As the country continues to attach importance to environmental protection, the concept of low carbon and green has been widely used in the design of various architectural landscapes, which has brought a greater boost to the development of the construction industry. With the continuous increase of various construction projects, the demand for energy is also increasing. Therefore, the development of new energy has played an important role in the architectural landscape design. With the continuous improvement of people's living standards and the importance of building green and environmental protection, how to reasonably highlight the concept of low-carbon and green environmental protection in the color design of landscape architecture has become a major challenge and higher technical requirements for architects. This paper conducts research on the analysis of the color elements of the low-carbon green concept in the architectural landscape. Based on the online management information, it has a simple understanding of the application of the low-carbon green concept in the architectural landscape, and then proposes the low-carbon green concept in the design principles of the color elements in the architectural landscape. In order to further understand the color element design of the low-carbon green concept in the architectural landscape, a questionnaire survey was conducted among the students and teachers of the School of Architecture. The application of low-carbon green concept is mainly the color design of lighting accounts for about 42%, and then the color design of the environment.

Yuxuan Dai. The Color Elements of Low-Carbon Green Concept in the Architectural Landscape. International Journal of Frontiers in Sociology (2021), Vol. 3, Issue 11: 104-109. https://doi.org/10.25236/IJFS.2021.031117.

[1] Xia B, X Li. Analysis and comparison on the potential of low-carbon architectural design strategies [J]. Sustainable Computing, 2019, 21(MAR.): 204-211.

[2] Xing H . Landscape Design of Colleges and Universities Based on Low Impact Concept: A Case Study of the Shared Training Base from Jiangsu Vocational Institute of Architectural Technology [J]. Journal of Landscape Research, 2018, v.10(04):24-27.

[3] Lee K, Choo S. A Hierarchy of Architectural Design Elements for Energy Saving of Tower Buildings in Korea Using Green BIM Simulation [J]. Advances in Civil Engineering, 2018, 2018(PT.1): 1-13.

[4] Zhang Y, Irving S, Peng L, et al. Design space exploration for device and architectural heterogeneity in chip-multiprocessors[J]. Microprocessors and Microsystems, 2016, 40(Feb.): 88-101.

[5] Mcleod R S, Swainson M. Chronic overheating in low carbon urban developments in a temperate climate [J]. Renewable & Sustainable Energy Reviews, 2017, 74(JUL.):201-220.

[6] Bousemma S, Allouche F K, Saidane I , et al. State of the art of greenway concept application in Tunisian green policy. A case study of an urban landscape in Sousse city[J]. International Journal of Environment and Geoinformatics, 2018, 5(1): 36-50.

[7] Na S. Case Analysis and Applicability Review of Parametric Design in Landscape Architectural Design [J]. Journal of the Korean Institute of Landscape Architecture, 2021, 49(2):1-16.

[8] Poulsen M, Lauring M . The Historical Influence of Landscape, Ecology and Climate on Danish Low-Rise Residential Architecture [J]. International journal of design & nature and ecodynamics, 2019, 14(2):91-102.

[9] Kopp J, Frajer J, Lehnert M, et al. Integrating Concepts of Blue-green Infrastructure to Support Multidisciplinary Planning of Sustainable Cities[J]. Problemy Ekorozwoju, 2021, 16(2): 137-146.

[10] Subin M C, Chowdhury S, Karthikeyan R. A review of upgradation of energy-efficient sustainable commercial greenhouses in Middle East climatic conditions [J]. Open Agriculture, 2021, 6(1): 308-328.

[11] Xiaoying, Lu, Yanhai, et al. Research on Architectural Landscape Culture of Zhuang Ethnic Villages in Northern Guangxi [J]. IOP Conference Series: Earth and Environmental Science, 2019, 267(6): 62029-62029.

[12] Uralov, A. Paculiarities of Architectural and Landscape Designing of Small Gardens [J]. Problems of Architecture and Construction, 2019, 1(4):8-8.