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Carbon emission scenario prediction for highway construction projects

Qixian Wu, Yun Chen, Congying Li, Xiaoya Shi

2024Frontiers in Environmental Science13 citationsDOIOpen Access PDF

Abstract

In order to carry out the research on the measurement and prediction of carbon emissions from highway projects, the prediction index system is constructed by selecting seven influencing factors, namely, urbanization rate, industrial structure, energy intensity, energy structure, key low-carbon technologies, highway construction planning, and green financial support. The carbon emission coefficient method is used to measure the carbon emissions of highway projects from the perspective of energy consumption, and finally, a carbon emission scenario prediction model based on the scenario analysis method and the LSTM algorithm of the recurrent neural network is constructed to put forward a new way of predicting the carbon emissions of highway projects. Taking Hunan province as a case study object, the carbon emission trends in the next 15 years are predicted under three scenarios: low carbon, baseline, and high carbon. The results show that the highway project in Hunan province is expected to peak in 2031 under the low-carbon scenario, in 2037 under the baseline scenario, and around 2044 under the high-carbon scenario. It is also found that energy saving and emission reduction measures have a certain lag in the emission reduction effect of highway projects. Finally, based on this, suggestions and countermeasures for carbon emission reduction of highway development in Hunan province are proposed.

Topics & Concepts

Greenhouse gasCarbon fibersEnvironmental scienceBaseline (sea)Research ObjectEnergy consumptionEmission intensityScenario analysisUrbanizationEnvironmental engineeringEnvironmental economicsComputer scienceEngineeringBusinessFinanceOceanographyAlgorithmElectrical engineeringEcologyEconomic growthEconomicsBusiness administrationComposite numberExcitationBiologyGeologyVehicle emissions and performanceEnvironmental Impact and SustainabilityAir Quality and Health Impacts