energy

I Love Oil

You know, I really love oil. Not in it’s crudest form, or even gasoline β€” that nasty stuff you put in your truck, or even in it’s form of energy β€” that powers my truck. I love it because oil is such a beautiful thing β€” it takes one to beautiful places, it gives one the most wonderful experiences.

It’s oil that takes me up to the woods. It’s oil that takes me down rough state truck trails and smooth superhighways, the fly high above beautiful valleys. It’s oil that take me to the mountains, it’s oil that takes me out on the town to meet interesting people. It’s oil that goes in the bus that takes me to work. It’s oil (and it’s cousin natural gas) that keeps lights on, the beer cold, and good times rolling on.

Oil Slick on the Hudson River

I love oil, despite my
sometimes troubled relationship with it.

We Need to Balance Climate Change Against Our Needs for Energy Services

Like most Americans, I believe strongly we should do something about Climate Change, to limit it’s most severe impacts. Yet at the same time, I am fully aware of our needs for energy services – the stuff that energy provides for us like lighting, transportation, powering electronics and motors, heating, and cooling. We need a lot of energy too – as I noted when the BP Oil Spill occurred – all the oil that spoiled the ocean could only fuel America for about 45 seconds. Turns out the oil spill severity was much worst then originally predicted, but still it was only one and half minutes worth of petroleum consumption for the United States.

So how do we get there from here? I do not advocate a “crash” diet on petroleum and other fossil fuels. People really like the energy services that fossil fuels provide, and most people aren’t give up their vacations using their petroleum fueled automobiles, or heat and air conditioning in their houses – especially for a “projected” future problem. Electric lighting and computers are essentials of modern life that most people aren’t going to want to give up either. Cities – particularly large cities – have such intense energy needs, that fully substituting with renewables isn’t going to be practical, much less cost effective.

Sure Looks Like Rain

What needs to happen is a big compromise. We need reasonable but strong energy standards that promote and preferable renewables and energy efficiency. Those standards can’t compromise the core things that make up the necessities modern life – including reliable and affordable energy and products. We have to continue to develop fossil energy sources responsibility. At the same time, we need to choose a realistic climate goal that matches our need for energy.

There are those out there that say we can’t afford that much Climate Change destruction. Essentially slaughtering millions of people and destroying billions in property to ensure our society has the energy it needs, really isn’t a pretty choice. But it’s a realistic choice. There is no free lunch on climate change – and protecting all the energy services provides for our society is important. America needs services that energy provides, and it has to be balanced against the painful consequences of consuming that energy.

Today’s debate needs not be whether we will need fossil energy to provide for energy services we all depend on and deeply enjoy. We will need fossil energy for the foreseeable future – and probably more of it in coming years. The question is can we burn it cleanly, and efficiently so it provides the most energy services for the least amount of actual fossil energy consumed. We got to take the oldest and dirtiest power plants and replace them with modern technology. We also got to boost renewable energy to be the preferred source of energy whenever it’s reasonably cost effective.

Japan’s Rebirth May Save the Planet

Japan’s partial meltdown and destruction of three or more nuclear reactors at the Fukushima I Power Plant may finally force the world to rethink it’s energy policies. Japan’s future relating to these destroyed nuclear plants looks grim, with a great possibility of that at least some nuclear plant operators will die, and other residents around the plant will die slow and horrific deaths from cancer. Crops will be contaminated and animals will get sick and die. Nuclear radiation is nasty stuff.

Much of Japan’s recent history is surrounded by tragic consequences of Hiroshima and Nagasaki bombings, that not only killed thousands upon their initial explosion, but killed thousands more in the following years as the doses of radiation stimulated cancers and caused miscarriages. While the dropping of the atomic bomb and the lives it took is a distance memory, and evil potentially just as great if not greater has been unleashed over Japan. There ought to be a realization that the nuclear age must end.

Tugg Boat and Nuclear Plant

The Japanese are certain to search for new energy sources to replace these existing nuclear plants. While Japanese are ready adopters of high technology, they are certainly are now aware of dangers of nuclear power and are going to want to shy away from it. Being an island nation, and being so aware of the dangers of climate change, they probably are not going to welcome in a large coal or natural gas plant that produces large carbon emissions to replace the now destroyed and forever unusable nuclear plants. Likewise, Japan has to import almost all of it’s fossil energy, so becoming more dependent on fossil fuels is a recipe for economic stagnation.

What can Japan do to replace these destroyed power plants? It’s not clear, although the unconventional alternatives to new fossil and nuclear generation seem likely. Japan can go on a massive campaign to reduce electricity consumption and build out renewables. They can build a smarter grid, where appliances reduce their electrical load automatically to ensure a need for less surplus capacity. They can make massive investments in renewable energies like off-shore wind and wave turbines. They can require buildings to have solar cells. They can make saving electricity a national priority.

Power

Japan may have the chance to build the energy infrastructure only dreamed and theorized by Climate Activists in other countries. Yet, if Japan can do it, other countries will not be far behind in copying their successes. Whatever Japan does to rebuild will be an indication for energy industry of the future.

Legitimate $$ Free MONEY $$ (Not a Scam)

Ever wonder how you can make significantly more money, with minimal effort? There is a great “Work from Home Opportunity” that can save you a lot of money, if you only choose to:

  1. Do some pretty simple math (optional).
  2. Flip some switches.
  3. Unplug some appliances.

How do you get this free money? Very simple. It’s lying around in your home, in almost invisible locations. It takes almost no effort. It’s what people have been telling you for years, but you’ve not been listening.

It’s called conserving energy!

Wow. Now for the math part, to calculate how much you can save in electricity by taking some really simple steps.

Step 1: Realize There Are 8,760 hours in a Year.

That is a pretty big number. While most of us think of their being 24 hours in a day and 365 days in a year, we rarely multiply both numbers together. Yet, we should when talking about energy, because we use energy like electricity even when we sleep or at out of the house.

Step 2: Realize Electricity Is Sold in Very Small Bundles.

That is compared to typical household electrical consumption. Power companies bill you on kilowatt hours. So if you use on average 1,000 watts per hour, you use 8,760 kw/h of electricity per year.

The way electricity is priced is similiar to a grocery stores selling food “by the teaspoon”. Shelve prices at such a “by the teaspoon” grocery store might look cheap, but when you get to the register, you would be shelling out some real cash.

Step 3: Realize Electricity Only Looks Cheap.

Electricity where I live costs about 15 1/2 cents per kilowatt hour. Seems pretty cheap. You could use 9,600 watts for an hour, for the same price of a $1.50 bus pass. That’s more energy then your electric clothes drier would use in an hour.

The problem comes in that most people don’t use electricity for an hour. They use it for multiple hours, indeed throughout the year, all 8,760 hours of the year. While people turn appliances on and off, the reality is a lot of electricity is being used year round.

Step 4: Calculate Your Savings.

Once you realize how expensive energy is, the trick is to calculate your savings and figure out where you can spare a couple of watts here and there. Maybe unplugging the television when your not using it rather then putting it in sleep mode, could save you $5 or $10 a year, making sure the computer is turned off when your not using it, could be another free $50-$75 in cash that otherwise would have just gone to power company.

This table looks a that math, based on the typical 15.5¢ an Albany resident would typically pay for electricity. Evidentially, even that little amount adds up. Do you really need that extra alarm clock? Unplug it! That’s another free $8.15 per year in Albany. Replace that 100-watt incadescent bulb you use on average 6-hours per day with a 26 watt florescent equalivent bulb, and get a free $16.75 for each bulb you change per year.

Typical Monthly Energy Costs in Albany-area.

Can you turn some of the below appliances off? How often do they stay on, wasting energy? This is how much you’ll save in energy in Albany.

Appliance Energy Rating in watts 1 hour per day 2 hours per day 4 hours per day 6 hours per day 12 hours per day 24 hours per day
LED Night Light 0.5 $0.00 $0.00 $0.01 $0.01 $0.03 $0.06
LED Christmas Lights 4 $0.02 $0.04 $0.08 $0.11 $0.23 $0.45
Regular Night Light 5 $0.02 $0.05 $0.09 $0.14 $0.28 $0.57
Clock Radio/Alarm Clock 6 $0.03 $0.06 $0.11 $0.17 $0.34 $0.68
60 Watt Equivalent CFL 13 $0.06 $0.12 $0.25 $0.37 $0.74 $1.47
Desktop Computer (Sleep Mode) 15 $0.07 $0.14 $0.28 $0.42 $0.85 $1.70
100 watt Equivalent CFL 26 $0.12 $0.25 $0.49 $0.74 $1.47 $2.94
36 in Ceiling Fan (High) 55 $0.26 $0.52 $1.04 $1.56 $3.11 $6.22
60 Watt Incadecent 60 $0.28 $0.57 $1.13 $1.70 $3.39 $6.79
Laptop Computer 80 $0.38 $0.75 $1.51 $2.26 $4.53 $9.05
100 watt Incadescent Bulb 100 $0.47 $0.94 $1.89 $2.83 $5.66 $11.32
Refrigerator (Average) 100 $0.47 $0.94 $1.89 $2.83 $5.66 $11.32
Desktop Computer 150 $0.71 $1.41 $2.83 $4.24 $8.49 $16.97
Xbox 360 185 $0.87 $1.74 $3.49 $5.23 $10.47 $20.93
PS3 194 $0.91 $1.83 $3.66 $5.49 $10.98 $21.95
50 in LCD Television 250 $1.18 $2.36 $4.71 $7.07 $14.14 $28.29
50 in Plasma Televison 300 $1.41 $2.83 $5.66 $8.49 $16.97 $33.95
Medium Electric Space Heater 900 $4.24 $8.49 $16.97 $25.46 $50.92 $101.84
Window AC Unit 900 $4.24 $8.49 $16.97 $25.46 $50.92 $101.84
Coffee Maker 900 $4.24 $8.49 $16.97 $25.46 $50.92 $101.84
Electric Oven 2000 $9.43 $18.86 $37.72 $56.58 $113.15 $226.30
Washing Machine 3800 $17.92 $35.83 $71.66 $107.49 $214.99 $429.97
Electric Clothes Drier 9000 $42.43 $84.86 $169.73 $254.59 $509.18 $1,018.35

Typical Yearly Energy Costs in Albany-area.

Now if you think you can’t make some real savings in a month, consider the power consumption for these common items over a year.

Appliance Energy Rating in watts 1 hour per day 2 hours per day 4 hours per day 6 hours per day 12 hours per day 24 hours per day
LED Night Light 0.5 $0.03 $0.06 $0.11 $0.17 $0.34 $0.68
LED Christmas Lights 4 $0.23 $0.45 $0.91 $1.36 $2.72 $5.43
Regular Night Light 5 $0.28 $0.57 $1.13 $1.70 $3.39 $6.79
Clock Radio/Alarm Clock 6 $0.34 $0.68 $1.36 $2.04 $4.07 $8.15
60 Watt Equivalent CFL 13 $0.74 $1.47 $2.94 $4.41 $8.83 $17.65
Desktop Computer (Sleep Mode) 15 $0.85 $1.70 $3.39 $5.09 $10.18 $20.37
100 watt Equivalent CFL 26 $1.47 $2.94 $5.88 $8.83 $17.65 $35.30
36 in Ceiling Fan (High) 55 $3.11 $6.22 $12.45 $18.67 $37.34 $74.68
60 Watt Incadecent 60 $3.39 $6.79 $13.58 $20.37 $40.73 $81.47
Laptop Computer 80 $4.53 $9.05 $18.10 $27.16 $54.31 $108.62
100 watt Incadescent Bulb 100 $5.66 $11.32 $22.63 $33.95 $67.89 $135.78
Refrigerator (Average) 100 $5.66 $11.32 $22.63 $33.95 $67.89 $135.78
Desktop Compuer 150 $8.49 $16.97 $33.95 $50.92 $101.84 $203.67
Xbox 360 185 $10.47 $20.93 $41.87 $62.80 $125.60 $251.19
PS3 194 $10.98 $21.95 $43.90 $65.85 $131.71 $263.41
50 in LCD Television 250 $14.14 $28.29 $56.58 $84.86 $169.73 $339.45
50 in Plasma Televison 300 $16.97 $33.95 $67.89 $101.84 $203.67 $407.34
Medium Electric Space Heater 900 $50.92 $101.84 $203.67 $305.51 $611.01 $1,222.02
Window AC Unit 900 $50.92 $101.84 $203.67 $305.51 $611.01 $1,222.02
Coffee Maker 900 $50.92 $101.84 $203.67 $305.51 $611.01 $1,222.02
Electric Oven 2000 $113.15 $226.30 $452.60 $678.90 $1,357.80 $2,715.60
Washing Machine 3800 $214.99 $429.97 $859.94 $1,289.91 $2,579.82 $5,159.64
Electric Clothes Drier 9000 $509.18 $1,018.35 $2,036.70 $3,055.05 $6,110.10 $12,220.20

Oil on the Brain

Lisa Margonelli’s Oil on the Brain is a book that looks at the supply chain of gasoline from gas station to refinery to the oil well. While it briefly mentions natural gas wells and touches on other petroleum products, it’s main focus is on the supply of gasoline. It tells a straightforward, but unremarkable story. Most of the things you read about in the book, you already knew about from commonsense before you open the book.

You might suspect that such a book would take on an activist character and point out all of the evils of the oil industry. Or that the book would pass judgment on those who drive big gas guzzling cars. It does neither. It just lays out the struggles faced by the gas stations squeezed both by the oil companies and market forces, the difficulty of getting the fuel at a reasonable price just-in-time at the gas stations, the pollution problems at refineries, the all powerful NYMEX crude market that make people rich and broke in seconds, and the third world countries that suffer when poorly run oil wells pollute the landscape and leave them impoverished.

Oil Slick on the Hudson River

The thing is we all know such things. Most people are aware at some level the troublesome nature of petroleum, and how it pollutes. They realize that many of the refineries are older, polluting, and suffer many malfunctions that spew toxins into the air. Yet, modern society accept those costs are being acceptable. Non-environmentalists might not express such concern, but they hang over our heads and there is a certain public awareness.

Most interesting in the book was how Lisa Margonelli got exclusive access to the Strategic Petroleum Reserve, the NYMEX market, oil refineries, gas stations, and oil wells. She talked to the people, she captured the culture surrounding it. She didn’t villinize any one sector, but instead sought to shine light on this important industry that provides both energy and a major source of pollution.

An interesting book well worth a read.

What is a Watt?

Many people in our country are ignorant about electricity and the consumption of energy, even though they spend a significant amount of money purchasing electricity. Today I hope to shed a bit of light on this important issue.

Blogging Tool

Measuring Energy Consumed.

A watt is a precise measure of energy consumed to do a task. It is similar to horsepower and kilowatts, which are used to calculate larger amounts of energy consumed. There are:

  • Approximately 750 watts per each horsepower
  • Exactly 1,000 watts per kilowatt

Every appliance tells you how much electricity, under peak use, is consumed to make it work. A light bulb might consume 100 watts, an electric hair drier might consume 1100 watts of energy. This information can be used to compare the efficiency of similar devices, and how much it will cost you to use the device.

Solar

The Kilowatt Hour.

Many of us who carefully read our electricity bill will notice that the rate we pay is based on a connection charge around $17 a month plus the number of kilowatt hours consumed. A kilowatt hour (Kw/h) is:

  • An average of 1,000 watts consumed over an hour

If you had only one appliance in your house, a 100 watt light bulb left on constantly, then your electric bill would state you have consumed 73 Kw/h of electricity over the month. There are on average, 730 hours of time per month.

  • Convert 100 watts to kilowatts equals 0.1 kilowatts
  • 0.1 kilowatts times 730 hours equals 73 Kw/h of electricity.

Few people leave 100 watt light bulbs turned on 24 hours a day, 7 days a week in a month. Most of us turn lights and appliances on and off, and unplug them from the wall when they are not being used. Therefore, to understand how much electricity you really are using you must calculate the time an appliance is being used over a month.

A clothing iron might use 1,100 watts of power when the heating element is on, as indicated by the red light on the iron. An iron might have it’s heating element on about half the time it is plugged in. If you iron your shirts and pants 7 days a week, 5 minutes a day, that is 35 minutes a week. As the iron is only on half of that time, it’s consuming power 15 minutes a week.

Therefore, your electric use for ironing your clothes would equal:

  • 0.833333 hour a day times 30.4 days times 1.1 kilowatt equals 2.8Kw/h

Few of us are are that crazy about ironing, but that gives you an idea of the electricity consumed by your iron if you where to use it that much. Being concerned about energy use, you purchased a 26 watt compact florescent light bulb that is on 4 hours a day. Believe it or not, in a month a compact florescent light will consume more energy, because it’s used far more in a day, despite it’s much lower wattage.

  • 4 hours a day times 30.4 days times 0.026 kilowatt equals 3.16 Kw/h

Therefore, despite the fact the 26 watt compact florescent bulb is used much less, because it on much longer, it’s energy consumption is much higher then that of the far greater wattage clothing iron. Replace it with a regular 100 watt light bulb and it would be four times higher.

  • 4 hours a day times 30.4 days times 0.1 kilowatt equals 12.6 Kw/h

Heating appliances consume the most electricity, followed by cooling appliances, large motors, then small loads like electronics and lighting. Your light bulbs and clothes iron are probably one of the smallest consumers of electricity in your house, especially if not left on for long hours. Other sources add up to much more quickly.

Wind Turbine Power Shut Off

What You Pay.

Everybody is charged about $17 a month for the privilege of being connected to the electrical grid. On top that you are charged per kilowatt hour for a variety of fees, that add up to about 15.5 cents per kilowatt/hour consumed. Depending on how many kilowatt hours you consume, it can add up be a significant amount of money.

The cost of the clothing iron’s electricity would be about 44 cents a month. The compact florescent will cost you 49 cents a month versus the regular light bulb at $1.95 a month. Indeed, as this shows in New York, a 26 watt compact florescent bulb can easily pay itself back in a month and a half. Remember, however your biggest electricity consumers are those devices that are high wattage and used a long time.

It is most worthwhile to consider upgrading older appliances in your house, such as electric hot water heaters and refrigerators. It’s possible with New York State’s electricity cost, that your pay back in energy savings would be less then a years’ time.

Wind Turbine Power Shut Off

What The Environment Pays.

It takes close to pound of coal to produce a kilowatt hour of electricity. That coal had to be removed from the earth by blasting off mountain tops, or sending miners into dangerous mines subject to collapse. For every megawatt or 1,000 kilowatts of energy produced it takes 1/2 ton of coal to be mined, causes 6 pounds of sulfur dioxide to be released into the environment, and over one ton of carbon dioxide to be released.

That’s a lot of resources and pollution just to make your light come on. While many of our New York power sources are cleaner then coal, all of them have significant environmental impacts. Dirtier sources of power can be utilized less with less demand. Power plants can usually reduce their output and consumption of resources when there is less of a demand for their services. Breathe easier by using less electricity.

Think About Energy.

Think about energy. It matters. Energy production is one of the greatest polluters in our country, and if we all choose to find ways to consume less electricity, we will have less pollution. Energy is also one of our biggest expenses, so if you find ways to conserve, you can save real money these days.

Overemphasis on MPG

Politicans and many environmental adovates are always discussing the need for more efficent cars. They note that a 20 MPG car uses 1/3 more fuel then a 30 MPG car if driven the same amount of miles.

But why do we have to drive so far? As a nation we are always traveling further and further. Indeed, while are cars are much more efficient then decades ago, we end up using more gasoline as we drive further. Nobody wants to give up their travel or going on vacations. Nobody wants to be prevented from going to the woods or being able to drive where-ever and whenever they want to go. It’s nice to be able to hop in our cars and go to the stores on the weekend or whenever it’s convenient.

Semi Truck

Yet, there is a type of driving that nobody enjoys, yet so many are stuck with doing. This type of driving is commuting. There is not much freedom or enjoyment in driving back and forth to work—the same way—fighting traffic. There are times I like to take my truck to work, such as when I need to leave early to stop and get things on the way to or from work. But I also enjoy mass transit. Not only does it save money it also saves time and allows you to relax as your transported to work.

It is enjoyable to use mass transit—when the system works. The new CDTA buses are relaxing, a perfect place to relax and listen to your headphones or work on your laptop while you are transported to work. Yet, for many of us good mass transit is hard to come by, with buses running infrequently to major destinations. If your not using your car or truck all the time for commuting, then you are skipping all of those carbon dioxide and toxic emissions. Your fuel economy of your truck doesn’t really matter one way or another for occassional use.