern China During Wintertime