Peak Autos: America's Love Affair with the Automobile May Be Coming to an End

Below is an article about Peak Autos, which I found interesting.

Automobiles is an area of great interest to me, and probably one of the factors that has drawn me to learn more about Peak Oil. I grew up always loving cars, and America has been known among many things as "the land of cars". After all, no other country has more cars and roads than the US. But this scenario seems be changing.

I have always had a love affair with cars. Yet on the back of my mind I've always known that there's "something wrong": the obvious fact that cars are powered by gasoline derived from petroleum, which is a finite resource. The only question is "how long will we be able to drive on?" Well, for a while no one seemed concerned, so I assumed that someone was watching and keeping tabs, and that "the would let us know" if it's time to be alarmed. September 11th was that alarm for me, and that's when I started quickly learning about Peak Oil.

It's fascinating to me that the number of vehicles in the US decreased in 2009 for the first time since World War II. My deepest fears seem to have been true: the whole infrastructure that we created for cars isn't sustainable. It's interesting for me to watch the American middle class get poorer while the cost of owning and maintaining a car increases in the very land of cars. I will be watching this trend closely.

http://globaleconomicanalysis.blogspot.com/2010/01/peak-autos-americas-love-affair-with.html

How much oil is required for manufacturing, maintaining and driving a vehicle?

Well, this question is definitely hard to answer. There's so much that goes behind building a car in terms of energy expenditure, that I consider impossible to get an accurate number. But we may be able to get an estimate. Here's a great question: which requires more energy - manufacturing a car or driving and maintaining it? In the case of electric vehicles no oil is necessary to power the car and the energy can come from 100% renewable sources as mentioned in my previous post. EVs require very little maintenance in comparison to ICEs; something I'll get into details later.

According to Colin Campbell, it takes between 17 and 50 barrels of oil to manufacture a single car. Of course no auto plant is built for the purpose of building a single car (not typically anyway), so this information is broken down and the impact on the environment is always from manufacturing large numbers of vehicles and not just one. But let's use these numbers as a basis until we get something more accurate. What is the amount of oil that it takes to drive a car? This last question is a little easier to answer, though it'll require some research. I'll probably use the Toyota Camry for this measurement since it's the "best-selling passenger car in America". I'll use the average miles-per-gallon (MPG) of the Toyota Camry to calculate how much gasoline it uses in its lifetime. For the lifetime I'll probably use 300,000 miles since I believe that's how long those engines last on average. Then the last step will be to convert the energy in a gallon of gasoline to the energy in a barrel of oil. This should give us an estimate. If anyone has any ideas or pointers, please let me know. In the meantime I'll be working on this. Please check back soon!
- Ricardo Parker

Source: http://www.energy.ca.gov/gasoline/whats_in_barrel_oil.html

How much oil is required for manufacturing, maintaining and driving a vehicle?

Well, this question is definitely hard to answer. There's so much that goes behind building a car in terms of energy expenditure, that I consider impossible to get an accurate number. But we may be able to get an estimate. Here's a great question: which requires more energy - manufacturing a car or driving and maintaining it? In the case of electric vehicles no oil is necessary to power the car and the energy can come from 100% renewable sources as mentioned in my previous post. EVs require very little maintenance in comparison to ICEs; something I'll get into details later.

According to Colin Campbell, it takes between 17 and 50 barrels of oil to manufacture a single car. Of course no auto plant is built for the purpose of building a single car (not typically anyway), so this information is broken down and the impact on the environment is always from manufacturing large numbers of vehicles and not just one. But let's use these numbers as a basis until we get something more accurate. What is the amount of oil that it takes to drive a car? This last question is a little easier to answer, though it'll require some research. I'll probably use the Toyota Camry for this measurement since it's the "best-selling passenger car in America". I'll use the average miles-per-gallon (MPG) of the Toyota Camry to calculate how much gasoline it uses in its lifetime. For the lifetime I'll probably use 300,000 miles since I believe that's how long those engines last on average. Then the last step will be to convert the energy in a gallon of gasoline to the energy in a barrel of oil. This should give us an estimate. If anyone has any ideas or pointers, please let me know. In the meantime I'll be working on this. Please check back soon!
- Ricardo Parker

Source: http://www.energy.ca.gov/gasoline/whats_in_barrel_oil.html

Welcome Folks!

Welcome to ElectricKar.com!

My goal is to make this the #1 site for electric vehicles with the intention of educating the public, answering all questions and promoting EV technology. We will use a blog to start and upgrade as needed. After 6 months of research I believe I can provide the answers to most questions that are out there. So please challenge me with your questions! If I don't have the answer I promise to do the research necessary to get it. I'm that passionate about electric vehicles.

Why Electric Vehicles?

Unlike conventional cars which use an Internal Combustion Engine (ICE) and require some sort of liquid fuel for propulsion, Electric Vehicles (EVs) require only electricity. The large majority of cars on the planet run on gasoline, which is a product of oil. Aside from the numerous disadvantages of burning oil - air pollution, contribution to Global Warming and the threat to US national security that comes from importing energy that comes mostly from unfriendly nations - oil is a finite resource. It's estimated that we humans have burned just over 50% of all the oil available, in a period of roughly 150 years. Because world demand for oil keeps increasing in an oil-fueled global economy that is conditioned to grow, it's estimated that at current rates it will take us 91 more years to use up the remaining oil. So, whether this happens sooner or later is irrelevant: the fact is that the primary source of energy used to move our vehicles (among other activities) will come to an end, and not too far from now. Electric Vehicles are one answer to this serious issue that we all face. EVs do not require the burning of fossil fuels for propulsion since electricity can be generated from renewable energy sources such as solar power, wind power, biomass, and other sources that we may discover and develop. Unlike other fuel alternatives for vehicles (hydrogen, biofuels, etc) which require the building of an infrastructure for providing the fuel, it's fair to say that the infrastructure for powering EVs already exists: electric outlets can be found in our homes and offices. Cars are not being driven most of the time, so when they are parked they could be charged for the next trip. While the typical 110v electric outlet is not ideal for charging an electric car because it can take up to 8 hours to fully charge one, power stations with a much faster energy transfer rate can be installed at parking lots, rest areas, and convenience stores. With a power outlet an electric car, such as the soon to be released Tesla Roadster, can be charged in 30 minutes or less. The amount of time to charge any electric car will likely decrease greatly once EV technology is developed further. But even if it will take 8 hours to fully charge a car on an 100v outlet: this may be a good alternative for some people already, who have their cars parked for 8 hours or more in their workplace while they work.
- Ricardo Parker

Welcome Folks!

Welcome to ElectricKar.com!

My goal is to make this the #1 site for electric vehicles with the intention of educating the public, answering all questions and promoting EV technology. We will use a blog to start and upgrade as needed. After 6 months of research I believe I can provide the answers to most questions that are out there. So please challenge me with your questions! If I don't have the answer I promise to do the research necessary to get it. I'm that passionate about electric vehicles.

Why Electric Vehicles?

Unlike conventional cars which use an Internal Combustion Engine (ICE) and require some sort of liquid fuel for propulsion, Electric Vehicles (EVs) require only electricity. The large majority of cars on the planet run on gasoline, which is a product of oil. Aside from the numerous disadvantages of burning oil - air pollution, contribution to Global Warming and the threat to US national security that comes from importing energy that comes mostly from unfriendly nations - oil is a finite resource. It's estimated that we humans have burned just over 50% of all the oil available, in a period of roughly 150 years. Because world demand for oil keeps increasing in an oil-fueled global economy that is conditioned to grow, it's estimated that at current rates it will take us 91 more years to use up the remaining oil. So, whether this happens sooner or later is irrelevant: the fact is that the primary source of energy used to move our vehicles (among other activities) will come to an end, and not too far from now. Electric Vehicles are one answer to this serious issue that we all face. EVs do not require the burning of fossil fuels for propulsion since electricity can be generated from renewable energy sources such as solar power, wind power, biomass, and other sources that we may discover and develop. Unlike other fuel alternatives for vehicles (hydrogen, biofuels, etc) which require the building of an infrastructure for providing the fuel, it's fair to say that the infrastructure for powering EVs already exists: electric outlets can be found in our homes and offices. Cars are not being driven most of the time, so when they are parked they could be charged for the next trip. While the typical 110v electric outlet is not ideal for charging an electric car because it can take up to 8 hours to fully charge one, power stations with a much faster energy transfer rate can be installed at parking lots, rest areas, and convenience stores. With a power outlet an electric car, such as the soon to be released Tesla Roadster, can be charged in 30 minutes or less. The amount of time to charge any electric car will likely decrease greatly once EV technology is developed further. But even if it will take 8 hours to fully charge a car on an 100v outlet: this may be a good alternative for some people already, who have their cars parked for 8 hours or more in their workplace while they work.
- Ricardo Parker