1. Cobre, Eficiencia Energética y Energías Renovables�
2.
3. Acerca de la Asociación Internacional del Cobre (ICA)�
5. Economía y Sustentabilidad��
8. When it comes to electrical system components and their relative importance with regards to achieving energy savings and greenhouse emission targets, the reality is actually quite different to what you may believe, either from reading the press, or from listening to politicians. Right now, many politicians are “in love”, if I can use such an affectionate term, with renewables. They go out of their way to promote them and to provide investment incentives. As I said earlier, however, many of you know that the real consequence is the cost burden on existing energy users and the general taxpayer.
This slide shows the benefits provided in terms of greenhouse gas and energy savings by investing one million $ in four different solutions.
Firstly, in electric motors – one of the must haves in the industrial age. For 1M$, the user can purchase 7000 high efficiency motors, save 160 gigawatt hours of electricity and 64 thousand tonne of CO2. This purchase will use around 14 tonne of copper mainly as winding wire. The second is for 150 rather boring, but very necessary voltage transformers for electricity distribution. Here the savings are 5 times those of motors, with a nice copper demand. Now let’s look at two modern technology, high profile components. I’ve just talked about turbines. The same million $ will save a quarter of the motor benefits and only use 2 tonne copper. Another renewable source, converting the sun’s energy into electricity doesn’t really do that much for the environment or for copper.
The bottom line is that it is the older, less exciting system components that deliver the benefits and the copper. We need to continue to get this message out to policy and decision makers. When it comes to electrical system components and their relative importance with regards to achieving energy savings and greenhouse emission targets, the reality is actually quite different to what you may believe, either from reading the press, or from listening to politicians. Right now, many politicians are “in love”, if I can use such an affectionate term, with renewables. They go out of their way to promote them and to provide investment incentives. As I said earlier, however, many of you know that the real consequence is the cost burden on existing energy users and the general taxpayer.
This slide shows the benefits provided in terms of greenhouse gas and energy savings by investing one million $ in four different solutions.
Firstly, in electric motors – one of the must haves in the industrial age. For 1M$, the user can purchase 7000 high efficiency motors, save 160 gigawatt hours of electricity and 64 thousand tonne of CO2. This purchase will use around 14 tonne of copper mainly as winding wire. The second is for 150 rather boring, but very necessary voltage transformers for electricity distribution. Here the savings are 5 times those of motors, with a nice copper demand. Now let’s look at two modern technology, high profile components. I’ve just talked about turbines. The same million $ will save a quarter of the motor benefits and only use 2 tonne copper. Another renewable source, converting the sun’s energy into electricity doesn’t really do that much for the environment or for copper.
The bottom line is that it is the older, less exciting system components that deliver the benefits and the copper. We need to continue to get this message out to policy and decision makers.
9. Acerca de la Eficiencia Energética Sustentable y sus Estrategias��
10. �Por favor, les pido que pongan em modulo presentation desde esse slide para que puedan entender mis ideas. Y van haciendo clic em las cajitas abajo del grupo 2 de cajitas.
11. Estrategia
Apoyo y regulación en la formulación y aplicación de reglamentos favorables
Trabajar con los fabricantes de equipos para acelerar la introducción y adopción de nuevas tecnologías
Comunicarse con los usuarios finales con respecto al valor de estas soluciones
Colaborar con los defensores de la energía sustentable en las actividades de desarrollo de mercado
Cooperar con los gobiernos, asociaciones y la industria privada para impulsar la transición del mercado
12. �Estrategia de Carbono para el Cobre� Algunas posibilidades
Redes de distribución eléctrica
Perdidas Mundiales: 1.279 TWh / al año; 30-50% de posibles mejoras
Ahorrando de 250 hasta 375 millones de toneladas de emisiones de CO2e por año
Por ejemplo, corrigiendo 1000 transformadores de alta eficiencia reducirían las emisiones de carbono en unas 5.000 ppm por año
Sistema de motores
Consumir 1.500 - 2.200 TWh / al año, 30% de posibles mejoras
900 - 1.400 millones de toneladas de emisiones de CO2e por año
Por ejemplo, corrigiendo motores de alta eficiencia de 7 MW de potencia, reducen las emisiones de carbono en unas 5.000 ppm por año
13. Cobre en sistemas de Energía Avanzada
14. Ejemplos: Actividades en Latinoamérica
15. Motores Eficientes
16. Leonardo Energy en Español
17. Algunos Hitos de las �Actividades en México 1997 – FIDE
2004 – ANCE, CONNUE
2005 – ANES, IPN, UNAM
2006 – BERKLEY, ICLEI
2007 –PROCALSOL, PNUD
2008 – CFE, SENER
2010 - Segundo Taller de Agencias de Eficiencia Energética en América Latina – Oct. 2010 México DF
18.
Parte II
Trabajo con Municipios
