|
88 |
(2022) Development of three-dimensional visualisation technology of aerodynamic environment in fattening pig house using CFD and VR technology
|
2022.05.27 |
|
87 |
(2022) Machine Learning Approach to Predict Air Temperature and Relative Humidity inside Mechanically and Naturally Ventilated Duck Houses: Application of Recurrent Neural Network
|
2022.05.27 |
|
86 |
(2022) Digital Twin: Technology Evolution Stages and Implementation Layers with Technology Elements
|
2022.05.19 |
|
85 |
(2021) Development of three-dimensional visualisation technology of the aerodynamic environment in a greenhouse using CFD and VR technology, part 1:Development of VR a database using CFD
|
2022.01.10 |
|
84 |
(2021) Development of three-dimensional visualisation technology of the aerodynamic environment in a greenhouse using CFD and VR technology, Part 2: Development of an educational VR simulator
|
2022.01.10 |
|
83 |
(2021) Integrated Building Energy Simulation–Life Cycle Assessment (BES–LCA) Approach for Environmental Assessment of Agricultural Building: A Review and Application to Greenhouse Heating Systems
|
2022.01.10 |
|
82 |
(2021) Dynamic Energy Exchange Modelling for a Plastic-Covered Multi-Span Greenhouse Utilizing a Thermal Effluent from Power Plant
|
2022.01.10 |
|
81 |
(2021) Computational Fluid Dynamics Modelling of the Microclimate within the Boundary Layer of Leaves Leading to Improved Pest Control Management and Low-Input Greenhouse
|
2022.01.10 |
|
80 |
(2020) Computational fluid dynamics for non-experts: Development of a user-friendly CFD simulator (HNVR-SYS) for natural ventilation design applications
|
2022.01.10 |
|
79 |
(2020) Impact Analysis of Environmental Conditions on Odour Dispersion Emitted from Pig House with Complex Terrain Using CFD
|
2022.01.10 |
|
78 |
(2020) Dynamic energy modelling for analysis of the thermal and hygroscopic environment in a mechanically ventilated duck house
|
2022.01.10 |
|
77 |
(2019) Computational fluid dynamics evaluation of pig house ventilation systems for improving the internal rearing environment
|
2022.01.10 |
|
76 |
(2019) CFD assisted method for locating and processing data from wind monitoring systems
|
2022.01.10 |
|
75 |
(2019) Optimal sensor placement for monitoring and controlling greenhouse internal environments
|
2022.01.10 |
|
74 |
(2019) Estimating the wind pressure coefficient for singlespan greenhouses using an large eddy simulation turbulence model
|
2022.01.10 |
|
73 |
(2019) Evaluation of various national greenhouse design standards for wind loading
|
2022.01.10 |
|
72 |
(2019) Development of a VR simulator for educating CFD-computed internal environment of piglet house
|
2022.01.10 |
|
71 |
(2018) Identification of the key structural parameters for the design of a large-scale PBR
|
2022.01.10 |
|
70 |
(2018) Development of a micro-scale CFD model to predict wind environment on mountainous terrain
|
2022.01.10 |
|
69 |
(2018) Design of a windbreak fence to reduce fugitive dust in open areas
|
2022.01.10 |