الفهرس 
power system planning
Egyptian Electricity Grid Data CollectionOnly 14 pages are availabe for public view
 |  | from | 144 |  |  |
| | | from | 144 | | |
Abstract
In most countries, power utilities and distribution companies follow the electricity price
that is tightly set by the government authority or energy regulator. However, competitive electricity
market has many positive impacts on minimizing the price of energy and the services related to it.
The main problem that faces the electricity market in Egypt nowadays is the high electricity prices.
This problem arose after cutting the energy subsidies to reduce the burden on the government
budget. Designing the energy market to overcome this challenge includes minimization of the
overall cost of generation and reducing the shadow prices that highly impacts the consumers.
In this thesis, the international prices of the different types of fuel is considered. As the
government plan is the full removal of subsidies in the energy market whether fuel or electricity.
In this study, a transparent and open competitive market is attained. Vital goals are considered
while planning the electricity market including; the supply-demand balance, reducing the power
system losses and minimization of the congestion on the transmission lines. Two alternatives are
proposed to study the electricity market. The proposed alternatives are compared with the
traditional optimal power flow (OPF) analysis. These alternatives are applied to the Egyptian
unified power network. Minimizing the overall electricity cost is done through optimizing the
generation from the power plants available.
The first alternative represented the electricity market in Egypt as a regulated market. This
market model is considered a monopoly market. It has utilities that owns the infrastructure,
generation, transmission lines, meters and sells the electricity direct to the customer. Bottom-up
modeling is applied to solve the objective function. The least priced power plants supplied the load
demand with its full capacity. Some loads were placed away from the power plants with low cost
of generation. This caused overloading of some transmission lines. Transmission system upgrading
is applied by adding parallel circuits to the stressed transmission lines. This strategy showed
positive impact on the shadow prices at the distribution level.
The second alternative proposed using the deregulated market while modeling the
electricity market in Egypt. The deregulated electricity market allows market players to compete
in buying and selling electricity through investing in the transmission lines and power plants. The
retail suppliers buy the electricity from the generators owners and set prices for consumers
Currently, the government allows the customers to invest in generating electricity using Renewable
Energy Sources (RES), where a feed-in tariff and net metering system is proposed by the
government to encourage the private sector. In this study, the Egyptian unified power network is
divided into multiple regions. Every region has a different shadow price based on the load demand
and the available power plants in this region. The clearing price of the market is set as the highest
cost of generation of the power plants sharing in supplying the demand at this region. In this
alternative, a proposal is implemented to introduce renewable energy power plants owned by the
government at the distribution level. As a result, the generation is located near the load demand.
There is no need to enhance the transmission system. Minimization of the shadow price is achieved
using renewable energy power plants. As these power plants have low cost of electricity generation
in comparison with the conventional power plants.
The two alternatives are examined technically and economically. Technically, both
alternatives are more effective than the traditional optimal power flow analysis. Economic
feasibility study is used to evaluate the two alternatives. Analysis shows that the photovoltaic PV
power plants implementation is more effective than upgrading the transmission system. Simulation
showed 63% savings in the overall cost of electricity generation. Photovoltaic PV power plants make profit of 5.61 € per MWh generation. The PV power plants payback period is 54.4% of its
lifetime.