Landscape Design Planning and Research of Renewable Energy Application Projects from a Sustainable Perspective

Authors

  • Shibo Fei chool of Art, Taizhou Polytechnic College, Taizhou, Jiangsu (China) Author

DOI:

https://doi.org/10.52152/

Keywords:

Sustainable Perspective, Low-carbon Philosophy, Landscape Design, Renewable Energy, Design Principles

Abstract

The substantial emission of carbon exacerbates climate change, posing a threat to human survival and sustainable development. The primary inducement for the carbon emission issue is the excessive dependence of human activities on fossil energy. The construction industry is among the major sectors contributing to carbon emissions, and the low-carbon development within this industry serves as the cyclical engine for the path towards carbon reduction. Currently, there is limited research that integrates low-carbon development with the landscape design of renewable energy projects. Most studies emphasize the application of relevant low-carbon measures, overlooking the landmark effects of building decarbonization. Addressing how to truly achieve landscape design for renewable energy projects from a sustainable perspective based on relevant carbon emission quantification indicators during the architectural design phase is an urgent problem to be solved. This paper takes a sustainable perspective as the starting point and systematically summarizes landscape design concepts from this perspective. It proposes three major design approaches: ecological sustainability, cultural integration, and the application of advanced technology. Using these approaches, the paper tackles the balance between economics, energy, and the environment in landscape design, recognizing it as essentially a high-dimensional multi-objective optimization problem from a methodological perspective. The paper introduces an energy-economy-environment coupling model and utilizes big data. After low-carbon planning and design, both the net carbon footprint and total carbon footprint of the landscape significantly decrease. The Greenfield carbon sequestration per kilogram increases from 301,023.21 to the current 347,856.02, with an increase of 46,832.81.

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Published

2024-08-12

Issue

Section

Articles