Type: Working Paper
The Gas Transportation Network as a ‘Lego’ Game: How to Play with It?
Working Paper, EUI RSCAS, 2010/42, Loyola de Palacio Programme on Energy Policy, [Florence School of Regulation], [Energy]
GLACHANT, Jean-Michel, HALLACK, Michelle, The Gas Transportation Network as a ‘Lego’ Game: How to Play with It?, EUI RSCAS, 2010/42, Loyola de Palacio Programme on Energy Policy, [Florence School of Regulation], [Energy] - https://hdl.handle.net/1814/13975
Retrieved from Cadmus, EUI Research Repository
Gas transportation networks exhibit a quite substantial variety of technical and economical properties ranges roughly from an entrenched natural monopoly to near to an open competition platform. This empirical fact is widely known and accepted. However the corresponding frame of network analysis is lacking or quite fuzzy. As an infrastructure, can a gas network evolve or not from a natural monopoly (an essential facility) to an open infrastructure (a “highway” facility)? How can it be done with the same transportation infrastructure components within the same physical gas laws? Our paper provides a unified analytical frame for all types of gas transportation networks. It shows that gas transport networks are made of several components which can be combined in different ways. This very “lego property” of gas networks permits different designs with different economic properties while a certain infrastructural base and set of gas laws is common to all transportation networks. Therefore the notion of “gas transportation network” as a general and abstract concept does not have robust economic properties. The variety and modularity of gas networks come from the diversity of components, the variety of components combinations and the historical inclusion of components in the network. First, a gas network can combine different types of network components (primary or secondary ones). Second, the same components can be combined in different ways (notably regarding actual connections and flow paths). Third, as a capital-intensive infrastructure combining various specific assets, gas transportation networks show strong “path dependency” properties as they evolve slowly over time by moving from an already existing base. The heterogeneity of gas networks as sets of components comes firstly from the heterogeneity of the network components themselves, secondly from the different possibilities to combine these components and thirdly from the ‘path dependence’ character of gas network constructions. These three characteristics of gas networks explain the diversity of economic proprieties of the existent gas networks going from natural monopoly to competitive markets.
Loyola de Palacio Programme on Energy Policy
Cadmus permanent link: https://hdl.handle.net/1814/13975
Series/Number: EUI RSCAS; 2010/42; Loyola de Palacio Programme on Energy Policy; [Florence School of Regulation]; [Energy]