Methodology for bidding on ancillary services capacity market, for large cascading hydropower systems

Lundström, Johanna

January 2024

Participating in the ancillary services market, alongside the day-ahead market, can be economically beneficial for market actors. However, adopting an optimal bidding strategy is not straight forward. The decision-making process is subject to uncertainty, due to the prices being unknown before gate closure times. Furthermore, at some instances, the day-ahead production schedule might have to change to obtain the ability of reserving capacity. Previous research have studied the gains of adopting a coordinated bidding strategy. However, most of this research focus on the day-ahead market and the intraday market. Less focus it put on the ancillary services market. Additionally, smaller case studies are often carried out in previous research. For producers owning multiple power plants, treating every plant individually turns into a time consuming and complex process. This project constructs a model that instead uses a top-down approach. A system of hydropower plants is aggregated into one curve, representing the water valuation. This, together with a representation of available capacity for the system, gives the cost of delivering capacity. The cost is incurred through not producing optimally on the day-ahead market. Thereafter, modern portfolio theory is applied when determining how to allocate between the different products. Modifications to the traditional theory are made in order to better suit this context. Price forecasts are modelled as expected return, and historical price forecasting errors represents the risk. The model output is bid ladders for all capacity ancillary services. A top-down approach makes it possible for large scale producers to adopt the methodology, and results in a structured way of constructing the bids, while aiming at spreading the risk.

ancillary services

capacity market

bidding strategy

hydropower system

modern portfolio theory

Energy Systems

Energisystem

Congo-Nigeria hydroelectric superhighway grid : an economic viable option / Anieheobi Callistus C.

Anieheobi, Callistus Chukwuemeka

January 2008

Electricity availability and stability have a great contributory share of industrialization growth rate, poverty statistics, unemployment, foreign investors' participation, medium and small scale encouragement, crime and mortality rates recorded in any country. Nigeria as a country has been challenged with unstable and unreliable power supply. There are many problems associated with electricity production in Nigeria. Such problems are recorded in the generation, transmission and distribution facets of electricity production. With a multi-faceted problem, this document has been developed to deal with the economic aspect of power generation in Nigeria. Out of numerous technologies that are used in power generation, Nigerian predominantly sources its electricity supply from gas power plants and hydropower systems located within the country. Unfortunately, the Nigeria hydropower has been challenged with hydrological shortfalls. The gas power plant which is now conventional is being challenged with the developing gas technology around the globe. This development has adversely affected the cost of gas and subsequently the cost of power production using gas power plants. As a result of hydrological limitations on Nigerian hydropower dams, effect of gas price on cost of energy produced and diversifying gas technology, harnessing electric energy from Inga falls of River Congo was considered as an economic choice of power production in Nigeria. The choice of power production adopted in this document was made from an economic viability studies carried out between Nigerian gas power plants and hydropower production from the River Congo. The choice of technology employed for harnessing electric energy is largely dependent on the economic factors that go with the development. While some of these technologies go with large initial capital investment some are challenged with geometric increase of running cost. As applied in this work, the Net Present Value, Internal Rate of Return, Levelized Cost of Energy and Cash Flow Trend Analysis are suitable tools to determine choice of power plant. These tools were integrated and developed as an NILC model. In the analysis presented in this dissertation, the economic viability of the two power plants selected was determined with the use of the Net Present Value, Internal Rate of Return, Levelized Cost of Energy and Cash Flow Trend Analysis (NILC) model. The model was used to measure the economic viability quantities of the two power plants selected for economic comparison. After the completion of economic comparative analysis, hydropower production from the River Congo was concluded to be a better choice of power production compared to the conventional gas power plant option in Nigeria. / Thesis (M.Ing. (Development and Management Engineering))--North-West University, Potchefstroom Campus, 2009.

Economic viable project

Inga hydropower system

Levelized cost of energy

Megawatts

Power Holding Company of Nigeria, PLC

Superhighway grid

Congo-Nigeria hydroelectric superhighway grid : an economic viable option / Anieheobi Callistus C.

Anieheobi, Callistus Chukwuemeka

January 2008

Electricity availability and stability have a great contributory share of industrialization growth rate, poverty statistics, unemployment, foreign investors' participation, medium and small scale encouragement, crime and mortality rates recorded in any country. Nigeria as a country has been challenged with unstable and unreliable power supply. There are many problems associated with electricity production in Nigeria. Such problems are recorded in the generation, transmission and distribution facets of electricity production. With a multi-faceted problem, this document has been developed to deal with the economic aspect of power generation in Nigeria. Out of numerous technologies that are used in power generation, Nigerian predominantly sources its electricity supply from gas power plants and hydropower systems located within the country. Unfortunately, the Nigeria hydropower has been challenged with hydrological shortfalls. The gas power plant which is now conventional is being challenged with the developing gas technology around the globe. This development has adversely affected the cost of gas and subsequently the cost of power production using gas power plants. As a result of hydrological limitations on Nigerian hydropower dams, effect of gas price on cost of energy produced and diversifying gas technology, harnessing electric energy from Inga falls of River Congo was considered as an economic choice of power production in Nigeria. The choice of power production adopted in this document was made from an economic viability studies carried out between Nigerian gas power plants and hydropower production from the River Congo. The choice of technology employed for harnessing electric energy is largely dependent on the economic factors that go with the development. While some of these technologies go with large initial capital investment some are challenged with geometric increase of running cost. As applied in this work, the Net Present Value, Internal Rate of Return, Levelized Cost of Energy and Cash Flow Trend Analysis are suitable tools to determine choice of power plant. These tools were integrated and developed as an NILC model. In the analysis presented in this dissertation, the economic viability of the two power plants selected was determined with the use of the Net Present Value, Internal Rate of Return, Levelized Cost of Energy and Cash Flow Trend Analysis (NILC) model. The model was used to measure the economic viability quantities of the two power plants selected for economic comparison. After the completion of economic comparative analysis, hydropower production from the River Congo was concluded to be a better choice of power production compared to the conventional gas power plant option in Nigeria. / Thesis (M.Ing. (Development and Management Engineering))--North-West University, Potchefstroom Campus, 2009.

Economic viable project

Inga hydropower system

Levelized cost of energy

Megawatts

Power Holding Company of Nigeria, PLC

Superhighway grid

A Bayesian Stochastic Optimization Model For A Multi-Reservoir Hydropower System

Nirmala, B

12 1900

No description available.

Reservoirs

Hydroelectric Power Generation

Optimization Theory

Multi-Reservoir Hydropower System

Bayesian Stochastic Optimization Model

Hydraulic Engineering