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Numerical Heat Transfer, Part B: Fundamentals
An International Journal of Computation and Methodology
Volume 62, 2012 - Issue 6
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Original Articles

Improvements of Fast Fluid Dynamics for Simulating Air Flow in Buildings

Mingang Jin School of Mechanical Engineering, Purdue University, West Lafayette, Indiana, USA
,
Wangda Zuo Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory, Berkeley, California, USA
&
Qingyan Chen School of Mechanical Engineering, Purdue University, West Lafayette, Indiana, USACorrespondence[email protected]
Pages 419-438 | Received 20 Dec 2011, Accepted 30 Jun 2012, Published online: 09 Nov 2012

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Long Phan & Cheng-Xian Lin. (2020) CFD-based response surface methodology for rapid thermal simulation and optimal design of data centers. Advances in Building Energy Research 14:4, pages 471-493.
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Wei Tian, Thomas Alonso Sevilla, Dan Li, Wangda Zuo & Michael Wetter. (2018) Fast and self-learning indoor airflow simulation based on in situ adaptive tabulation. Journal of Building Performance Simulation 11:1, pages 99-112.
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Wei Liu, Ruoyu You, Jie Zhang & Qingyan Chen. (2017) Development of a fast fluid dynamics-based adjoint method for the inverse design of indoor environments. Journal of Building Performance Simulation 10:3, pages 326-343.
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Wei Tian, Thomas Alonso Sevilla & Wangda Zuo. (2017) A systematic evaluation of accelerating indoor airflow simulations using cross-platform parallel computing. Journal of Building Performance Simulation 10:3, pages 243-255.
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Wangda Zuo, Michael Wetter, Wei Tian, Dan Li, Mingang Jin & Qingyan Chen. (2016) Coupling indoor airflow, HVAC, control and building envelope heat transfer in the Modelica Buildings library. Journal of Building Performance Simulation 9:4, pages 366-381.
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Wei Liu, Mingang Jin, Chun Chen, Ruoyu You & Qingyan Chen. (2016) Implementation of a fast fluid dynamics model in OpenFOAM for simulating indoor airflow. Numerical Heat Transfer, Part A: Applications 69:7, pages 748-762.
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Mingang Jin, Wei Liu & Qingyan Chen. (2014) Accelerating fast fluid dynamics with a coarse-grid projection scheme. HVAC&R Research 20:8, pages 932-943.
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Articles from other publishers (24)

Wei Tian, James VanGilder, Michael Condor & Andrew Ardolino. (2023) Comparison of Time-Splitting and SIMPLE Pressure-Velocity Coupling for Steady-State Data Center CFD. Comparison of Time-Splitting and SIMPLE Pressure-Velocity Coupling for Steady-State Data Center CFD.
Pengzhi Zhou, Haidong Wang, Yuwei Dai, Yu Xue & Chen Huang. (2023) On the fast fluid dynamics and fractional step methods to predict the coupled indoor temperature and velocity fields. Building and Environment 229, pages 109959.
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Ruibin Li, Zhanpeng Liu, Yi Zhao, Yan Wu, Jianlei Niu, Liangzhu (Leon) Wang & Naiping Gao. (2022) Fast fluid dynamics simulation of airflow around a single bluff body under different turbulence models and discretization schemes. Building and Environment 219, pages 109235.
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Pengzhi Zhou, Haidong Wang, Yuwei Dai & Chen Huang. (2022) Performance evaluation of different pressure-velocity decoupling schemes in built environment simulation. Energy and Buildings 257, pages 111763.
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N. Salman, A. Khan, A.H. Kemp & C.J. Noakes. (2022) Indoor Temperature Forecast based on the Lattice Boltzmann method and Data Assimilation. Building and Environment 210, pages 108654.
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Ruibin Li, Zhanpeng Liu, Lu Feng & Naiping Gao. (2022) Fast fluid dynamics simulation of the airflow distributions in urban residential areas. Energy and Buildings 255, pages 111635.
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Xu Han, Wei Tian, Jim VanGilder, Wangda Zuo & Cary Faulkner. (2021) An open source fast fluid dynamics model for data center thermal management. Energy and Buildings 230, pages 110599.
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Wei Ye, Yiqun Pan, Lianjie He, Bingqian Chen, Junjie Liu, Jun Gao, Yi Wang & Yang Yang. 2021. Industrial Ventilation Design Guidebook. Industrial Ventilation Design Guidebook 109 183 .
Adam Doulgerakis, Anastasios Kanellos, Stelios C. A. Thomopoulos, George Alexios Ioannakis, Fotios Arnaoutoglou, Petros Pistofidis, Anestis Koutsoudis, Theodora Pappou, Byron Protopsaltis & Stelios Gkouskos. 2021. Digital Heritage. Progress in Cultural Heritage: Documentation, Preservation, and Protection. Digital Heritage. Progress in Cultural Heritage: Documentation, Preservation, and Protection 474 481 .
Zheming Tong & Yue Li. (2020) Real-Time Reconstruction of Contaminant Dispersion from Sparse Sensor Observations with Gappy POD Method. Energies 13:8, pages 1956.
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Zhiqiang (John) ZhaiZhiqiang (John) Zhai. 2020. Computational Fluid Dynamics for Built and Natural Environments. Computational Fluid Dynamics for Built and Natural Environments 185 216 .
Yuehan Zhu, Tomohiro Fukuda & Nobuyoshi Yabuki. (2019) Integrating Animated Computational Fluid Dynamics into Mixed Reality for Building-Renovation Design. Technologies 8:1, pages 4.
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Wei Tian, Jim VanGilder, Michael Condor, Xu Han & Wangda Zuo. (2019) An Accurate Fast Fluid Dynamics Model for Data Center Applications. An Accurate Fast Fluid Dynamics Model for Data Center Applications.
Xiaoliang Shao, Keke Wang & Xianting Li. (2018) Rapid prediction of the transient effect of the initial contaminant condition using a limited number of sensors. Indoor and Built Environment 28:3, pages 322-334.
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Chaoyang Jiang, Yeng Chai Soh & Hua Li. (2017) Two-stage indoor physical field reconstruction from sparse sensor observations. Energy and Buildings 151, pages 548-563.
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Wei Tian, Thomas Alonso Sevilla, Wangda Zuo & Michael D. Sohn. (2017) Coupling fast fluid dynamics and multizone airflow models in Modelica Buildings library to simulate the dynamics of HVAC systems. Building and Environment 122, pages 269-286.
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L. W. Xu & A. X. Zou. (2017) A Fast Computational Fluid Dynamics Model for the Flow and Heat Transfer Characteristics Analysis of Indoor Substation Rooms. IOP Conference Series: Materials Science and Engineering 199, pages 012076.
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Tobias Kempe & Andreas Hantsch. (2017) Large-eddy simulation of indoor air flow using an efficient finite-volume method. Building and Environment 115, pages 291-305.
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Yu Xue, Wei Liu & Zhiqiang (John) Zhai. (2016) New semi-Lagrangian-based PISO method for fast and accurate indoor environment modeling. Building and Environment 105, pages 236-244.
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K.C. Ng, T.W.H. Sheu & Y.H. Hwang. (2016) Unstructured Moving Particle Pressure Mesh (UMPPM) method for incompressible isothermal and non-isothermal flow computation. Computer Methods in Applied Mechanics and Engineering 305, pages 703-738.
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Wei Liu, Tengfei Zhang, Yu Xue, Zhiqiang (John) Zhai, Jihong Wang, Yun Wei & Qingyan Chen. (2015) State-of-the-art methods for inverse design of an enclosed environment. Building and Environment 91, pages 91-100.
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M. Amirul Islam Khan, Nicolas Delbosc, Catherine J. Noakes & Jonathan Summers. (2015) Real-time flow simulation of indoor environments using lattice Boltzmann method. Building Simulation 8:4, pages 405-414.
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Mingang Jin, Wei Liu & Qingyan Chen. (2015) Simulating buoyancy-driven airflow in buildings by coarse-grid fast fluid dynamics. Building and Environment 85, pages 144-152.
Crossref
Mingang Jin & Qingyan Chen. (2015) Improvement of fast fluid dynamics with a conservative semi-Lagrangian scheme. International Journal of Numerical Methods for Heat & Fluid Flow 25:1, pages 2-18.
Crossref

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