Category Archives: Energy Tough Love Blog

Energy Tough Love Blog – A weblog from Community Energy Systems

University Pledges To Reduce Energy Use – Beautiful U Day

Posted on by
Reply

5%? That isn’t much but I guess it is better than nothing.

http://www1.umn.edu/news/news-releases/2009/UR_CONTENT_109539.html

University of Minnesota to launch energy conservation program at Beautiful U Day kick off event Thursday

Media Note:

Photo opportunity as people sign conservation pledge at 8 a.m. tomorrow (April 23)

 

Contacts: Tim Busse, University Services, (612) 624-2863,
Patty Mattern, University News Service, (612) 624-2801

The University of Minnesota has set the goal of reducing energy consumption by 5 percent by the end of 2010. University of Minnesota President Robert Bruininks and Vice President of University Services Kathleen O’Brien will introduce a new campus-wide energy conservation program the Beautiful U Day Kick Off event at 8 a.m. Thursday, April 23 at the Electrical Engineering and Computer Sciences Building, 200 Union St. S.E., Minneapolis.

A 5 percent reduction each year will save the university $2.25 million and result in 25,000 fewer tons of CO2 being released into the atmosphere. Meeting this ambitious goal will require a campus-wide effort, said Tim Busse, University Services communications director. To work toward that goal, the university is challenging students, faculty and staff, as well as departments and academic units, to commit to energy conservation by taking the Energy Conservation Pledge. The theme of Beautiful U Day is “It All Adds Up.”

During the kick off event, stations will be set up where students, faculty and staff can sign the Energy Conservation Pledge. The pledge begins “While my individual steps appear small, I understand that It All Adds Up. Working together, we can make huge leaps in reducing emissions, cutting electrical usage and saving University resources.”

Suggestions for conserving energy include: turning off computers at night; turning off the lights when out of the room for more than 10 minutes; unplug cell phone chargers that draw power unnecessarily and use the stairs rather than the elevator. “All these efforts are small steps but it all adds up,” Busse said.

Tags: University Services

:}

More Tomorrow.

:}

Gwinnett – An Education Company That Practices What It Preaches

Posted on by
Reply

I have fun with google everyonce in awhile. I will pick an odd phrase, like today I typed in “beautiful energy conservation”.  As always Procter and Gamble, Siemens and Johnson Controls greenwash pages popup first. Google is such a money hog. But this site was #4 so I thought what the heck. What a pleasant surprise.

http://www.gwinnettcb.org/index.php?option=com_content&task=blogcategory&id=16&Itemid=58

Recycling Bank of Gwinnett
The Recycling Bank of Gwinnett, located at 4300 Satellite Blvd in Duluth, is open to the public for donations 24 hours a day, seven day a week.  Commercial haulers are served from 6:30 a.m. to 4:00 p.m. Monday through Friday.  There is no cost to consumers or businesses to drop off recyclables.
For safety reasons, the public is NOT allowed to remove newspapers or other recyclables from our facility.
The Recycling Bank of Gwinnett will accept 35 types of recyclables:

 

 

Newspapers and Inserts                School Papers

Cardboard Boxes                          Kraft Paper

Soda & Beer Cartons                    Cereal Boxes

Paperboard                                   Tissue Boxes

Paper Grocery Bags                      Shoe Boxes

Paper Shopping/Lunch Bags          Pizza Boxes

Magazines                                   Paper Towel Cores

Shopping Catalogues                    Tissue Paper Cores

Old Phone Directories                   Aluminum Beverage Containers

Discarded Mail                              Aluminum Food Containers

Greeting Cards                             Steel Food Containers & Lids

Envelopes                                    Empty Aerosol Cans

Carbonless Paper Forms               Plastic Soda & Water Bottles

Computer Paper                            Milk Jugs

Calendars                                     Plastic Detergent Bottles

Plastic Bottles #3-7                       Glass Bottles & Jars

Aluminum Baking Tins                   Books

Clean Metallic Lids

For other items you are interested in recycling, please use our Searchable Recycling Database to find a location near you to take your recyclables.

:}

More tomorrow.

:}

 

 

Beautiful Green Awards – Let us know who your favorite green businesses are

Posted on by
1

Steve Blessman forwarded this to me and I am forwarding it to you. I did not know about these awards but they seem pretty cool.

From: Stephen Blessman <blessmans@yahoo.com>
Subject: Green Jobs Awards Application
To: “Steve Blessman” <blessmans@yahoo.com>
Date: Thursday, June 2, 2011, 12:09 PM

Apply now for the 2011 Green Jobs Award!

TEXT/E-MAIL


Green Jobs Award Deadline June 15

Apply now or forward to a prospect
Don’t miss your opportunity to be recognized and celebrated as a leader who is creating great green jobs! Apply for a 2011 Green Jobs Award by June 15! The Green Jobs Award program is produced by SJF Institute and Clean Edge with support from the Citi Foundation. Innovative companies with a business model that preserves or enhances environmental quality and at least ten employees and over $500,000 in revenue are eligible. Winners will receive recognition, media exposure and a package of pro bono business services provided by Certified B Corporations.

The ten 2010 winners from across the country represented diverse industries from renewable energy and energy efficiency to consumer products, manufacturing and engineering. They included the latest in clean technology as well as green innovations in traditional industries. Together, they represented over $150 million in revenue and created over 1,300 great, green jobs.

Help us accelerate the growth of innovative green job creators and demonstrate the potential of the green economy for all communities. Apply now! The application deadline is June 15. Visit www.greenjobsaward.org to learn more.

 

 

TWITTER

  • Apply by June 15 for a Green Jobs Award #GJA2011 and be recognized as an innovative company creating good green jobs http://bit.ly/cjdc1R

 

  • Is your company innovating a traditional industry & creating green jobs? Apply by June 15 for a national award #GJA2011 http://bit.ly/cjdc1R

 

·         Are you enabling others to benefit from going green through your company’s products/services? #GJA2011 Green Jobs Award http://bit.ly/cjdc1R

 

  • Is your company creating great green jobs #GJA2011? Apply by June 15 for the nationally recognized Green Jobs Award http://bit.ly/cjdc1R

·

 

FACEBOOK & LINKEDIN GROUPS/PROFILE

  • Does your innovative company preserve or enhance environmental quality while creating great green jobs? Apply by June 15 for the nationally recognized Green Jobs Award. Go to www.greenjobsaward.org for more information and the application.
  • Don’t miss your chance to be recognized as an innovative company creating good, green jobs! Apply by June 15 for the nationally recognized Green Jobs Award. Go to www.greenjobsaward.org/apply to download your application.

http://www.greenjobsaward.org/apply

2011 Green Jobs Award Application

We are currently accepting  applications for the 2011 Green Jobs Awards!

Eligibility

Private, for-profit companies located in the United States with at least 10 employees and $500,000 in annual revenue in the last calendar or fiscal year are eligible to apply.

Apply

Is your company  creating great green jobs? We invite you to submit the Stage 1 Application here. Application Deadline is June 15.

 

SJF_GJA-button_120x60-apply_2011

Application Process

1. Review Eligibility
2. Use a PC operating system and Adobe Reader 8.0 or higher, to view and complete the application. Click here for a free download the newest version of Adobe Reader 10.0.
3. Download, review, complete and save a copy to your computer, then submit the Stage 1 Application by June 15. Click here to download the application.
4. Semi-finalists will be notified by July 1, and will be provided with the Stage 2 application to complete.
5. Semi-finalists complete and submit the Stage 2 application by August 1.
6. Winners announced at a Green Jobs Convening and Award reception in October 2011.

Selection Criteria

Applicants will be evaluated on:

  • Business model’s viability and positive environmental impact
  • Creation of quality jobs (living wages, benefits, training, career track)
  • Diversity of employment opportunities
  • Positive workplace culture and level of community engagement

Winners will receive recognition, media exposure, executive mentorship opportunities,  as well as a package of pro bono business services provided by Certified B Corporations. Winners will also receive an all expense paid trip to the Award Reception in October 2011.

Send an email to greenjobsaward@sjfinstitute.org if you have any questions.

:}

More next week.

:}

Hydropower In A Small Beautiful Package – New Development

Posted on by
3

Beautiful power generation is the theme of this meditation. This grows out of a comment by a friend. We were talking about wind farms and all the silly criticism of them, the worst of which is that they are ugly. I said I found them elegant and he said he found them beautiful. Thus the theme. Here is a post about small hydro. The article includes a build up about large hydrodams and the negative impact on the environment as well as data about Germany where these dams were developed. I have only included the info about the new type dam itself but please feel free to read the rest.

Small Is Beautiful in Hydroelectric Power Plant Design: Invention Could Enable Renewable Power Generation at Thousands of Unused Sites

ScienceDaily (Oct. 20, 2010)

dot dot dot as they say…

A solution to all of these problems has now been demonstrated, in the small-scale hydroelectric power plant developed as a model by a team headed by Prof. Peter Rutschmann and Dipl.-Ing. Albert Sepp at the Oskar von Miller-Institut, the TUM research institution for hydraulic and water resources engineering. Their approach incurs very little impact on the landscape. Only a small transformer station is visible on the banks of the river. In place of a large power station building on the riverside, a shaft dug into the riverbed in front of the dam conceals most of the power generation system. The water flows into a box-shaped construction, drives the turbine, and is guided back into the river underneath the dam. This solution has become practical due to the fact that several manufacturers have developed generators that are capable of underwater operation — thereby dispensing with the need for a riverbank power house.

The TUM researchers still had additional problems to solve: how to prevent undesirable vortex formation where water suddenly flows downward; and how to best protect the fish. Rutschmann and Sepp solved two problems with a single solution — by providing a gate in the dam above the power plant shaft. In this way, enough water flows through to enable fish to pass. At the same time, the flow inhibits vortex formation that would reduce the plant’s efficiency and increase wear and tear on the turbine.

The core of the concept is not optimizing efficiency, however, but optimizing cost: Standardized pre-fabricated modules should make it possible to order a “power plant kit” just like ordering from a catalog. “We assume that the costs are between 30 and 50 percent lower by comparison with a bay-type hydropower plant,” Peter Rutschmann says. The shaft power plant is capable of operating economically given a low “head” of water of only one to two meters, while a bay-type power plant requires at least twice this head of water. Series production could offer an additional advantage: In the case of wider bodies of water, several shafts could be dug next to each other — also at different points in time, as determined by demand and available financing.

:}

More tomorrow.

:}

Nuclear Power Is Massively Impractical – Indeed small is beautiful

Posted on by
Reply

http://weblog.greenpeace.org/nuclear-reaction/2009/02/energy_generation_small_is_bea.html

Energy generation: small is beautiful

t’s difficult to get your head around the sheer massive size of nuclear reactors. The things are absolutely huge. Just to give you a flavour, in Flamanville, France, where EDF are building a ‘state of the art’ EPR reactor, the roads aren’t wide enough to transport the large reactor components to the construction site.

People sometimes forget that nuclear reactors are just kettles. Great big kettles. The hot nuclear fuel inside the reactor boils water which turns into steam which turns the turbines which generate electricity. Those turbines, as you can imagine, are also huge.

Being so large and heavy, they can’t be transported in any conventional way. Often they’re shipped on giant barges. They’re shipped very slowly and very carefully. Sometimes not slowly and carefully enough. You know where two $10-million 107-tonne turbines destined for the Canada’s Point Lepreau nuclear power station found themselves last October? Spending five days on the bottom of Saint John Harbour.

And that’s another of the major problems with nuclear power and why a so-called nuclear ‘renaissance’ will be impossible to achieve: the nuclear industry has no economies of scale. You cannot increase production of nuclear power stations anywhere near quickly enough to fulfil the promises made by the industry and save us from the worst of global climate change.

Wind turbines and solar energy couldn’t be more different. You can build a working wind turbine in two weeks. The renewable energy industry is a hugely scaleable one. Smaller and more readily available components make it far, far easier to expand production. Want a hundred kilometres of solar cells produced in a day? Mass-produced printable solar cells are already being trialled. The renewable energy technologies are ever improving.

The components of nuclear reactors are too large and complex to mass produce or produce quickly in the same way. Japan Steel Works, the only company in the world currently making specialised steel containers for reactor cores, already has a three year backlog. All those countries boasting of building new reactors in the near future are going to have to join a very slow-moving queue.

 

Posted by Justin on February 20, 2009 3:03 PM | Permalink

:}

More tomorrow

:}

A Solar Farm That Is Beautiful – How not to waste energy

Posted on by
Reply

I am going to be posting things I LIKE this week. It is my summer fun. This is a great site. Please RSS.

http://www.good.is/post/behold-the-gorgeous-solar-farms-of-le-mees-france/

Behold the Gorgeous Solar Farms of Le

Mées, France

  • May 27, 2011 • 12:10 pm PDT

The energy company Efinity opened two new solar-power farms in Le Mées in north-central France this month. They’re huge. Together they occupy 89 acres, generating enough electricity for 9,000 families. They were also designed with the landscape in mind. The panels were installed without concrete foundations, which means when their 20-year lifespan is over and they’re removed, there will be healthy land left behind, and grasses are being planted so sheep can graze among them.

But what’s most remarkable about these solar farms is that they’re really aesthetically pleasing. Set on the rolling hills, they look like some sort of Frank Gehry installation. Carbon aside, they’re just much nicer to look at than a coal plant.


:}

More fun tomorrow.

:}

Americans Waste Energy Just Getting Out Of Bed – Even while they sleep

Posted on by
Reply

This is a great blog post. I will only quote part of it because its point is that we must decentralized our energy sources to avoid losses. But I just want to focus on the losses part. Next week we start another meditation. Have a great Memorial Day weekend. (I realize you can not  see the entire graphic below. More reason to go read the source.)

http://georgewashington2.blogspot.com/2011/04/us-wastes-more-energy-than-it-uses.html

Thursday, April 21, 2011

It’s Not Just Alternative Energy Versus Fossil Fuels or Nuclear – Energy Has to Become DECENTRALIZE

dot dot dot

This basic trend can be seen around the globe with many energy sources. We’ve most likely already found and tapped the biggest, most accessible and highest-E.R.O.I. oil and gas fields, just as we’ve already exploited the best rivers for hydropower. Now, as we’re extracting new oil and gas in more extreme environments – in deep water far offshore, for example – and as we’re turning to energy alternatives like nuclear power and converting tar sands to gasoline, we’re spending steadily more energy to get energy.

For example, the tar sands of Alberta, likely to be a prime energy source for the United States in the future, have an E.R.O.I. of around 4 to 1, because a huge amount of energy (mainly from natural gas) is needed to convert the sands’ raw bitumen into useable oil.

Professor Charles Hall of the SUNY College of Environmental Science and Forestry provides the following graphic to illustrate the point:

 

“Balloon graph” representing quality (y graph) and quantity (x graph) of the United States economy for various fuels at various times. Arrows connect fuels from various times (i.e. domestic oil in 1930, 1970, 2005), and the size of the “balloon” represents part
of the uncertainty associated with EROI estimates.
(Source: US EIA, Cutler Cleveland and C. Hall’s own EROI work in preparation)Click to Enlarge.

(click for larger image.)

The take away message from the graph is that the energy return on investment was very high for oil in 1930, but it is very low today, since the cheap, easy-to-get-to (and less dangerous) oil is gone.

:}

dot dot dot

America uses 39.97 quads of energy, while it wastes 54.64 quads (i.e. “rejected energy”).

As CNET noted in 2007:

Sixty-two percent of the energy consumed in America today is lost through transmission and general inefficiency. In other words, it doesn’t go toward running your car or keeping your lights on.

Put another way:

  • We waste 650% more energy than all of our nuclear power plants produce
  • We waste 280% more energy than we produce by coal
  • We waste 235% more energy than we produce by natural gas (using deadly fracking)
  • We waste 150% more energy than we generate with other petroleum products

The Department of Energy notes:

Only about 15% of the energy from the fuel you put in your tank gets used to move your car down the road or run useful accessories, such as air conditioning. The rest of the energy is lost to engine and driveline inefficiencies and idling. Therefore, the potential to improve fuel efficiency with advanced technologies is enormous.

According to the DOE, California lost 6.8% of the total amount of electricity used in the state in 2008 through transmission line inefficiencies and losses.

The National Academies Press notes:

By the time energy is delivered to us in a usable form, it has typically undergone several conversions. Every time energy changes forms, some portion is “lost.” It doesn’t disappear, of course. In nature, energy is always conserved. That is, there is exactly as much of it around after something happens as there was before. But with each change, some amount of the original energy turns into forms we don’t want or can’t use, typically as so-called waste heat that is so diffuse it can’t be captured.

Reducing the amount lost – also known as increasing efficiency – is as important to our energy future as finding new sources because gigantic amounts of energy are lost every minute of every day in conversions. Electricity is a good example. By the time the energy content of electric power reaches the end user, it has taken many forms. Most commonly, the process begins when coal is burned in a power station. The chemical energy stored in the coal is liberated in combustion, generating heat that is used to produce steam. The steam turns a turbine, and that mechanical energy is used to turn a generator to produce the electricity.

:}

The main point being we waste energy to make energy. There is something wrong with that. It really means that resources are not free. But that is another post. More Tuesday.

:}

We Even Waste Light During The Day – That’s right

Posted on by
Reply

The people of the US actually turn on more lights then they need and make there eyes worse from the glare. If you don’t believe me listen to this professor.

http://envirowriters.wordpress.com/2011/04/18/proposal-essay-less-wasted-light-equals-more-energy-savings/

Proposal Essay: Less wasted light equals more energy savings

Posted on April 18, 2011 by David Apperson

The UAF campus uses electricity.  Some of the electricity is used to power fluorescent light bulbs which are much more efficient than incandescent bulbs but because they exist as a load in the power grid, use energy.  How much energy is being used by these lights, is it more than is necessary, and how bright to classrooms and computer labs need to be?  In 2010, UAF created its Office of Sustainability to utilize the $20 per student fee towards sustainable projects.  The goal is to supply the necessary funds to make sustainable projects happen but the projects must be cost effective with realistic financial return periods.  Although bright rooms are convenient, the UAF sustainability club should lobby the Chancellor and Facilities Services to implement a program that systematically removes bulbs from over-lit rooms because it will reduce the energy use of the UAF campus, make indoor conditions more comfortable, and save money.

The simplest way to reduce the energy use for lighting is to remove unnecessary bulbs.  Before someone begins pulling random lights from their fixtures at will, some simple calculations can be done to get “back of the envelope” numbers for a cost-benefit analysis.  The following calculations will use some simple energy units, the kilo-Watt (kW) and the kilo-Watt-hour (kWh).  A kW is a measurement of Power and is defined as 1,000 joules per second, how quickly work is being done.  A kWh is a measurement of energy, a fairly large amount of energy at that, being the amount of work by a one kW source for one hour.  Electricity is sold in kWh, because it doesn’t matter how fast someone or something is using the electricity but how much of it they are using.  Light intensity can be measured in lumens or foot-candles.  A lumen is a measure of the power of light perceived by the human eye and the foot-candle can be considered as the amount of light falling on a surface, being defined as one lumen per square foot.

The first thing to be determined is whether or not rooms are over lit.  If they are, then energy is being wasted.  The U.S. Occupational Safety and Health Administration (OSHA), recommends that in an office setting, the light intensity be between 20 and 50 foot-candles (OSHA).  As I write this essay, I am sitting in the Students of Engineering Computer Lab (SOECAL) in Duckering.  The room is quite bright and approximately 20 ft by 40 ft and holds 15 light fixtures, each containing three fluorescent bulbs.  The bulbs are GE Ecolux Starcoat bulbs consuming 32 Watts and producing 2800 lumens a piece (light bulb).  To determine if this particular room is over lit, the following calculation is made:

It appears that the SOECAL lab is over lit by three times the amount of recommended light for a work office, perhaps other similar classrooms and computer labs are as well.  Since we can assume the SOECAL lab and many other rooms are over lit, it can also be determined how much energy is being wasted and how much it is costing.  The following calculations are performed considering a single bulb for a single hour.

:}

In the room where he is writing no less. More tomorrow.

:}

Militaries Waste Huge Amounts Of Money – In everything they do

Posted on by
Reply

Let us put aside the fact militaries themselves are a huge waste of money. It is estimated that for every 1 $$$ the US for instance spends on a bullet they get 75 cents in return. That is just if it sits on the shelf. If it is used of course it is worth nothing. Not to mention that lavishing spending on militaries brought Empires from the Egypt to the Soviet Union’s down. But the USA’s Military wastes energy like there is no tomorrow. The worst offenders of course are the Airforce and the Navy. The Airforce in particular spews kerosene byproducts into the upper atmosphere where they do the most harm and the Navy because they burn warm asphalt at sea. Not to mention the nuclear issues both as weapons and power sources. But think about our main battle tank. It is as big as a modest 2 story house and it runs on diesel. So the idea that they want to go to zero energy use is great. But I got my doubts.

http://globalgreenworld.org/?p=736

U.S. Army Launches Plan to Make All Military Bases Net Zero

Posted by Ggw Admin on Apr 19, 2011 in Blog | 0 comments

Army Vision for Net Zero, Fort Bliss, net zero, renewable energy, U.S. Army, U.S. Military, Waste Reduction, water conservation

Over the past couple of years, the U.S. Army has announced several initiatives ranging from solar-powered tents for troops to hydrogen-powered tanks, however this is their most ambitious program yet. With the help of the U.S. Department of Energy’s National Renewable Energy Laboratory (NREL), the U.S. Army is aiming to have all Army installations across the country be net zero.


Army Vision for Net Zero, Fort Bliss, net zero, renewable energy, U.S. Army, U.S. Military, Waste Reduction, water conservation

With funds from the DOE’s Federal Energy Management Program (FEMP), the “Army Vision for Net Zero” program will aim to meet mandates to reduce energy as a result of Executive Order 13514. The order calls for all new buildings to be net zero energy by 2030, and it dictates a 30 percent reduction in water use and a 50 percent reduction in waste that goes to landfills. On top of that, the National Defense Authorization Act also mandates that the Army produce or acquire 25 percent of its energy from renewables by 2025.

“The first priority is less,” Assistant Secretary of the Army for Installations, Energy Environment Katherine Hammack said. “If you use less energy, you don’t have to buy as much – or you don’t have to make as much from alternative energy sources or renewable energy sources. So if you look at energy, that is a focus on energy efficiency. If you’re talking about water, then that’s water conservation. Or even if you’re talking about waste, that’s reducing the amount of waste we have in the steam.”

The program already has a poster child in the form of Fort Bliss. The military base boasts solar daylighting in the dining facility, warehouse and gym, energy-efficient windows, utility monitoring and control for heating and air-conditioning systems in approximately 70 buildings, and plans to increase the on-site hybrid waste-to-energy/concentrating solar power plant from 90 to 140 megawatts. The City of El Paso has committed to provide 1 million tons per year of municipal solid waste, which will be transformed into energy by the base.

“The Army’s net zero vision is a holistic approach to addressing energy, water, and waste at Army installations,” Kingery said. “We look at net zero as a force multiplier for the Army that will help us steward our resources and manage our costs.”

Considering that defense is a massive cause of national debt, the plan serves two purposes – reduced spending and “greening” national security. If the military can get on board with renewable energy, it makes you wonder why other areas of government are having such trouble.

+ U.S Army

Images © US Army

:}

More tomorrow

:}

USA Wastes 59% Of The Energy It Uses – We are energy pigs

Posted on by
Reply

Great article and great graph. Please see the rest. The comments are particularly stupid.

http://www.physorg.com/news/2011-04-energy_1.html

US energy use chart shows we waste more than half of our energy

April 9, 2011 by Lisa Zyga report

US energy use

Enlarge

This flow chart shows the amount of energy (in quads) that is produced by different energy sources and consumed by different sectors. Image credit: Lawrence Livermore National Laboratory and the US Department of Energy.

(PhysOrg.com) — This flow chart of the estimated US energy use in 2009, assembled by the Lawrence Livermore National Laboratory (LLNL), paints a pretty sobering picture of our energy situation. To begin with, it shows that more than half (58%) of the total energy produced in the US is wasted due to inefficiencies, such as waste heat from power plants, vehicles, and light bulbs. In other words, the US has an energy efficiency of 42%. And, despite the numerous reports of progress in solar, wind, and geothermal energy, those three energy sources combined provide just 1.2% of our total energy production. The vast majority of our energy still comes from petroleum (37%), natural gas (25%), and coal (21%).

:}

More tomorrow.

:}