Carbon emission accounting and low-carbon optimization method for construction land planning scheme

Abstract

The invention discloses a carbon emission accounting and low-carbon optimization method for a territorial space planning construction land planning scheme. The method comprises the following steps: establishing a construction land carbon emission intensity quantitative accounting system; accounting and analyzing the carbon emission intensity of the construction land of the pre-planning scheme; andformulating a planning optimization scheme under a carbon emission constraint target. According to the method, the land carbon emission intensity quantitative accounting system, the main constraint area and main cause land identification and a land intensity and land structure optimization method are combined, a construction land low-carbon planning map and a carbon emission constraint index system are used as two important tools for planning and controlling carbon emission, carbon emission accounting and low-carbon optimization are comprehensively and conveniently carried out on a territorial space planning scheme, and a good foundation is built for low-carbon development of a built-up area in the future in the urban space planning stage. The method is high in universality, operability and convenience and remarkable in low-carbon optimization result, and has positive practical significance and promotion effect on low-carbon development of territorial space planning.

Description

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AI Technical Summary

Benefits of technology

Inventors have developed an improved way to manage greenhouse gas (GH) emitted from buildings during their building's life cycle. They found that these measures were associated with increased CO2 levels compared to previous estimates based only on environmental impact data or other variables like temperature. By analyzing them, they discovered ways to reduce GH emitting into nearby environments through better energy efficiency management strategies. Overall, the inventor provides a more efficient and cost-effective approach towards reducing global warming caused by fossil fuel use.

Problems solved by technology

This patents describes different ways to calculate the amount of CO 2 released from buildings during their lifetime based primarily on factors like building design or environmental impacts such as air pollution levels. However, current systems lack sufficient detail about how these factors affect the final outcome of an entire project's life cycle. Therefore, existing models may lead to overestimated values when applied to new projects with lower economic benefits due to poorly understood relationships between resource usage and carbon dioxide production rates.

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