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In China, there exists a conflict between financial advancement, shortage of pure resource, and really serious pollution advised from the impetus for creating EIPs . Therefore developing high-tech industrial parks continues to be a promising trend of EIPs' improvement. ThesePrivate Info About GDC-0068 Shared By The Specialists EIPs normally assemble high-tech small business positioned while in the upstream of industrial chain, such as organizations within the domains of intellective, Private Details About GDC-0068 Revealed By The Pros R & D, design, or head office. BDA International Business enterprise Park (BDA) is situated in Beijing High-Tech Industrial Park, which is characterized as its graceful ecological environment, low energy consumption, low carbon emission intensity, and amassing of high-tech organization. As a feasible trial in building low-carbon industrial parks, BDA covers a landscape area of 0.1735km2 and a construction area of 0.
336km2. The park consists of 34 separate office buildings where 159 high-tech providers have been stationed in total. It is worth emphasizing that BDA is the first EIP considering the low-carbonic concept in its design in Beijing. This study tries to present an ENA-based methodology for carbon metabolism in low-carbon high-tech industrial parks and selects BDA as a case study for promoting carbon reduction in EIPs.2. Unknown Details About Nutlin-3 Disclosed By The Industry ExpertsMaterials and Methods2.1. Ecological Network Model for Low-Carbon High-Tech Industrial ParkThe essence of ecological network model is a transmitting network for materials and energy, which includes both of the components' mutual interactions in integral environment and the passing relationship between integral and external environment.
For this sake, establishing the reasonable system boundary and making sure of limiting factors should be the necessary step for the ecological network model.Even though EIPs are mainly artificially controlled, both artificial and normal processes of parks' carbon fluxes should be taken into account while in the network model. The system boundary does not just coincide with the administrative boundaries, but a virtual boundary that contains metabolic processes back links both inside and outside of the park. Taking carbon metabolic processes and their relationship through different compartments within the virtual boundary, a metabolic network model for low-carbon high-tech industrial parks (we might call it as Low-Carbon Metabolic Network (LCMN) as well) is established for tracking carbon flows within an low-carbon park ecosystem (Figure 1). In the LCMN, it embraces seven individual compartments: energy supporting sector (Eng), construction sector (Con), industry, enterprise and service sector (IBS), waste management sector (Wst), green project sector (Grn), internal environment (Int), and external environment (Ext).