Evaluation of the impact of urban river bends on the enhancement of aquatic habitats using a two-dimensional habitat suitability model

The study of fish habitats is important for us to better understand the impact of reservoir construction on river ecosystems. Many habitat models have been developed in the past few decades. In this study, a fuzzy logic-based habitat model, which couples fuzzy inference system, two-dimensional laterally averaged hydrodynamic model, and two-dimensional shallow water hydrodynamic model, is proposed to identify the baseline condition of suitable habitat for fish spawning activities. The proposed model considers the reservoir and the downstream river channel, and explores the comprehensive effects of water temperature, velocity, and water depth on habitat suitability. A real-world case that considers the Ctenopharyngodon idella in the Xuanwei Reservoir of Qingshui River is studied to investigate the effect of in- and outflow of reservoir on fish habitat and the best integrative management measure of the model. There were 64 simulations with different reservoir in- and outflows employed to calculate the weighted usable area and hydraulic habitat suitability. The experimental results show that the ecological flow for Ctenopharyngodon idella spawning can satisfy the basic demand when the reservoir inflow is greater than 60 m3/s and the reservoir outflow is greater than 100 m3/s. The habitat ecological suitability is the best when the reservoir outflow is 120 m3/s. A more reasonable and reliable ecological flow range can be obtained based on the habitat model in this paper, which provides the best scenario for water resources planning and management in the Qingshui River Basin.

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Recent Advances and Need of Green Synthesis in Two-Dimensional Materials for Energy Conversion and Storage Applications

Current Nanoscience ◽

10.2174/1573413716999210101122503 ◽

2021 ◽

Vol 16 ◽

Author(s):

Joice Sophia Ponraj ◽

Muniraj Vignesh Narayanan ◽

Ranjith Kumar Dharman ◽

Valanarasu Santiyagu ◽

Ramalingam Gopal ◽

...

Keyword(s):

Energy Storage ◽

Green Synthesis ◽

2D Materials ◽

Synthesis Method ◽

Energy Storage And Conversion ◽

Two Dimensional ◽

Severe Problem ◽

Energy Conversion And Storage ◽

Energy Application ◽

The Impact

: Increasing energy crisis across the globe requires immediate solutions. Two-dimensional (2D) materials are in great significance because of its application in energy storage and conversion devices but the production process significantly impacts the environment thereby posing a severe problem in the field of pollution control. Green synthesis method provides an eminent way of reduction in pollutants. This article reviews the importance of green synthesis in the energy application sector. The focus of 2D materials like graphene, MoS2, VS2 in energy storage and conversion devices are emphasized based on supporting recent reports. The emerging Li-ion batteries are widely reviewed along with their promising alternatives like Zn, Na, Mg batteries and are featured in detail. The impact of green methods in the energy application field are outlined. Moreover, future outlook in the energy sector is envisioned by proposing an increase in 2D elemental materials research.

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Study on Grinding Force in Two-Dimensional Ultrasonic Grinding Nano-Ceramics

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.42.204 ◽

2010 ◽

Vol 42 ◽

pp. 204-208 ◽

Cited By ~ 2

Author(s):

Xiang Dong Li ◽

Quan Cai Wang

Keyword(s):

Mathematical Model ◽

Ultrasonic Vibration ◽

Contact Time ◽

Reaction Force ◽

Grinding Force ◽

Two Dimensional ◽

Indentation Fracture ◽

Ultrasonic Grinding ◽

The Impact ◽

Ultrasonic Vibration Assisted Grinding

In this paper, the characteristic of grinding force in two-dimensional ultrasonic vibration assisted grinding nano-ceramic was studied by experiment based on indentation fracture mechanics, and mathematical model of grinding force was established. The study shows that grinding force mainly result from the impact of the grains on the workpiece in ultrasonic grinding, and the pulse power is much larger than normal grinding force. The ultrasonic vibration frequency is so high and the contact time of grains with the workpiece is so short that the pulse force will be balanced by reaction force from workpiece. In grinding workpiece was loaded by the periodical stress field, which accelerates the fatigue fracture.

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Analysis of the Impact of Specific Heat Ratio on Two-Dimensional Low Maher Number Nozzle Design

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.590.546 ◽

2014 ◽

Vol 590 ◽

pp. 546-550

Author(s):

Zhi Qiang Fan ◽

Hai Bo Yang ◽

Fei Zhao ◽

Rong Zhu ◽

Dong Bai Sun

Keyword(s):

Specific Heat ◽

Supersonic Nozzle ◽

Two Dimensional ◽

Nozzle Design ◽

Scheme Design ◽

Specific Heat Ratio ◽

Nozzle Contour ◽

Ratio Change ◽

Change Impact ◽

The Impact

The practical requirements of the project the nozzle entrance temperature is high, the gas specific heat ratio varies greatly, so it must consider the specific heat ratio change impact on two-dimensional nozzle contour design. Divided into consideration specific heat ratio change and not consider two kinds of scheme design of 1.4Ma nozzle profile and build the model using the arc line method, numerical simulation is carried out through the CFD software Fluent, analysis of two kinds of design scheme comparison. The results show that, in the supersonic nozzle at low Maher numbers, two schemes of nozzle design profile similarity, parameters change little flow tube, export the Maher number and the flow quality can meet the design requirements, proof of specific heat ratio has little effect on the design results in the design of the nozzle under the condition of low Maher number.

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Phonon Coupling and Dielectric Response in 2D Semiconductor

NANO ◽

10.1142/s1793292021501319 ◽

2021 ◽

Author(s):

Arslan Usman ◽

Abdul Sattar ◽

Hamid Latif ◽

Muhammad Imran

Keyword(s):

Transition Metal Dichalcogenides ◽

Coupling Mechanism ◽

Two Dimensional ◽

Electron Hole ◽

Exciton Coupling ◽

Gain Energy ◽

Metal Dichalcogenides ◽

Layered Transition Metal ◽

The Impact

The impact of phonon and their surrounding environment on exciton and its complexes were investigated in monolayer WSe2 semiconductor. Phonon up-conversion has been studied in past for conventional III–V semiconductors, but its role in two-dimensional layered transition metal dichalcogenides has rarely been explored. We investigated the photoluminescence up-conversion mechanism in WSe2 monolayer and found that a lower energy photon gain energy upto 64[Formula: see text]meV to be up-converted to emission photon at room temperature. Moreover, the phonon-exciton coupling mechanism has also been investigated and the role of dielectric screening has been explored to get complete insight of coulomb’s interaction in these electron-hole pairs. Investigations of charge carrier’s lifetime reveal that boron nitride encapsulated monolayer has shorter recombination time as low as 41 ps as compared to a bare monolayer on SiO2 substrate. These results are very promising for realizing spintronics-based application from two-dimensional layered semiconductors.

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The impact of water supplement on habitat suitability for breeding red-crowned cranes

Ecological Informatics ◽

10.1016/j.ecoinf.2021.101463 ◽

2021 ◽

pp. 101463

Author(s):

Yu Gao ◽

Xiaodong Na ◽

Wenliang Li

Keyword(s):

Habitat Suitability ◽

The Impact

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Influence of Engine Cabin Simplification on Aerodynamic Characteristics of Car

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1042.188 ◽

2014 ◽

Vol 1042 ◽

pp. 188-193 ◽

Cited By ~ 1

Author(s):

Xing Jun Hu ◽

Jing Chang

Keyword(s):

Numerical Simulation ◽

Aerodynamic Drag ◽

Aerodynamic Characteristics ◽

Thin Plates ◽

Average Thickness ◽

Two Dimensional ◽

Engine Cooling ◽

Aerodynamic Drag Coefficient ◽

Simulation Results ◽

The Impact

In order to analyze the impact of engine cabin parts on aerodynamic characteristics, the related parts are divided into three categories except the engine cooling components: front thin plates (average thickness of 2mm), bottom-suspension and interior panels. The aerodynamic drag coefficient (Cd) were obtained upon the combination schemes consisting of the three types of parts by numerical simulation. Results show that Cd by simulation is closer to the test value gained by the wind tunnel experiment when front thin plates were simplified to the two-dimensional interface with zero thickness. The error is only 5.23%. Meanwhile this scheme reduces grid numbers, thus decreasing the calculating time. As the front thin plates can guide the flow, there is no difference on the Cd values gained from the model with or without bottom-suspension or interior panels when the engine cabin contains the front thin plates; while only both bottom-suspension and interior panels are removed, the Cd value can be reduced when the cabin doesn’t contain the front thin plates.

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An experimental and theoretical investigation of particle–wall impacts in a T-junction

Journal of Fluid Mechanics ◽

10.1017/jfm.2013.200 ◽

2013 ◽

Vol 727 ◽

pp. 236-255 ◽

Cited By ~ 13

Author(s):

D. Vigolo ◽

I. M. Griffiths ◽

S. Radl ◽

H. A. Stone

Keyword(s):

Flow Direction ◽

Three Dimensional ◽

Stokes Number ◽

Two Dimensional ◽

Dimensional Model ◽

Viscous Boundary Layer ◽

Particle Tracing ◽

Two Dimensional Model ◽

Viscous Boundary ◽

The Impact

AbstractUnderstanding the behaviour of particles entrained in a fluid flow upon changes in flow direction is crucial in problems where particle inertia is important, such as the erosion process in pipe bends. We present results on the impact of particles in a T-shaped channel in the laminar–turbulent transitional regime. The impacting event for a given system is described in terms of the Reynolds number and the particle Stokes number. Experimental results for the impact are compared with the trajectories predicted by theoretical particle-tracing models for a range of configurations to determine the role of the viscous boundary layer in retarding the particles and reducing the rate of collision with the substrate. In particular, a two-dimensional model based on a stagnation-point flow is used together with three-dimensional numerical simulations. We show how the simple two-dimensional model provides a tractable way of understanding the general collision behaviour, while more advanced three-dimensional simulations can be helpful in understanding the details of the flow.

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The Impact of Geometric Variation on Compressor Two-Dimensional Incidence Range

Journal of Turbomachinery ◽

10.1115/1.4028355 ◽

2014 ◽

Vol 137 (2) ◽

Cited By ~ 12

Author(s):

Martin N. Goodhand ◽

Robert J. Miller ◽

Hang W. Lung

Keyword(s):

Design Process ◽

Design Space ◽

Leading Edge ◽

Critical Value ◽

Two Dimensional ◽

Suction Surface ◽

Design Intent ◽

Manufacture Process ◽

The Impact ◽

Geometric Variation

An important question for a designer is how, in the design process, to deal with the small geometric variations which result from either the manufacture process or in-service deterioration. For some blade designs geometric variations will have little or no effect on the performance of a row of blades, while in others their effects can be significant. This paper shows that blade designs which are most sensitive are those which are susceptible to a distinct switch in the fluid mechanisms responsible for limiting blade performance. To demonstrate this principle, the sensitivity of compressor 2D incidence range to manufacture variations is considered. Only one switch in mechanisms was observed, the onset of flow separation at the leading edge. This switch is only sensitive to geometric variations around the leading edge, 0–3% of the suction surface. The consequence for these manufacture variations was a 10% reduction in the blade's positive incidence range. For this switch, the boundary in the design space is best defined in terms of the blade pressure distribution. Blade designs where the acceleration exceeds a critical value just downstream of the leading edge are shown to be robust to geometric variation. Two historic designs, supercritical blades and blades with sharp leading edges, though superior in design intent, are shown to sit outside this robust region and thus, in practice, perform worse. The improved understanding of the robust, region of the design space is then used to design a blade capable of a robust, 5% increase in operating incidence range.

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Challenges in updating habitat suitability models: An example with the lesser prairie-chicken

PLoS ONE ◽

10.1371/journal.pone.0256633 ◽

2021 ◽

Vol 16 (9) ◽

pp. e0256633

Author(s):

Catherine S. Jarnevich ◽

Pairsa N. Belamaric ◽

Kent Fricke ◽

Mike Houts ◽

Liza Rossi ◽

...

Keyword(s):

Land Cover ◽

Habitat Suitability ◽

Negative Relationship ◽

Suitable Habitat ◽

Habitat Suitability Model ◽

Current Information ◽

Land Cover Data ◽

Prairie Chicken ◽

Anthropogenic Development ◽

Iteration Model

Habitat loss from land-use change is one of the top causes of declines in wildlife species of concern. As such, it is critical to assess and reassess habitat suitability as land cover and anthropogenic features change for both monitoring and developing current information to inform management decisions. However, there are obstacles that must be overcome to develop consistent assessments through time. A range-wide lek habitat suitability model for the lesser prairie-chicken (Tympanuchus pallidicinctus), currently under review by the U. S. Fish and Wildlife Service for potential listing under the Endangered Species Act, was published in 2016. This model was based on lek data from 2002 to 2012, land cover data ranging from 2001 to 2013, and anthropogenic features from circa 2011, and has been used to help guide lesser prairie-chicken management and anthropogenic development actions. We created a second iteration model based on new lek surveys (2015 to 2019) and updated predictors (2016 land cover and cleaned/updated anthropogenic data) to evaluate changes in lek suitability and to quantify current range-wide habitat suitability. Only three of 11 predictor variables were directly comparable between the iterations, making it difficult to directly assess what predicted changes resulted from changes in model inputs versus actual landscape change. The second iteration model showed a similar positive relationship with land cover and negative relationship with anthropogenic features to the first iteration, but exhibited more variation among candidate models. Range-wide, more suitable habitat was predicted in the second iteration. The Shinnery Oak Ecoregion, however, exhibited a loss in predicted suitable habitat that could be due to predictor source changes. Iterated models such as this are important to ensure current information is being used in conservation and development decisions.

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