1 research outputs found
Nonzero-Sum Relationships in Mitigating Urban Carbon Emissions: A Dynamic Network Simulation
The
“stove-pipe” way of thinking has been mostly
used in mitigating carbon emissions and managing socioeconomics because
of its convenience of implementation. However, systems-oriented approaches
become imperative in pursuit of an efficient regulation of carbon
emissions from systems as complicated as urban systems. The aim of
this paper is to establish a dynamic network approach that is capable
of assessing the effectiveness of carbon emissions mitigation in a
more holistic way. A carbon metabolic network is constructed by modeling
the carbon flows between economic sectors and environment. With the
network shocked by interventions to the sectoral carbon flows, indirect
emissions from the city are accounted for under certain carbon mitigation
strategies. The nonzero-sum relationships between sectors and environmental
components are identified based on utility analysis, which synthesize
the nature of direct and indirect network interactions. The results
of the case study of Beijing suggest that the stove-pipe mitigation
strategies targeted the economic sectors might be not as efficient
as they were expected. A direct cutting in material or energy import
to the sectors may result in a rebound in indirect emissions and thus
fails to achieve the carbon mitigation goal of the city as a whole.
A promising way of foreseeing the dynamic mechanism of emissions is
to analyze the nonzero-sum relationships between important urban components.
Thinking cities as systems of interactions, the network approach is
potentially a strong tool for appraising and filtering mitigation
strategies of carbon emissions