Author Archives: horecchio

Harnessing Wind Power: It is not as easy as it looks.

To demonstrate the concept of a wind power my group and I created an experiment that displayed to the class how wind turbines work and their efficiency. We used a LEGO model wind turbine, an industrial sized fan to represent wind power, and a battery to store  and convert the kenetic energy of the wind into electrical power.

 

Through this demonstration we discovered how much energy was lost in the process of converting the wind into electrical power.

 

These are the steps to our experiment:

1)     Assemble the Lego Mindstorm Wind Turbine

2)     Turn on the industrial fan to level 1

3)     Place the Lego turbine in front of the fan so the turbine catches the wind and moves the blades

4)     At a distance of 1 meter, allow the fan to run for a total of 5 minutes. Record total joules created and stored in the battery.

5)     Repeat at level 2 and level 3 fan speeds.

6)     Record the results on lab sheet.

 

After we designed the experiment we set it up for another group in class to try as well. There results came out as expected, only slightly different than ours. At  fan speed 1, the group charged the battery to 5 Joules, at  fan speed 2 the group charged the battery to 79 Joules, and at the highest fan speed the group charged the battery to 100 Joules. When the group used the battery to convert the wind power to electrical energy they experienced the same inefficiency as we did. At the lowest wind speed the wind turbine was powered for 6 seconds, and at the highest it only was powered for 15 seconds.

It is clear that how much electricity that is generated relies solely on the rate of wind speed that day. It is difficult to rely on such an inconsistent power source.

I am happy with how our group’s experiment turned out. The technical difficulty in preparation were minimal and in the end our results were consistent with every test run.

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We also took another groups experiment on the final day of class. This was an interesting concept as well. Using 2 cups, one filled with sand and the other water, and 3 thermometers we took the temperature of the sand water and air at thirty second intervals for 10 minutes.

This experiment demonstrated that sand heated up faster than water due to the moisture absorbency of the soil.

Our results came out as the group expected. Although they were VERY close, we know that if we kept it running for a few hours the results would be more clearly displayed with a larger gap between the two substances.

 

 

All in all both experiments went well and by the end of the class each group seemed confident and knowledgable in there discipline. It was a very good learning and team building experience.

 

Last week I attended the Museum of Science for the first time. It was a really great experience. The interactive abilities of certain exhibits are great tools for teaching both children and adults.

For the first part of the trip we made it a point to see  the energy section. I really enjoyed seeing the wind turbine because this is what my group is experiment is based on. It was interesting to track the energy created in the Museum of Sciences lab.

 

 

Another interesting exhibit was the Gecko environment. It was really cool to see the effects of selective breeding and all of the different sizes and colors of one reptile.

The best part of my trip was the chick exhibit. In an incubator there were at least eight eggs on one side and on the other there were a few baby chicks no older than 48 hours. It was so cute to see the babies learning to walk and stumbling. Although I did not stay long enough to watch a chick hatch, there was one that was still wet when I got there. It is interesting to see how quickly they adjust to life.

 

 

 

Indian Point, Ny: Does the efficiency outweigh the hazards?

I promise you: it is not this pretty in person.

I was born and lived my entire pre-collegiate life in Pomona, Ny- just 20 miles from the Indian Point Power Plant. It wasn’t until 9-11 when this became a popular concern for our community. It became a “target” and suddenly we all were aware of the potential hazards.

Admittedly, Indian Point is one of the most protected sites in the nation. My friend in the military made it very clear that the amount of fail-safes at the power plant can even be considered excessive. However, the power plant is a concerning landmark in Buchanan for many other reasons as well. It has been the center of controversy for quite some time.

Growing up in the middle of it, I grew up thinking nuclear power was of the most dangerous. I had no idea of the efficiency and benefits until this class. All I was told was about the 50-mile radius in every direction that would be effected with by dangerous radiation if anything went wrong. Although documents of escape routes were often sent to our house- My family decided that if something catastrophic were to happen, the most important thing to do would be make sure were all together–because realistically there would be no way to escape it. Sirens are tested monthly and were so piercing that it drilled into our heads at elementary schoolers that the hazards are extreme. I will never forget the day when they forgot to warn us that testing was going to take place and my entire neighborhood came outside to check with one another if it was a false alarm or if we should start making moves. Only minutes later was it broadcasted on the TV that it was only a test, but those were a scary few minutes.

However, I don’t think that there is a more efficient way to power all of New York City and New York State and shutting down the plant will cost over 1,000 job loses and a spike in carbon emissions. Lets face it, NYC residents will not be shutting off their ACs regardless of where the power is coming from.

However, the point is not built to withstand an earthquake over 5.0 and that is a scary thought. In addition, there is an argument that the plant is not up to fire, safety, or terrorism standards– and if there is any truth at all behind that statement I do not understand how it is even possible to keep it  going. The amount of lives at risk is unbelievable.

 

 

http://www.law.columbia.edu/media_inquiries/news_events/2012/march2012/Indian-Point-Forum-Video

http://www.law.columbia.edu/media_inquiries/news_events/2012/march2012/Indian-Point-Forum-Video

http://sociecity.com/beat-on-the-street/is-the-indian-point-nuclear-plant-unsafe

 

 

 

 

 

 

Our Final Project

FINAL PROJECT:

Team leader: Rajchel, Adam
Team:DeLisle, Molly
Orecchio-Egresitz, Haven
Maat, Ausar
Proctor, Alexsandra


Wind Turbine

 


For our final project we would like to construct our own  wind turbine. Using a large fan, a model turbine in the classroom, and one of our batteries we hope to capture wind power and store it to later be used as electricity. At first the concept seemed useless. Why are we using a fan to power a fan? But, now I realize that what we are displaying through our experiment is the ability to store the generated power. On our test run we noticed that it does take a lot of wind to make a small amount of stored electricity. This demonstrates one of the difficulties with the use of wind power. Unfortunately, it is not efficient enough ti power an entire society.

However, the concept of creating and storing electricity from nothing but wind is ideal. Hopefully the process will become more efficient in the future.

(Note: in our experiment we have to use electricity to power the large fan, but the fan is a symbol for natural wind: a renewable resource. )

Solyndra Scandal

 

Solyandra, a california based solar panel company, has faced a lot of contravesy since August. 2011 when it claimed banckrupcy and abruptly laid off all off 1100 employees.

The employees were not  provided severence pay or a reimbursment of their owed vacation.

The company had created their business off of manufacturing thin silicone-free panels at a time when silicone prices had been at a record high. Unfortunely, when the prices of silicone deflated, the company could no longer compete with companies who sold more efficient panels at a better price.

The FBI bagan an investagation over the summer and the company has been sued by it’s employees for laying them off with little to no warning or compensation.

Solyandra was granted a $535 million dollar loan guarantee to stay affloat.

When asked why he thought that Solyndra was picked for the loan, this is what a  former employee had to say to CARE2.com:

Solyndra had very innovative technology, with solar panels that were totally different from anything else on the market. Our panels were designed for large rooftops, and there was a significant niche in the market that would have enjoyed greater benefits from our panels than from others. Even though the cost of manufacturing Solyndra panels was higher than others, our panels were easier, faster and therefore cheaper to install. Also, Solyndra was one of the first to apply for a DOE loan. The process began under the Bush administration, leading to final approval under President Obama.”

“Three’s quite a bit of back and forth across the political aisle about Solyndra.” said Tim Warstall of Forbes.com. “Does throwing &500 million at a company that failed show that all government tech pump priming is a waste of money? From the other side, well, sure, some will fail but the program as a whole is going to deliver just great results”

Although Solyndra could not last on it’s own, I do not think that it says anything about renewable energy in general. Without the governments support, it will be much harder to switch over to renewable energy. It is a shame because it is so beneficial to our generation and the generations to come.

Check out this NBC News Coverage on Solyndra

Photovoltaics

In our class on 2/14 we did a lab on photovoltaics. This is basically the process of how solar panels work to run electricity in “green” homes. It was a really cool experiment because we had the chance to see energy generated with nothing but a flashlight (which served as representation for sunlight)

 

 

To perform this experiment we attached our small solar panel to the NXT robot and connected to lab view. We would then set our light intensity to a constant level and use distance as a variable. When we ran each test from different distances, lab view recorded the respective amounts intensity of the light reflected on the solar panel. It was pretty obvious to us before we even did the runs what our results would be. The farther the panel was from the light source, the less the intensity.

(INSERT GRAPHS FROM COMP WITH EXCEL)

After we discovered how distance correlated with intensity, we than studied how changing the color of the light would effect the voltages produced.

This experiment demonstrated how the different wavelengths along the electro-magnetic spectrum effected the amount of energy produced.

It became obvious that the darker the color of the slide placed in front of the light, the less energy produced. Perhaps this is why solar panels do not work to their best on gloomy days.

Our results are displayed below.

(insert graphs)

What is Hydrofracking

Hydrofracking is a new development in extracting natural gas from dense shale. This process is economically efficient, but is supposedly environmentally unsafe. Let me explain how.

After companies have cut down miles of trees and shrubs on site, they set up their chemicals, equipment, and truck in the water.

Next, they drill down, then horizontally, for  8,000 feet in each direction.

During this process, 6-8 millon gallons of freshwater is used. Then, sand is used to hold open the holes so the gas can seep through the pores in the shale. The companies then use diesel fuel, biocides, benzene (an additive to gasoline and industrial solvent), and hydrochloric acid, in addition to undisclosed chemicals to make the process more timely and efficient.

It has also been a concern that the change in geology leads to an increased risk of seismic disruptions, such as earthquakes.

The biggest issue, perhaps, is that the identification of some chemicals are considered “property” of the companies. Residents of nearby towns are not aware of what they are being exposed to and it has left them feeling threatened and defeated. Additionally, the millions of gallons of chemically induced water left in the ground is not bio-degradable and it will linger long after our existence.

 

This video explains the effects of hydrofracking in New Jersey:

http://www.youtube.com/watch?v=O_8apSBNY1Y

(note: As a journalist she should not have given her opinion– but hey, it is youtube)

 

 

http://www.natlawreview.com/article/risks-hydrofracking

http://www.peacecouncil.net/NOON/hydrofrac/HdryoFrac2.htm

 

 

Making Your Own Electricity.

In today’s class we produced electricity by shaking a flashlight powered by our own work, a magnet, and coils. This experiment demonstrated Faraday’s Law. When the magnet inside of the flashlight changes direction, electricity is produced   The greater is the change of direction within the currents, the greater electric currents will be produced to power the flashlight.

 

 


Using Labview we recorded how many times we shook the flashlight in 30 second intervals, and the program assessed how much electricity was produced. As expected, the faster we shook the flashlight, the more electricity produced, and the longer the light would stay on.

Using Excel, we then graphed our results on a scatterplot to illustrate our conclusions.

 

 

For some reason, the labeled axis did not save to the file:   Y= Sum of the Square of the Voltages and X= # of shakes.

 

 

 

 

 

Newtons Law Experiment

In our class on 2/01/12 we experimented with Newtons law of motion: F=Ma.

 

Using a string pulley connected to the Mindstorm Battery and a set of weights, we looked at the changes in acceleration with a constant power level and changing mass, and then a constant mass and changing power level.

First, we set up our pulley and battery.

Then we set the power level on Labview to a constant rate of 75. When adjusting the mass, we added or subtracted weights from the pulley to determine  how the changes will effect the speed of acceleration. We did 4 runs.

Next, we set a constant mass of .21kg and adjusted the power level to see how that would effect the speed of acceleration. We also did 4 runs with a constant mass.


Conclusions:

It became clear through 4 trials that the more mass an object has the less acceleration, at a constant .

We also learned that increasing the power level, while keeping the mass constant, the acceleration will increase.

 

 

 

Using lab view and excel, we tracked the changes and then graphed the conclusions.

 

 

 

 

 

 

 

 

 

 

 

How Automobile Industry Increases Gas Mileage

With gas prices as high as $4 a gallon in summer months, automobile industries have been assessing ways to give us more miles per gallon. It is all about burning gas efficiently and being “eco-friendly.”

Recently imposed government mileage regulations will force automobile companies to produce cars averaging 54.5 MPG by 2025. Meaning: in 13 years the average car will be burning as much gas as today’s hybrids.

How is this possible?

 

 

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““The average car in 2025 will get the kind of mileage that today’s Toyota Prius hybrid gets, but we’re not talking about some futuristic technology,” said Dan Becker, director of the Safe Climate Campaign, a Washington organization that promotes efforts to mitigate global warming. “Most of the changes will be invisible to the consumers and achieved with better engines, transmissions and aerodynamics.”

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Smaller Cars:


This one is pretty simple– The smaller the car, the more miles you will get out of each gallon of gas.

Grand SUVs may offer lots of leg room and get great pick-up, however they are also much heavier and cost much more to fill up than lighter more compact sedans. Car companies are all racing to find the lightest, safest materials to use in there newest creations.

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Direct-injection technology:

Gasoline direct injection (GDI), also known as petrol direct injection or direct petrol injection, is a variant of fuel injection employed in modern two-stroke and four-stroke gasoline engines. (wiki)

These mixtures are much leaner than in a conventional engine and reduce fuel consumption considerably.

  • Ultra lean burn mode is used for light-load running conditions, at constant or reducing road speeds, where no acceleration is required. The fuel is not injected at the intake stroke but rather at the latter stages of the compression stroke, so that the small amount of air-fuel mixture is optimally placed near the spark plug. This stratified charge is surrounded mostly by air, which keeps the fuel and the flame away from the cylinder walls for lowest emissions and heat losses. The combustion takes place in a toroidal (donut-shaped) cavity on thepiston’s surface.[1] The cavity is displaced to one side of the piston, the side that has the fuel injector. This technique enables the use of ultra-lean mixtures that would be impossible with carburetors or conventional fuel injection.
  • Stoichiometric mode is used for moderate load conditions. Fuel is injected during the intake stroke, creating a homogenous fuel-air mixture in the cylinder. From the stoichiometric ratio, an optimum burn results in a clean exhaust emission, further cleaned by the catalytic converter.
  • Full power mode is used for rapid acceleration and heavy loads (as when climbing a hill). The air-fuel mixture is homogenous and the ratio is slightly richer than stoichiometric, which helps prevent knock (pinging). The fuel is injected during the intake stroke

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(eAssist)) EcoBoost technology

http://www.youtube.com/watch?v=wmHxiY2J8Ok

 

EcoBoost is a combination of direct injection and turbocharging, boosting 4 and 6 cylinder engines. The process improves fuel economy by about 10 percent over the conventional V-8.

 

 

 

References:

http://www.nytimes.com/2011/10/14/automobiles/automakers-aim-to-meet-mileage-standards-without-big-sacrifices.html?pagewanted=all

http://www.flickr.com/photos/fordmotorcompany/3191681692/

http://www.youtube.com