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ESD
Dissertation Defense – Chia-Chin
Cheng
Electricity
Demand-Side Management for an Energy
Efficient Future in China: Technology
Options and Policy Priorities
Abstract:
The main objective of this research
is to identify robust technology and
policy options which achieve substantial
reductions in electricity demand in
China’s Shandong Province. This
research utilizes a scenario-based
approach to identify sensible and
feasible energy efficiency and load
reduction strategies. The research
consists of technical analyses through
the development of an hourly load
simulation model to study the time
and temperature sensitive impacts
on electricity demand growth by different
demand-side management (DSM) scenarios
and a policy analysis to formulate
policy priorities based on the socio-economic
and environmental realities in China.
This bottom-up comprehensive study
helps inform decision-making given
the technological, consumption and
socio-economic conditions in large-scale
electricity grid systems of Shandong
and China, thus preferred DSM strategies
are identified, and sensible policy
recommendations are made with respect
to Shandong province and China as
a whole.
This
study developed a computer-based modeling
tool for peak-load based electric
demand analysis and long-term projections.
The model simulates disaggregated
hourly electric loads by end-user
types with temperature-sensitive load
simulation capability, which takes
into account time use patterns, life-style
and behavioral factors, distributed
consumption behaviors of electricity
users, appliances and equipment utilization
patterns, environmental factors, and
industrial structural and operational
parameters. The simulation and scenario
based research methodology provides
a comparative basis, and dynamic insights
to electricity demand in areas when
limited generation and consumption
information is available, which is
especially appropriate for electricity
sector studies in developing countries.
The
research showed that demand side management
strategies could result in significant
reduction in the peak loads as well
as the total electricity consumption
in Shandong. The results of the technical
analysis concluded that (1) temperature
sensitive load makes up the fastest
growing demand within the entire consumption
profile; (2) implementation of building
energy efficiency strategies demonstrates
the largest energy saving potential;
(3) implementation of appliances standards,
has limited effects on energy saving;
(4) load management strategies to
induce changes in consumption behaviors
also shows great potential, however,
they are difficult to estimate; and
(5) urbanization policies also have
a strong impact on electricity consumption.
The
recommended DSM policy priorities
are based on the energy-saving potentials
of the DSM strategies, which are listed
in priority order: (1) improvement
of building technology, (2) management
of new installation first (3) management
of temperature sensitive loads, (4)
implementation of behavioral and load
management strategies, (5) better
management of urbanization policies
(6) promotion of aggressive industrial
motor substitution measures &
industrial structural changes, and
(6) improvement of appliance efficiency.
This research also formulated integrated
DSM policy recommendations to the
Chinese government that are centered
by the development of coordinated
DSM policy framework, and that are
based upon the current technological,
managerial and institutional capacities
of Chinese industry and governmental
agencies. The details include moving
away from the traditional utility
centered IRP/DSM framework, developing
a robust energy efficiency services
industry, setting correct DSM priorities
and implementing them, developing
and upgrading the domestic energy
efficiency product industry, and engaging
end-user participation.
Committee
Chair:
David H. Marks
Thesis
Supervisor:
Stephen R. Connors
Thesis
Advisor:
Karen R. Polenske, Joanne Kauffman
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