Profile
Keywords: | mechanical engineering, wind, power, fluid, mechanics |
FES Funded ProjectsOutputs
Title |
Category |
Date |
Authors |
Effects of Inflow Parameters and Disk Thickness on an Actuator Disk inside the Neutral Atmospheric Boundary LayerAn accurate choice of the inflow parameters has been shown to affect the CFD results significantly. In this study, the actuator disk method (AD) is used to investigate the effects of the widely used inflow formulations, the logarithmic and power-law formulations, in the neutral atmospheric boundary layer simulations. Based on the one-dimensional momentum theory, the AD model is a rapid method that replaces the turbine with a permeable disk and is among the most used methods in the literature. The results of the k-ω
AD simulation indicated that in spite of the logarithmic method’s widespread use, the power law formulation gives a better description of the velocity field. Furthermore, an actuator disk thickness study also showed that given the effect of actuator disk thickness on the rate of convergence, more attention should be dedicated towards finding a suitable disk thickness value. The combination of an optimized mesh and a suitable choice of AD thickness can help with the rate of convergence which in turn shortens the simulation’s run time.T14-P04 University of Alberta | Publication | 2022-10-05 | | Improving the accuracy of RANS modeling of urban pollutant flow within compact arrangements, using a high-quality full-scale dispersion datasetTo improve the reliability of the Computational Fluid Dynamics (CFD) models of
atmospheric wind flow over complex terrains, a re-calibration study is conducted to
optimize the standard k-e model. Given the stochastic nature of turbulence closure
coefficients, an optimization framework is adopted to identify ranges for them to
achieve the most reliable and accurate predictions. A robust objective function is
defined that incorporates five validation metrics. The coefficients are trained using high-quality measurements of full-scale tracer experiments in a mock urban arrangement simulating a dense building array. Besides exploiting the empirical correlation between coefficients in the atmospheric
surface layer, an exhaustive sensitivity study is also conducted to investigate the
possibility of reducing the computational load.T14-P04 University of Alberta | Publication | 2023-04-17 | | Deep Electrification and Renewable Energy in a Remote Canadian CommunityThis study examines high-penetration of renewable energy options for Fort Chipewyan (an off-grid community in northern Alberta, Canada). This analysis goes beyond modelling hybrid diesel-renewable electricity supply, to also consider deep electrification scenarios that not only aim to electrify the community’s heating and transportation energy demands, which can almost triple the average 35 MWh/day electricity load in a highly seasonal manner. HOMER Pro software was used to create seven different electricity use scenarios, and the outcomes were compared to optimize hybrid renewable energy technologies including solar PV, wind turbines, batteries, and hydrogen fuel cells to meet forecast electricity demand. Sensitivity analyses were conducted to verify the effects of factors such as solar radiation, wind speed, the capital cost of solar PV and wind turbines, diesel prices, and CO2 penalty cost on the cost of electricity (COE). T14-P04 | Publication | 2023-05-31 | Tazrin Jahan Priyanka | Market Impacts of Geographic Dispersion of Wind Energy in AlbertaInvited to present poster at CanWEA Annual Conference.T06-P05 University of Alberta | Activity | 2019-10-09 | | Market impacts of geographic dispersion of wind energy in AlbertaSpeak and present poster at The Future of Alberta's Electricity System SymposiumT06-P05 University of Alberta | Activity | 2019-11-06 | | Backcasting utility-scale solar market impacts in AlbertaSpeak and present poster at The Future of Alberta's Electricity System SymposiumT06-P05 University of Alberta | Activity | 2019-11-06 | | Market Impacts of Wind Energy in AlbertaAbstract selected to present poster at FES Industry Mixer Research to the Real WorldT06-P05 University of Alberta | Activity | 2020-02-20 | | Calibrating Canadian Wind Atlas Data to Historic Market PerformanceExamining historic market data from wind farms in Albert and comparing it to the Canadian Wind Atlas. Developing dynamic loss coefficient in order to use the data to develop typical meteorological year output for geographic dispersion modelling.T06-P05, T14-P04 University of Alberta | Publication | 2020-08-01 | | Market impacts of geographically dispersed wind farms in AlbertaSimulating wind energy developments in Northern Alberta to examine the potential market benefits of wind farm operations in regions with less correlated weather regimes than historical locations.T06-P05, T14-P04 University of Alberta | Publication | 2022-04-30 | | Backcasting solar farm generation displacement in Alberta’s electricity marketUsing historical merit order curves, this work examines the displacement of other market participants as solar fleets are built into Alberta's electricity marketT06-P05 University of Alberta | Publication | 2020-08-01 | | Mapping The Evolution of Canada’s Wind Energy FleetWind energy has grown steadily in Canada since the early 2000s, over which time there has been significant technology change. This work examines the changes in wind farm configurations and sizes across the country during the past 20 years.T06-P05, T14-P04 University of Alberta | Publication | 2022-07-01 | | Modelling wind-hydrogen storage in Alberta’s electricity marketExamining the opportunity, constraints, performance and economic requirements for green hydrogen system viability in Alberta’s electricity market. Economic viability will depend on exogenous variables including carbon pricing, natural gas futures, as well as forecasts for renewable curtailment or arbitrage opportunities in Alberta’s electricity market under varying renewable energy fleet scenarios.T06-P05, T14-P04 University of Alberta | Publication | 2021-05-01 | | Framework for design and optimization of a retrofitted light industrial space with a renewable energy-assisted hydroponics facility in a rural northern canadian communityThe purpose of this study is to develop a design framework for retrofitting a light industrial building with a hybrid renewable energy-assisted hydroponics farming system for production of fresh food in rural north Canadian communities. This design protocol is targeted at facilities in rural areas of northern Canada, which could benefit from better access to fresh food, especially given the harsh climate as well as the long and limited transport routes. The process includes 1) a review of the existing building; 2) estimation of design loads for system sizing, such as temperature and humidity control, adequate lighting, airborne carbon, and water; 3) multi-objective genetic algorithm optimization of the hybrid renewable energy system for minimal operating cost and emissions; and 4) comparison of costs and greenhouse (GHG) emissions of the proposed farming operation with the traditional food supply chain. To demonstrate the proposed methodology, a case study building in a rural community in Alberta, Canada was evaluated for retrofit. The results showed that the GHG emissions generated from local hydroponic lettuce production, aided by a hybrid renewable energy system (HRES), are three times greater than those emitted by transporting an equivalent quantity of food from southern California, USA. On the other hand, the life cycle cost showed that the cost to produce lettuce from the case study facility is comparable to the price of lettuce available from traditional import, which shows a promising potential to provide fresh and cost-competitive food in the community, among other qualitative benefits gained from this empowering opportunity.T14-P04 University of Alberta | Publication | 2021-05-16 | | Evaluating the Validity of CFD Model of Dispersion in a Complex Urban Geometry Using Two Sets of Experimental MeasurementsM.R. Kavian Nezhad, C.F. Lange, B.A. Fleck, "Evaluating the Validity of CFD Model of Dispersion in a Complex Urban Geometry Using Two Sets of Experimental Measurements", ICCFD 2022: 16 International Conference on Computational Fluid Dynamics, Tokyo, Japan, January 4-6, 2022.
T14-P04 University of Alberta | Publication | 2022-01-03 | | CFD MODELING OF THE NEAR-FIELD POLLUTANT DISPERSION IN URBAN SETTINGS: COMBINED EFFECTS OF THE SOURCE LOCATION AND PLANAR HETEROGENEITIESM.R. Kavian Nezhad, C.F. Lange, B.A. Fleck, "CFD MODELING OF THE NEAR-FIELD POLLUTANT DISPERSION IN URBAN SETTINGS: COMBINED EFFECTS OF THE SOURCE LOCATION AND PLANAR HETEROGENEITIES", CSME 2022, University of Alberta, Edmonton, Canada (ON June 5-8), Abstract.
T14-P04 University of Alberta | Publication | 2022-04-28 | | Optimizing Photovoltaic Output in a Northern MarketT06-P05 University of Alberta | Publication | 2022-04-30 | | Performance Evaluation of the RANS Models in Predicting the Pollutant Concentration Field within a Compact Urban Setting: Effects of the Source Location and Turbulent Schmidt NumberComputational Fluid Dynamics (CFD) is used to accurately model and predict the dispersion of a passive scalar in the atmospheric wind flow field within an urban setting. The Mock Urban Setting Tests (MUST) experiment was recreated in this work to test and evaluate various modeling settings and to form a framework for the reliable representation of dispersion flow in compact urban geometries. The performance of three widely suggested closure models of standard k−ε, RNG k−ε, and SST k−ω is assessed by calculating and interpreting the statistical performance metrics. This work demonstrates that the overprediction of the turbulent kinetic energy by the standard k−ε counteracts the general underpredictions by RANS in geometries with building complexes.T14-P04 University of Alberta | Publication | 2022-06-23 | | Using Variable Speed Diesel Generators to Increase Renewable Energy Penetration in the YukonThis study examines the use of variable speed diesel gensets to increase the levels of wind and solar penetration in five case study communities in the Yukon and NWT.T14-P04 University of Alberta | Publication | 2023-05-31 | |
|
|