Volume 28, Issue 3-3, September 2024

 

ASSESSMENT OF THE SPATIAL CONFIGURATION PATTERN IN TIRUCHIRAPPALLI CITY FOR ENERGY STUDIES THROUGH GENERATIVE URBAN PROTOTYPE MODELS: A CASE FOR WARM AND HUMID CLIMATE


Authors: G. R. Madhavan, Dr D. Kannamma

Abstract: Developing countries with complex urban spatial configurations strive to control urbanization and its impact on energy consumption. The current study has used Tiruchirappalli city in India as a study area to demonstrate the impact on cooling energy consumption by complex urban spatial configurations. To comprehend the complexity, sixty-five urban prototypes were generated through permutation and combination using local climatic zones scheme. The image-based binary classification model was used to categorize the morphologies in the city. The study aims to investigate the cooling energy consumption of a heterogeneous urban spatial configuration through prototype models. The urban prototypes
were grouped using the unsupervised machine learning approach. The validation for the prototypes was conducted through the RMSE method, and the errors lie between 0.45 and
0.68. The results indicated that increasing the green cover ratio on the combination of high and mid-rise spatial configurations is ineffective in reducing the cooling energy. In contrast,
the combination of low-rise and mid-rise spatial configurations consumed less energy for air-conditioning when the green cover ratio was increased. The results conclude that
the combination of high-rise with open low-rise spatial configuration is unsuitable for warm and humid climate. The high frequency of the cooling energy was between 120Gjs to 250Gjs
which explains that the complexity of the spatial configuration in the city helps to reduce the energy utilized for air conditioning. This research aids planners and energy policymakers
in the decision-making process of city spatial planning.

Keywords: local climatic zones, image classification, urban morphology, cooling load consumption, machine learning, climate change

Article info:

Received: May 01, 2024| Revised: August 31, 2024| Accepted: September 06, 2024


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