Your search keyword '"Mathieu, Stéphanie"' showing total 3 results

1. Highly efficient nitrogen fixation enabled by an atmospheric pressure rotating gliding arc.

Author

Chen, Hang, Wu, Angjian, Mathieu, Stéphanie, Gao, Peihan, Li, Xiaodong, Xu, Bo Z., Yan, Jianhua, and Tu, Xin

Subjects

ATMOSPHERIC pressure, ARTIFICIAL neural networks, NITROGEN fixation, HIGH-speed photography, GAS flow, ENERGY consumption

Abstract

A rotating gliding arc is proposed as a promising alternative to enable direct nitrogen fixation from ubiquitous air under mild conditions. The effect of different process parameters on NOx generation and energy consumption has been investigated through a combination of experiments and artificial neural network (ANN) modeling. The optical emission spectroscopic diagnostics together with electrical diagnostics and high‐speed photography has been used to understand the variation of the discharge characteristics. The lowest energy consumption of NOx production (4.2 MJ/mol) is achieved at a gas flow rate of 12 L/min and an O2 concentration of 20 vol%. The simulation results from the ANN model show a good agreement with the experimental data and the model enables us to evaluate the relative importance of the process parameters to the reaction performance. [ABSTRACT FROM AUTHOR]

Published

2021

2. First Evidence of Western Bean Cutworm (Lepidoptera: Noctuidae) Overwintering in the Province of Québec (Canada).

Author

Saguez, Julien, Neau, Mathieu, Rieux, Christine, Vallières-Murray, Maryse, Petrauskas, Priscila, Mathieu, Stéphanie, Duval, Brigitte, Auger, Yves, and Fréchette, Isabelle

Subjects

NOCTUIDAE, LEPIDOPTERA, CORN pests, PEST control, PROVINCES, BEANS

Abstract

The western bean cutworm, Striacosta albicosta (Smith), is considered a major corn pest in North America. In 2009, it started invading the province of Québec (northeastern Canada). To our knowledge, there has been no evidence that this pest could overwinter in this province. In the falls of 2017 and 2018, storage totes containing mature western bean cutworm larvae were placed in the soil in three agricultural regions, in Québec, where western bean cutworm invasions are frequent and crop damage is often significant. The goal was to evaluate if western bean cutworm could resist the province's winter conditions. The storage totes were removed from the soil at different dates to estimate winter survival. Emergence cages were installed over the totes in the spring of the following year to determine whether western bean cutworm could complete its life cycle. In the spring of 2019, car shelters were also installed at two different sites to evaluate natural moth emergences in fields in which numerous mature western bean cutworm larvae and damage were reported in 2018. Western bean cutworm moth emergences occurred in both cases. These experiments constitute the first documented evidence that western bean cutworm can overwinter and complete its life cycle in Québec's cold climate. It also represents the northernmost overwintering survival for this species ever documented in North America. The western bean cutworm's ability to overwinter in Québec will have important implications for corn producers. Pest monitoring and management programs in the province of Québec will need to be adapted accordingly. [ABSTRACT FROM AUTHOR]

Published

2021

3. Outside Front Cover: Plasma Process. Polym. 7/2021.

Author

Chen, Hang, Wu, Angjian, Mathieu, Stéphanie, Gao, Peihan, Li, Xiaodong, Xu, Bo Z., Yan, Jianhua, and Tu, Xin

Subjects

PLASMA materials processing, PLASMA arcs, NITROGEN fixation, SOIL fertility

Abstract

The generated NO SB x sb can be further reacted with emitted NH SB 3 sb from farmland, to recapture the N into soil for agriculture and maintain fertility in soil. B Outside Front Cover b : With the assist of Rotating gliding arc plasma, highly efficient with a considerable processing capacity can be anticipated for fixing nitrogen into NO SB x sb directly from the ubiquitous air. This method provide an alternative for remote and undeveloped countries with the idea of distributed nitrogen fixation to compensate the increasing nitrogen demand over the world. [Extracted from the article]

Published

2021