Cooperation to promote the adoption of electricity efficient consumption technologies electricity consumption
Keywords:
Delays, Cooperation, Trust, Efficient Technologies, CO2 accumulation in the atmosphere, Energy, ElectricityAbstract
This paper presents a model based on differential equations which evaluates the effect of changing the delay value of cooperation in a mechanism based on trust, which was implemented to promote the adoption of efficient technologies electricity consumption in a simulation model. The model used system dynamics to study the effects of delays in promoting cooperation to reduce CO2 emissions by adopting efficient technologies of energy consumption. We claim this conclusion is important to develop institutions which promote effective cooperation to solve climate change.
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l. E. Agency, «C02 EMISSIONS FROM FUEL COMBUSTION,» OECD/IEA, Paris, 2010.
E. Ostrom y J. Walker , «Trust and reciprocity: Interdisciplinary lessons from experimental,» Journal of Economic Behavior & Organization, vol. 55, nº 1, pp. 93-99, 2004-.
K. Peter, «Social dilemmas: The anatomy of cooperation.,» Annual Review of Sociology, vol. 24-, pp. 183-214-, 1998.
E. Ostrom , A behavioral approach to the rational choice theory of collective action. In Polycentric games and institutions: readings from the Workshop in Political Theory and Policy Analysis, Lansing: University of Michigan Press., 2000.
J. A. Parra Valencia, «Constructo para la evaluación de la cooperación en dilemas sociales de gran escala.,» Universidad Nacional de Colombia. Doctorado en Ingeniería Sistemas., Medellín, 2010.
J. A. Parra Valencia y l. Dyner, «Ozone depletion and the depletion of cooperation: Model-based management to keep collective action running long term,» de Proceedings International System, St. Gallen, 2012c.
J. A. Parra Valencia y l. Dyner, «Can we reverse the atmospheric co2 concentration trend,» de Proceedings International System Dynamics Conference. System Dynamics Society, St. Gallen, 2012a.
J. A. Parra Valencia y l. Dyner, Cooperation in Large Scale Social Dilemmas: Insights about the Effectiveness of Mechanisms to Promote Collective Action, LAP LAMBERT Academic Publishing, 2012b.
J. A. Parra Valencia, Evaluación de la Cooperación en Dilemas Sociales de Gran Escala: Un enfoque desde la Dinámica de Sistemas para la evaluación de mecanismos de promoción de la acción colectiva., Madrid: Académica Española, 2012a.
J. A. Parra Valencia, Cooperation in Large Scale Social Dilemmas: Insights about the Effectiveness of Mechanisms to Promote Collective Action, LAP LAMBERT Academic Publishing, 2012b.
J. A. Parra Valencia y l. Dyner, «Can we reverse the atmospheric co2 concentration trend using cooperation?: Model-based management for effective cooperation.,» de Proceedings International System Dynamics Conference. System Dynamics Society, St. Gallen, 2012a.
P. Parker, l. Rowlands y D. Scott, «Assessing the potential to reduce greenhouse gas emissions in waterloo region houses: Is the kyoto target possible,» Environments, vol. 28, nº 3, pp. 29-56, 2001.
P. Newton y S. Tucker, «Pathways to decarbonizing the housing sector: A scenario analysis,» Building Research and Information, vol. 39, nº 1, pp. 34-50, 2011.
Z. Varga, l. Rabi y K. Kubovics Stocz, «Process Simulation for Improve energy efficiency, maximize asset utilization and increase in feed tlexibility in a crude oil refinery,» CHEMICAL ENGINEERING TRANSACTIONS , vol. 21, pp. 1453-1458, 2010.
K. Li, J. Wu, Y. Jiang, Z. Hassan, Q. Lv, L. Shang y D. Maksimovic, «Large-Scale Battery System Modeling and Analysis for Emerging ElectricDrive Vehicles,» de Low-Power Electronics and Design (ISLPED), 2010 ACM/IEEE International Symposium on, Austin, TX, USA, 2010.
H. Koyanagi y H. Hukao, «Study on energy conservation and economical condition of "PEFC Apartment House';» ASHRAE Transactions, vol. 9, nº 64, p. 629-636, 2009.
C. M. White, B. R. Strazisar, E. J. Granite, J. S. Hoffman y H. W. Pennline, «Separation and capture of C02 from large stationary sources and sequestration in geological formations--coalbeds and deep saline aquifers,» J ournal of the Air and Waste Management Association, vol. 53, nº 6, p. 645-715, 2003.
J. Damtoft, J. Lukasik, D. Herfort, D. Sorrentino y E. Gartner, «Sustainable development and dimate change initiatives,» Cement and Concrete Research, vol. 38, nº 2, p. 115-127, 2008.
P. Kamat, «Harvesting photons with carbon nanotubes,» Nano Today, vol. 1, nº 4, pp. 20-27, 2006.
U. Collier y R. Lofstedt, «Think Globally, Act Locally? Local Climate Change and Energy Policies in Sweden and the UK,» Global Environmental Change-Human And Policy Dimensions, vol. 7, º n 1, pp. 25-40, 1997.
S. Nader, «Paths to a low-carbon economy-The Masdar example,» Energy Procedia, vol. 1, nº 1, p. 3951-3958, 2009.
N. Lidula, N. Mithulananthan, W. Ongsakul, C. Widjaya y R. Henson, «ASEAN towards clean and sustainable energy: Potentials, utilization and barriers,» Renewable Energy, vol. 32, nº 9, p. 1441-1452, 2007.
M. Williams y B. Utz, «Doe fe distributed generation program,» Journal of Fue! Cell Science and Technology, vol. 1, nº 2, pp. 18-20, 2004.
P. Stigsona, E. Dotzauera y J. Yana, «Improving policy making through government-industry policy learning: The case of a novel Swedish policy framework,» Applied Energy, vol. 86, nº 4, p. 399-406, 2009.
P. Dewick y M. Miozzo, «Sustainable technologies and the innovation-regulation paradox,» Futures, vol. 34, nº 9-10, p. 823-840, 2002.
J. Aracil Santoja, Introducción a la Dinámica de Sistemas, Madrid: Alianza editorial AV.Textos. , 1992.
Agudelo, B. A. Martínez, L. M. Oliveros y M. Y. Oliveros, «Las TICs: herramientas motivadoras para la apropiación de la lecto-escritura a través de textos.,» Universidad Cooperativa de Colombia, Medellín, 2012.
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