F Ali-Toudert, H Mayer (2006). Numerical study on the effects of aspect ratio and orientation of an urban street canyon on outdoor thermal comfort in hot and dry climate. Building and Environment, 41: 94-108.
F Ali-Toudert, H Mayer (2007). Effects of asymmetry, galleries, overhanging facades and vegetation on thermal comfort in urban street canyons. Solar Energy, 81: 742-754.
AJ Arnfield (2003). Two decades of urban climate research: a review of turbulence, exchanges of energy and water, and the urban heat island. International Journal of Climatology, 23: 1-26.
ASHRAE (2001). ASHRAE Handbook of Fundamentals, Chapter 3 Heat Transfer. Atlanta: American Society of Heating, Refrigerating and Air-Conditioning Engineers.
E Bozonnet, R Belarbi, F Allard (2005). Modeling solar effects on the heat and mass transfer in a street canyon, a simplified approach. Solar Energy, 79: 10-24.
M Bruse, H Fleer (1998). Simulating surface-plant-air interactions inside urban environments with a three dimensional numerical model. Environmental Modelling & Software, 13: 373-384.
H Chen, R Ooka, K Harayama, S Kato, X Li (2004). Study on outdoor thermal environment of apartment block in Shenzhen, China with coupled simulation of convection, radiation and conduction. Energy and Buildings, 36: 1247-1258.
H Chen, R Ooka, H Huang, T Tsuchiya (2009). Study on mitigation measures for outdoor thermal environment on present urban blocks in Tokyo using coupled simulation. Building and Environment, 44: 2290-2299.
H Chen, R Ooka, S Kato (2008). Study on optimum design method for pleasant outdoor thermal environment using genetic algorithms and coupled simulation of convection, radiation and conduction. Building and Environment, 43: 18-30.
PA Durbin (1996). On the k-ε stagnation point anomaly. International Journal of Heat and Fluid Flow, 17: 89-90.
B Gebhart (1959). A new method for calculation radiant exchange. ASHRAE Transactions, 65: 321-332.
IN Harman, M Best, SE Belcher (2003). Radiative exchange in an urban street canyon. Boundary-Layer Meteorology, 110: 301-316.
M Kanda, T Kawai, K Nakagawa (2004). A simple theoretical radiation scheme for regular building arrays. Boundary-Layer Meteorology, 114: 71-90.
J Kondo, T Watanabe (1992). Studies on the bulk transfer coefficients over a vegetated surface with a multilayer energy budget model. Journal of the Atmospheric Sciences, 49: 2183-2199.
T Kusuda (1969). Thermal response factors for multi-layer structures of various heat conduction system. ASHRAE Transactions, 75(1): 246-271
C Li, X Li, Y Su, Y Zhu (2012). A new zero-equation turbulence model for micro-scale climate simulation. Building and Environment, 47: 243-255.
B Lin, X Li, Y Zhu, Y Qin (2008). Numerical simulation studies of the different vegetation patterns' effects on outdoor pedestrian thermal comfort. Journal of Wind Engineering and Industrial Aerodynamics, 96: 1707-1718.
S Miao, W Jiang, X Wang and W Guo (2006). Impact assessment of urban meteorology and the atmospheric environment using urban sub-domain planning. Boundary-Layer Meteorology, 118: 133-150.
A Mochida, I Lun (2008). Prediction of wind environment and thermal comfort. Journal of Wind Engineering and Industrial Aerodynamics, 96: 1498-1527.
MJN Oliveira Panão, HJP Gonçalves, PMC Ferrão (2007). A matrix approach coupled with Monte Carlo Techniques for solving the net radiative balance of the urban block. Boundary-Layer Meteorology, 122: 217-241.
T Omori, S Murakami, S Kato (1997). Numerical simulation of solar heat absorption within indoor space by means of composite grid method. ASHRAE Transactions, 103(1): 164-171.
D Pearlmutter, P Berliner, E Shaviv (2007). Integrated modeling of pedestrian energy exchange and thermal comfort in urban street canyons. Building and Environment, 42: 2396-2409.
L Shashua-Bar, ME Hoffman (2002). The Green CTTC model for predicting the air temperature in small urban wooded sites. Building and Environment, 37: 1279-1288.
L Shashua-Bar, ME Hoffman (2004). Quantitative evaluation of passive cooling of the UCL microclimate in hot regions in summer, case study: urban streets and courtyards with trees. Building and Environment, 39: 1087-1099.
DG Stephenson, GP Mitalas (1967). Room thermal response factors. ASHRAE Transactions, 73(1): 261-266.
Y Tominaga, A Mochida, R Yoshie, H Kataoka, T Nozu, M Yoshikawa, T Shirasawa (2008). AIJ guidelines for practical applications of CFD to pedestrian wind environment around buildings. Journal of Wind Engineering and Industrial Aerodynamics, 96: 1749-1761.
S Yoshida, S Murakami, R Ooka, A Mochida, Y Tominaga (2000). CFD prediction of thermal comfort in microscale wind climate. In: Proceedings of 3rd International Symposium on Computational Wind Engineering (pp. 27-30), Birmingham, UK.