We propose a model where wholesale electricity prices are explained by two state variables: demand and capacity. We derive analytical expressions to price forward contracts and to calculate the forward premium. We apply our model to the PJM, England and Wales, and Nord Pool markets. Our empirical findings indicate that volatility of demand is seasonal and that the market price of demand risk is also seasonal and positive, both of which exert an upward (seasonal) pressure on the price of forward contracts. We assume that both volatility of capacity and the market price of capacity risk are constant and find that, depending on the market and period under study, it could either exert an upward or downward pressure on forward prices. In all mar...
In this paper we address the issue of modeling spot electricity prices. After analyzing factors lead...
In this paper we provide a framework that explains how the market risk premium, defined as the diffe...
Gabriel Fiuza de Braganca slide presentation to the WEAI 85th Annual Conference held 1 July 2010 in ...
We propose a model where wholesale electricity prices are explained by two state variables: demand a...
We propose a model where wholesale electricity prices are explained by two state variables: demand a...
We propose a model where wholesale electricity prices are explained by two state variables: demand a...
We propose a model where wholesale electricity prices are explained by two state variables: demand a...
We present a spot price model for wholesale electricity prices which incorporates forward looking i...
We present a spot price model for wholesale electricity prices which incorporates forward looking in...
(WORK IN PROGRESS) We propose a two factor model for the valuation of electricity derivatives contra...
In this paper we present a mean-reverting jump diffusion model for the electricity spot price and de...
This paper presents a mean-reverting jump diffusion model for the electricity spot price and derives...
Electricity is a non-storable commodity frequently traded in complex markets characterized by oligop...
In this paper we address the issue of modeling spot electricity prices. After analyzing factors lead...
In this paper we provide a framework that explains how the market risk premium, defined as the diffe...
Gabriel Fiuza de Braganca slide presentation to the WEAI 85th Annual Conference held 1 July 2010 in ...
We propose a model where wholesale electricity prices are explained by two state variables: demand a...
We propose a model where wholesale electricity prices are explained by two state variables: demand a...
We propose a model where wholesale electricity prices are explained by two state variables: demand a...
We propose a model where wholesale electricity prices are explained by two state variables: demand a...
We present a spot price model for wholesale electricity prices which incorporates forward looking i...
We present a spot price model for wholesale electricity prices which incorporates forward looking in...
(WORK IN PROGRESS) We propose a two factor model for the valuation of electricity derivatives contra...
In this paper we present a mean-reverting jump diffusion model for the electricity spot price and de...
This paper presents a mean-reverting jump diffusion model for the electricity spot price and derives...
Electricity is a non-storable commodity frequently traded in complex markets characterized by oligop...
In this paper we address the issue of modeling spot electricity prices. After analyzing factors lead...
In this paper we provide a framework that explains how the market risk premium, defined as the diffe...
Gabriel Fiuza de Braganca slide presentation to the WEAI 85th Annual Conference held 1 July 2010 in ...