lunes, 17 de junio de 2013

Alumnos:
Oscar Yair Gonsales Sarate... ( RAcKSo..)
Edson Alejandro Garca sanches.

:( :( :) :) Onashgys

Importance of Electric Energy SavingsCurrently the use of electricity is essential for most of our activities with this type of energy we have a better quality of life. With just push buttons get light, heat, cold, sound or image. Their use is indispensable and we hardly stop to think about the importance and benefits when used efficiently.The power saving is fundamental to the use of energy resources; saving equivalent to reducing the consumption of fuel in electricity generation also avoiding the emission of greenhouse gases into the atmosphere.Our country has a lot of energy sources. In Mexico, the majority of electricity generation is done through the oil, coal and natural gas, significantly impacting the environment by relying on non-renewable resources such as fossil fuels.
When used is emitted into the atmosphere a lot of greenhouse gases, which, cause global warming of the earth, whose effects are being manifested and are devastating.FIDE ** Savings Trust ElectricityHow to save energy from my workplace?Save and use electricity efficiently and protect the environment, are not synonymous with sacrifice or reduce our level of comfort or satisfaction of our daily needs, however, a change of habits and attitudes can foster greater efficient use of electricity, the rational use of energy resources, protecting the family economy and the preservation of our natural environment. TheMinistry of Education has Jalisco easy application tips in schools and offices, which allow to train children in the education of electric power saving and changing bad habits in the offices, reducing the environmental impact from our workplace.Here are a list of tips you can apply in your school or office:

	Turn off electrical equipment Establish a rule that computers, printers, fans,heater / cooler water and even coffee, are off and possibly disconnected at the end of the workday.
	Frequently clean air conditioning filters Permanently establish a maintenance program and cleaningelectrical equipment, such as lamps and air conditioners.
	Turn off equipment when not in use Computers and other equipment (copiers and printers, illuminated), usually on all day and even at night. Turn them off at the end of workday.
	Turn off computer monitors You can save a lot of electricity if you turn off the monitor, it uses a high power consumption.
	Using solar energy Allow the sun to seep into the offices, raising curtains and /or blinds
	Do not allow waste energy through windows If the office has air conditioning, make sure windows are closed tightly.
	Turn off the lights Turn off lights whenever the offices are unoccupied.
	Reminder to turn off equipment Place reminders help get this important habit. Make newreminders from time to time, to re-draw the user's attention.
	Turn on just enough If you work at night, illuminate only the areas you need and turn off equipment when not in use.
	Employ electric energy saving technology A company should always choose a server with the most energy efficient available.
	optimizing Applications Inefficient software, including one that generates littlebusiness value, must be debugged, optimized ordiscontinued.
	Maintenance Data Centers The computer center managers should improve theefficiency of its facilities to ensure that all equipment isfunctioning optimally and reduce cooling requirements.
	Presence detectors Use occupancy sensors. These lamps turn off automaticallywhen not anyone.
	Power verification Request the last people who retire from the office, turn off the lights or give notice to shut off.
	Avoid standby electricity consumption • Disconnect the load, removing the plug from the outlet. • Use a manual switch or a power strip from which you can cut the supply current. • Use a more sophisticated element such as regulators, to turn off the computer without unconfigure fully functions

Proyecto

Materia ingles

Prof. Ma. Guadalupe Olvera Herrera

Integrantes:

Fonseca Chavez Carlos Eduardo
Garcia Sanchez Alejandro
Hinojosa Quintero Jose Luis
Ramirez Trejo Jonathan
Ojeda Ojeda Francisco

Importance of Electric Energy SavingsCurrently the use of electricity is essential for most of our activities with this type of energy we have a better quality of life. With just push buttons get light, heat, cold, sound or image. Their use is indispensable and we hardly stop to think about the importance and benefits when used efficiently.The power saving is fundamental to the use of energy resources; saving equivalent to reducing the consumption of fuel in electricity generation also avoiding the emission of greenhouse gases into the atmosphere.Our country has a lot of energy sources. In Mexico, the majority of electricity generation is done through the oil, coal and natural gas, significantly impacting the environment by relying on non-renewable resources such as fossil fuels.
When used is emitted into the atmosphere a lot of greenhouse gases, which, cause global warming of the earth, whose effects are being manifested and are devastating.FIDE ** Savings Trust Electricity
How to save energy from my workplace?Save and use electricity efficiently and protect the environment, are not synonymous with sacrifice or reduce our level of comfort or satisfaction of our daily needs, however, a change of habits and attitudes can foster greater efficient use of electricity, the rational use of energy resources, protecting the family economy and the preservation of our natural environment. The Ministry of Education has Jalisco easy application tips in schools and offices, which allow to train children in the education of electric power saving and changing bad habits in the offices, reducing the environmental impact from our workplace.Here are a list of tips you can apply in your school or office:

	Turn off electrical equipment Establish a rule that computers, printers, fans, heater / cooler water and even coffee, are off and possibly disconnected at the end of the workday.
	Frequently clean air conditioning filters Permanently establish a maintenance program and cleaning electrical equipment, such as lamps and air conditioners.
	Turn off equipment when not in use Computers and other equipment (copiers and printers, illuminated), usually on all day and even at night. Turn them off at the end of workday.
	Turn off computer monitors You can save a lot of electricity if you turn off the monitor, it uses a high power consumption.
	Using solar energy Allow the sun to seep into the offices, raising curtains and / or blinds
	Do not allow waste energy through windows If the office has air conditioning, make sure windows are closed tightly.
	Turn off the lights Turn off lights whenever the offices are unoccupied.
	Reminder to turn off equipment Place reminders help get this important habit. Make new reminders from time to time, to re-draw the user's attention.
	Turn on just enough If you work at night, illuminate only the areas you need and turn off equipment when not in use.
	Employ electric energy saving technology A company should always choose a server with the most energy efficient available.
	optimizing Applications Inefficient software, including one that generates little business value, must be debugged, optimized or discontinued.
	Maintenance Data Centers The computer center managers should improve the efficiency of its facilities to ensure that all equipment is functioning optimally and reduce cooling requirements.
	Presence detectors Use occupancy sensors. These lamps turn off automatically when not anyone.
	Power verification Request the last people who retire from the office, turn off the lights or give notice to shut off.
	Avoid standby electricity consumption • Disconnect the load, removing the plug from the outlet. • Use a manual switch or a power strip from which you can cut the supply current. • Use a more sophisticated element such as regulators, to turn off the computer without unconfigure fully functions

proyecto

Proyecto

Integrantes:

Sánchez Portillo Ángel Donaldo
Japera Mondragón Eduardo
Guerrero Serrano Erick
Granados Morenos Andy
Cubeiro García Eder
Ruiz Córdoba Carlos Antonio
serrato segovia julio
villatoro leon alexis daniel
Ahorro del Agua

In the project we will explain how we can save water using the eslectricidad. Every day people bathe in their house and lot gua is wasted when we step and we can use so we created a method to use water rather efficient engine using as energy transforms electrical energy into people mecanica.Cuando somewhat longer bathe percent of waste to be the drain, which arem with that water is pumped into a 1000 liter tank about the alluda will pump motor with water and that the deal to the toilet since day much water is used in the cups in the bathroom, so with this water is used for toilet and is always red aber a focus on and when the tank begins to fill the bulb lights up one green and so when you finish filling it will return to light the red light.
This project in order to save water using electricity.

Prof. Ma. Guadalupe Olvera Herrera

One of the best ways to help the environment is to reduce our energy consumption, since the forms of energy that are used today mostly are not clean nor sustainable. While these systems are not changed, the only thing left to do is reduce our consumption to harm and ensuring less energy for longer.
You will also save energy could mean significant savings in dinero.Para help we have compiled the best ways to save resources in your home, whether gas, water or electricity. You will see that most are fairly simple actions to which you could get used without problems.

Saving energy is the most effective way to reduce emissions of CO2 (carbon dioxide) into the atmosphere, and thus stop the global warming and climate change.
It is also the easiest and fastest way to achieve it. For every kilowatt / hour of electricity we save, we will avoid the emission of approximately one kilogram of CO2 in power plant which burns coal or oil to produce that electricity.
Also, save energy has additional benefits for the environment, as this avoided: acid rain, oil spills, air pollution, radioactive waste, risk of nuclear accidents, nuclear proliferation, destruction of forests, natural landscapes devastation, desertification .
All these advantages translate themselves into a better quality of life, especially if you consume less energy is linked to the improvement of the services it provides (light, heat, motion ...), ie it is improve energy efficiency.
This will contain the current status of energy waste: often consume too much energy, we do not need, receiving little or no service and sometimes poor service and even injury.

ANTONIO HERNÁNDEZ CAMPOS

domingo, 16 de junio de 2013

Monday April 8th, 2013

Electric Power for Today

Generation and transmission of electricity is the set of facilities that are used to transform other forms of energy into electricity and transport it to where it is consumed. The generation and transport of energy as electricity has important economic benefits because of the cost per unit produced. Electrical installations also allow use hydroelectric power at a great distance from where it is generated. These facilities typically use alternating current, since it is easy to reduce or increase the voltage transformers. Thus, each part of the system can work with the appropriate voltage. Electrical installations are six main elements:
The power
The transformers, which raise the voltage of the electricity generated at high voltages used in transmission lines
Transport lines
Substations where low signal voltage to suit their distribution lines
The distribution lines
The lower the voltage transformers which the value used by consumers.
In a typical installation, the power plant generators supply voltages of 26,000 volts higher voltages are not suitable for the difficulties in their isolation and the risk of short circuits and its consequences. This voltage is raised by a voltage transformer between 138,000 and 765,000 volts to the primary transmission line (the higher the tension in the line current and the lower the lower the losses, since they are proportional to the square of the intensity current). At the substation, the voltage becomes tensions between 69,000 and 138,000 volts to make it possible to transfer electricity to the distribution system. The new lower voltage transformers at each distribution point. Heavy industry often work at 33,000 volts (33 kV), and electric trains require 15 to 25 kilovolts. For supply to consumers is lower the tension: the industry usually work at voltages between 380 and 415 volts, and the houses are between 220 and 240 volts in some countries and between 110 and 125 in others.

Electric Power Statistics

The gross electricity demand in the Peninsula in November has reached 20,400 GWh, representing a decrease of 7.1% from the same month in 2010. Corrected for seasonal and working temperature, consumption has fallen peninsular 3.9% in this period.
In the first eleven months of the year gross demand of 233,474 GWh has been, up 1.6% from the same period in 2010. Once corrected for seasonal and working temperature, consumption was 0.8% lower than 2010.

ALUMNOS: ALAIN RUBEN OLGUIN RUBIO
MICHEL YAIR MARTINEZ FRAGOSO
GILBERTO SANDOVAL ROSAS.

On 6 November at 2.00 h 59.6% of demand (20,922 MW) was covered by wind power (12,476 MW), surpassing the previous high of 54% in the November 9, 2010. This was a historical challenge that Grid as system operator know how to manage without jeopardizing security of supply.
Also, the production of energy from wind has been in November 3738 GWh representing 17.7% of total production.
During this month the generation from renewable energy sources accounted for 32.1% of the total, 1.7 percentage points lower than in November 2010. In the first eleven months, renewable energy production has accounted for 32.6% of the total, while in the same period last year was 35%.
In November, 51.8% of electricity came from technologies that do not emit CO2.

Monday April 8th, 2013

Electric Power Statistics

The gross electricity demand in the Peninsula in November has reached 20,400 GWh, representing a decrease of 7.1% from the same month in 2010. Corrected for seasonal and working temperature, consumption has fallen peninsular 3.9% in this period.
In the first eleven months of the year gross demand of 233,474 GWh has been, up 1.6% from the same period in 2010. Once corrected for seasonal and working temperature, consumption was 0.8% lower than 2010.
ALUMNOS: ALAIN RUBEN OLGUIN RUBIO
MICHEL YAIR MARTINEZ FRAGOSO
GIBERTO SANDOVAL ROSAS

On 6 November at 2.00 h 59.6% of demand (20,922 MW) was covered by wind power (12,476 MW), surpassing the previous high of 54% in the November 9, 2010. This was a historical challenge that Grid as system operator know how to manage without jeopardizing security of supply.
Also, the production of energy from wind has been in November 3738 GWh representing 17.7% of total production.
During this month the generation from renewable energy sources accounted for 32.1% of the total, 1.7 percentage points lower than in November 2010. In the first eleven months, renewable energy production has accounted for 32.6% of the total, while in the same period last year was 35%.
In November, 51.8% of electricity came from technologies that do not emit CO2.

domingo, 7 de abril de 2013

CECyTEM

Tultitlán

Group:

"403"

Teacher:

Ma. Guadalupe Olvera Herrera

English Project

Members:

Baca Galindo Oswaldo

Sanchéz Donaldo Ángel

Sanchéz Peréz Monica

Serrato Segovia Julio

Villatoro Leon Alexis Daniel

Delivery Date:

Monday April 8th, 2013

Electric Power Statistics

The gross electricity demand in the Peninsula in November has reached 20,400 GWh, representing a decrease of 7.1% from the same month in 2010. Corrected for seasonal and working temperature, consumption has fallen peninsular 3.9% in this period.
In the first eleven months of the year gross demand of 233,474 GWh has been, up 1.6% from the same period in 2010. Once corrected for seasonal and working temperature, consumption was 0.8% lower than 2010.
On 6 November at 2.00 h 59.6% of demand (20,922 MW) was covered by wind power (12,476 MW), surpassing the previous high of 54% in the November 9, 2010. This was a historical challenge that Grid as system operator know how to manage without jeopardizing security of supply.
Also, the production of energy from wind has been in November 3738 GWh representing 17.7% of total production.
During this month the generation from renewable energy sources accounted for 32.1% of the total, 1.7 percentage points lower than in November 2010. In the first eleven months, renewable energy production has accounted for 32.6% of the total, while in the same period last year was 35%.
In November, 51.8% of electricity came from technologies that do not emit CO2.

viernes, 22 de marzo de 2013

OSCAR JAIR GONZALEZ ZARATE No.List. 6

EDSON ALEJANDRO GARCIA SANCHEZ No.List. 5

Energía eólica

Energía eólica es la energía obtenida del viento, es decir, la energía cinética generada por efecto de las corrientes de aire, y que es transmutada en otras formas útiles para las actividades humanas.
En la actualidad, la energía eólica es utilizada principalmente para producir energía eléctrica mediante aerogeneradores. A finales de 2011, la capacidad mundial de los generadores eólicos fue de 238 gigavatios.^[1] En 2011 la eólica generó alrededor del 3% del consumo de electricidad mundial.^[2] En España la energía eólica produjo un 16% del consumo eléctrico en 2011.^[3]
La energía eólica es un recurso abundante, renovable, limpio y ayuda a disminuir las emisiones de gases de efecto invernadero al reemplazar termoeléctricas a base de combustibles fósiles, lo que la convierte en un tipo de energía verde. Su principal inconveniente es la intermitencia del viento.

La energía del viento está relacionada con el movimiento de las masas de aire que se desplazan de áreas de alta presión atmosférica hacia áreas adyacentes de baja presión, con velocidades proporcionales al gradiente de presión.
Los vientos son generados a causa del calentamiento no uniforme de la superficie terrestre por parte de la radiación solar, entre el 1 y 2 % de la energía proveniente del sol se convierte en viento. De día, las masas de aire sobre los océanos, los mares y los lagos se mantienen frías con relación a las áreas vecinas situadas sobre las masas continentales.
Los continentes absorben una menor cantidad de luz solar, por lo tanto el aire que se encuentra sobre la tierra se expande, y se hace por lo tanto más liviana y se eleva. El aire más frío y más pesado que proviene de los mares, océanos y grandes lagos se pone en movimiento para ocupar el lugar dejado por el aire caliente.

EDITADO POR: GILBERTO SANDOVAL ROSAS

http://www.maquinariapro.com/maquinas/calentador-solar.html
http://es.answers.yahoo.com/question/index?qid=20080929111700AA8LVVC
http://es.wikipedia.org/wiki/Ciclo_hidrol%C3%B3gico
http://es.wikipedia.org/wiki/Energ%C3%ADa_e%C3%B3lica
http://www.planetseed.com/es/relatedarticle/fuentes-alternativas-de-energia-energia-eolica

MICHEL YAIR MARTINEZ FRAGOSO

Energía eólica

México cuenta con uno de los potenciales más altos de generación de energía eólica a nivel mundial. Particularmente la región del Istmo de Tehuantepec presenta velocidades de viento ideales para este tipo de generación. Por este motivo CFE decidió instalar un primer proyecto experimental en 1994 y mediante el cual se comprobó el potencial de la región atrayendo importantes inversiones para el desarrollo de nuevos parques de generación eólica.

ENERGIA HIDRAULICA
Energía hidráulica
La energía hidráulica tiene su origen en el "ciclo del agua", generado por el Sol, al evaporar las aguas de los mares, lagos, etc. Este agua cae en forma de lluvia y nieve sobre la Tierra y vuelve hasta el mar, donde el ciclo se reinicia.
La energía hidráulica se obtiene a partir de la energía potencial asociada a los saltos de agua y a la diferencia de alturas entre dos puntos del curso de un río.
Las centrales hidroeléctricas transforman en energía eléctrica el movimiento de las turbinas que se genera al precipitar una masa de agua entre dos puntos a diferente altura y, por tanto a gran velocidad.
Hay diversos tipos de centrales hidroeléctricas en función de su tamaño.

La Energía Fotosintética está Ligada al Metabolismo

La energía de los electrones en las moléculas de NADPH no es suficiente para la realización de reacciones anabólicas tales como la fijación de CO₂. Este tipo de reacciones también requieren de energía bioquímica en forma de ATP. Durante el proceso de transferencia de electrones descrito en la sección anterior se genera también un gradiente de concentración de protones (H⁺) a través de la membrana fotosintítica (membrana del tilacoide) (Figura: Gradiente de protones).

El calentador solar se trata de un sistema que permite la calefacción de agua más comúnmente, pero empleando solo la energía proveniente del sol, es decir, sin que se consuma gas o electricidad.

En lo que respecta a su constitución, este aparato está compuesto de tres partes centrales. Una de ellas es el llamado colector solar plano, que es el encargado de capturar la energía del sol para luego transferirla directamente al agua. La segunda parte fundamental es el termotanque. Es en este lugar donde se almacena el agua una vez que la misma está caliente. Por último, un tercer componente importante es el sistema de tuberías, por donde circula el agua. Por otro lado, cabe mencionarse que en aquellos lugares donde las temperaturas bajan mucho su nivel, en especial en las noches, el calentador solar tiene que tener en su composición un dispositivo que evite totalmente el congelamiento del agua en el interior de una de las partes relevantes: el colector solar plano. La forma operativa de este instrumento que calienta el agua con la energía proveniente del sol resulta sumamente sencilla. Pasemos a explicarla detenidamente. En primer lugar, el colector solar plano, sobre el cual ya hemos hecho referencia, tiene que ser instalado en el techo del hogar y, a su vez, tiene que estar orientado de tal forma que pueda quedar expuesto a la radiación durante las veinticuatro horas.

VICTOR HUGO NUÑEZ ALVAREZ

Fuentes alternas de energia

http://www.economiadelaenergia.com/energia-eolica/
http://newton.cnice.mec.es/materiales_didacticos/energia/hidraulica.htm
http://www.conacyt.gob.mx/comunicacion/Revista/203/Articulos/fuentesalternas/fuentesalternas01.htm
http://www.cinsaboilers.com.mx/

ALAIN RUBEN OLGUIN RUBIO NL: 18

viernes, 15 de marzo de 2013

http://youtu.be/MFqsYkz2C-4

Oswaldo baca galindo

http://www.fide.org.mx/

http://www.conae.gob.mx/wb/

http://www.monografias.com/trabajos12/ahorener/ahorener.shtml

http://portalsej.jalisco.gob.mx/ahorro-energia

http://www.conuee.gob.mx/wb/CONAE/CONA_9_desde_el_hogar

Antonio Hernandez

Una de las mejores formas de ayudar al medioambiente es reducir nuestro consumo de energía, ya que las formas de energía que se usan en la actualidad en su mayoría no son limpias ni sustentables. Mientras no se cambien éstos sistemas, lo único que queda por hacer es reducir nuestro consumo para dañar menos y garantizar energía por más tiempo.

Verás que además, ahorrar energía podría significar un importante ahorro en dinero.Para ayudarte hemos recopilado las mejores formas de ahorrar recursos en tu casa, ya sea gas, agua o energía eléctrica. Verás que la mayoría son acciones bastante simples a las que te podrías acostumbrar sin problemas.

Lopez becerra luis david

Ahorrar energía es el camino más eficaz para reducir las emisiones contaminantes de CO2 (dióxido de carbono) a la atmósfera, y por tanto detener el calentamiento global del planeta y el cambio climático.

Es también el camino más sencillo y rápido para lograrlo. Por cada kilovatio /hora de electricidad que ahorremos, evitaremos la emisión de aproximadamente un kilogramo de CO2 en la central térmica donde se quema carbón o petróleo para producir esa electricidad.

Además, ahorrar energía tiene ventajas adicionales para el medio ambiente, pues con ello evitamos: lluvias ácidas, mareas negras, contaminación del aire, residuos radiactivos, riesgo de accidentes nucleares, proliferación de armas atómicas, destrucción de bosques, devastación de parajes naturales, desertificación.

Todas estas ventajas se traducen por sí mismas en una mejor calidad de vida, más aún si consumir menos energía va unido a la mejora de los servicios que ésta nos proporciona (luz, calor, movimiento...), es decir, se trata de mejorar la eficiencia energética.

Así pondremos freno a la actual situación de despilfarro energético: en muchas ocasiones consumimos demasiada energía, que no necesitamos, recibiendo poco o ningún servicio y, a veces, un mal servicio e incluso perjuicios.

Carvajal aguilar sandra margarita

Ahorrar electricidad se traduce en la disminución de los gases invernadero y del cambio climático. Las acciones a realizar para el ahorro de electricidad son las siguientes:

1.Usa focos de bajo consumo: ahorran hasta un 75% de energía.
2.Apaga la luz cuando salgas de una habitación.
3.Utiliza lo más posible la luz natural, abre las cortinas y coloca tragaluces.
4.Si requieres calefacción, gradúe el termostato a 20 ºC o menos y abrígate un poco más dentro de la casa. Cada grado suplementario representa un 7% más de consumo energético.
5.Si requiere el uso de aires acondicionados, gradúa el termostato a una temperatura soportable, utiliza ropa clara y ligera que le permita reflejar de manera eficiente la radiación solar. Cada grado suplementario del aire acondicionado representa un 7% más de consumo energético.
6.Usa la lavadora llena: ahorrarás agua y electricidad.
7.Compra alimentos de temporada y producidos en la localidad. Son más baratos desde el punto de vista del transporte y refrigeración (no requieren de consumo de combustibles y electricidad).
8.Descongela tu refrigerador: la escarcha crea un aislamiento que puede acarrear un 20% extra de consumo eléctrico.
9.Sustituye tu refrigerador viejo (de más de 10 años) de alto consumo eléctrico, por uno moderno de bajo consumo (consume 1/3 parte de electricidad). La diferencia de costo se paga con el ahorro de energía.
10.Mantén las puertas de los refrigeradores cerradas y asegúrate que selle herméticamente.
11.Apaga tu ordenador si no lo estás utilizando: un aparato en posición de espera puede representar hasta un 70% de su consumo diario.
12.Desconecta todos los aparatos eléctricos que no estés utilizando, al estar conectados consumen energía (aunque no estén encendidos).
13.Si está dentro de tus posibilidades usa energías alternativas para la producción de electricidad, como celdas fotovoltaicas para utilizar la energía solar, generadores eólicos (movidos por la acción del viento), entre otros.
14.Evita usar la plancha y las cafeteras en exceso.
15.Si se tienen estufas eléctricas es mejor sustituirlas por estufas de gas.
16.Apaga las luces de tu lugar de trabajo en las zonas comunes poco utilizadas
Juan olaiz cruz

viernes, 8 de marzo de 2013

http://es.wikipedia.org/wiki/Energ%C3%ADa_el%C3%A9ctrica

http://newton.cnice.mec.es/materiales_didacticos/energia/electrica.htm

http://twenergy.com/energia-electrica/que-es-la-energia-electrica-381

http://www.monografias.com/trabajos13/genytran/genytran.shtml

http://html.rincondelvago.com/energia-electrica_7.html

Eduardo Japera Mondragon 403

https://www.youtube.com/watch?v=9XT7EVzxBFQ Erick Guerrero serrano 403

domingo, 3 de marzo de 2013

http://es.wikipedia.org/wiki/Energ%C3%ADa_el%C3%A9ctrica
http://tecnologiafuentenueva.wikispaces.com/file/view/e_electrica.pdf
http://html.rincondelvago.com/energia-electrica_7.html
http://www.conapesca.sagarpa.gob.mx/wb/cona/cona_energia_electri
http://www.arqhys.com/articulos/energia-electrica.html

viernes, 1 de marzo de 2013

http://www.youtube.com/watch?v=0NQI8GGsBGo

http://www.youtube.com/watch?v=0lTmvneSwCA

http://www.youtube.com/watch?v=hQquiHHyaI0

http://www.youtube.com/watch?v=-UdYrES_D5Y

http://www.youtube.com/watch?v=jgjwRKTW5ic

CECyTEM Tultitlan 303: la energia electrica en la actualidad

SERRATO SEGOVIA JULIO

la energia electrica en la actualidad

LA ENERGIA ELECTRICA EN LA ACTUALIDAD

Posted on 1 diciembre, 2011 by mityc

La demanda bruta de energía eléctrica en la Península en noviembre ha alcanzado los 20.400 GWh, lo que supone un descenso del 7,1% respecto al mismo mes del 2010. Corregidos los efectos de la laboralidad y la temperatura, el consumo peninsular ha descendido un 3,9% en este periodo.

En los once primeros meses del año la demanda bruta ha sido de 233.474 GWh, un 1,6% inferior al mismo periodo del 2010. Una vez corregidos los efectos de la laboralidad y la temperatura, el consumo ha sido un 0,8% inferior al del 2010.

El pasado 6 de noviembre a las 2.00 h el 59,6% de la demanda (20.922 MW) se cubrió con generación eólica (12.476 MW), superando el máximo anterior de 54 % registrado el 9 de noviembre del 2010. Este hecho supuso un reto histórico que Red Eléctrica como operador del sistema supo gestionar sin poner en riesgo la seguridad de suministro.

Asimismo, la producción de energía de origen eólico ha sido en noviembre de 3.738 GWh representando un 17,7% de la producción total.

Durante este mes la generación procedente de fuentes de energía renovable supuso el 32,1% de la producción total, 1,7 puntos porcentuales inferior a la registrada en noviembre del 2010. En los once primeros meses del año, la producción de energía renovable ha representado el 32,6% del total, mientras que en el mismo periodo del año anterior fue del 35%.

En noviembre el 51,8% de la producción eléctrica procedió de tecnologías que no emiten CO2.