Evaluation Model of Spatial Environmental Spillover Suitability of Middle School Buildings

Zheng Tan, Yiming He, Hao Liu

Ekoloji, 2019, Issue 108, Pages: 1385-1390

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Abstract

The niche fitness model can not only quantitatively study the niche fitness of urban human settlements environment quality in different regions, but also concisely and intuitively reveal the dominant factors and spatial differentiation rules that cause the regional differences of niche fitness of human settlements environment quality. The light environment in the space environment of middle school buildings is the focus of this paper. Through the environment analysis software Autodesk Ecotect and Radiance to assist in modeling, analysis and comparison, focusing on the light environment simulation of the middle school building working environment; and through the example simulation to illustrate the impact of maintenance and shading components on the light environment; finally, some follow-up research and suggestions on the lighting strategy of the middle school building are made. This provides a theoretical basis for decision-making and management departments to formulate urban planning plans.

Keywords

environment analysis software, middle school building space, light environment, shading components

References

  • He J (2013) Study of system security architecture. BioTechnology: An Indian Journal 8 (2):219-223.
  • Fan Z, Zhang L (2013) An architecture modeling method for supporting reliability-based risk analysis of ship command and control systems. Information Technology Journal 12 (11):2111-2120.
  • Wang R (2019) Livability design of residential building environment space. Ekoloji 28 (UNSP e107297107):2685-2696.
  • Childers CH, Hassan MK, Mauritz KA, Wiggins JS (2016) Molecular scale cure rate dependence of thermoset matrix polymers. Arabian Journal of Chemistry 9 (2SI):206-218.
  • Jones S, Pramanik A, Kanchanapally R, Nellore BPV, Begum S, Sweet C, Rays PC (2017) Multifunctional Three-Dimensional Chitosan/Gold Nanoparticle/Graphene oxide architecture for separation, Label-Free SERS identification of pharmaceutical contaminants, and effective killing of superbugs. Acs Sustainable Chemistry & Engineering 5 (8):7175-7187.