By Associate Professor Negin Nazarian

Preprints

Zhan W; Bechtel B; Du H; Chakraborty T; Kotthaus S; Krayenhoff ES; Martilli A; Naserikia M; Nazarian N; Roth M; Sismanidis P; Stewart ID; Voogt J, 2025, Satellite-derived Land Surface Temperatures Strongly Mischaracterise Urban Heat Hazard, http://dx.doi.org/10.48550/arxiv.2509.16568

Nazarian N; Pitman AJ; Lipson MJ; Hart MA; Cleugh H; Harman I; Thatcher MJ; Hirsch AL; Di Virgilio G; Riley ML; Tapper N; Evans JP; Jakob C; Perez P, 2025, Strengthening national capability in urban climate science: an Australian perspective, http://dx.doi.org/10.48550/arxiv.2509.03968

Ruane AC; Pascoe CL; Teichmann C; Brayshaw DJ; Buontempo C; Diouf I; Fernandez J; Gonzalez PLM; Hassler B; Hernaman V; Im U; Iovino D; Juckes M; Lake IL; Lam T; Lin X; Mao J; Nazarian N; Parey S; Roy I; Tseng W-L; Turner B; Wiebe A; Zhao L; Zurell D, 2025, CMIP7 Data Request: Impacts and Adaptation Priorities and Opportunities, http://dx.doi.org/10.5194/egusphere-2025-3408

Nazarian N; Lu J; Lipson M; Liu S; Hart M; Krayenhoff S; Blunn L; Martilli A, 2025, UrbanTALES: A Comprehensive LES Dataset for Urban Canopy Layer Turbulence Analyses and Parameterization Development, http://dx.doi.org/10.31223/x58x3b

Lu J; Li W; Hobeichi S; Azad S; Nazarian N, 2024, Machine Learning Predicts Pedestrian Wind Flow from Urban Morphology and Prevailing Wind Direction, http://dx.doi.org/10.31223/x5f717

Lu J; Nazarian N; Hart M; Krayenhoff S; Martilli A, 2023, A one-dimensional urban flow model with an Eddy-diffusivity Mass-flux (EDMF) scheme and refined turbulent transport (MLUCM v3.0), http://dx.doi.org/10.5194/egusphere-2023-2811

Martilli A; Nazarian N; Krayenhoff ES; Lachapelle J; Lu J; Rivas E; Rodriguez-Sanchez A; Sanchez B; Santiago JL, 2023, WRF-Comfort: Simulating micro-scale variability of outdoor heat stress at the city scale with a mesoscale model, http://dx.doi.org/10.5194/egusphere-2023-1069

Nice K; Nazarian N; Lipson M; Hart M; Seneviratne S; Thompson J; Naserikia M; Godic B; Stevenson M, 2022, Isolating the impacts of urban form and fabric from geography on urban heat and human thermal comfort, http://dx.doi.org/10.1002/essoar.10511203.2

Nice K; Nazarian N; Lipson M; Hart M; Seneviratne S; Thompson J; Naserikia M; Godic B; Stevenson M, 2022, Isolating the impacts of urban form and fabric from geography in assessing heat mitigation strategies, http://dx.doi.org/10.1002/essoar.10511203.1

Nazarian N; Krayenhoff S; Bechtel B; Hondula D; Paolini R; Vanos JK; Cheung T; Chow WTL; de Dear R; Jay O; Lee JKW; Martilli A; Middel A; Norford LK; Sadeghi M; Santamouris M; Schiavon S, 2021, Integrated Assessment of Urban Overheating Impacts on Human Life, http://dx.doi.org/10.1002/essoar.10508877.2

Nazarian N; Krayenhoff S; Bechtel B; Hondula D; Paolini R; Vanos JK; Cheung T; Chow WTL; de Dear R; Jay O; Lee JKW; Martilli A; Middel A; Norford LK; Sadeghi M; Santamouris M; Schiavon S, 2021, Integrated Assessment of Urban Overheating Impacts on Human Life, http://dx.doi.org/10.1002/essoar.10508877.1

Martilli A; Roth M; Chow WTL; Demuzere M; Lipson M; Krayenhoff ES; Sailor D; Nazarian N; Voogt J; Wouters H; Middel A; Stewart ID; Bechtel B; Christen A; Hart MA, 2020, Summer average urban-rural surface temperature differences do not indicate the need for urban heat reduction, http://dx.doi.org/10.31219/osf.io/8gnbf

Liu S; Nazarian N; Hart M; NIU J; Xie Y; de Dear R, Predicting Dynamic Thermal Sensation (Dts) in Outdoor Settings, http://dx.doi.org/10.2139/ssrn.4272520

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