Category Archives: architecture

Living In A Cave Or The Next Best Thing – They have nearly zero energy use

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People all over the world live in caves. I am not talking about subsistence living either. Downtown Minneapolis is pretty much underground or connected by underground walkways.

http://en.wikipedia.org/wiki/Underground_City,_Montreal

Montreal’s Underground City (officially RÉSO or La Ville Souterraine in French) is the set of interconnected complexes (both above and below ground) in and around Downtown Montreal, Quebec, Canada. It is also known as the indoor city (ville intérieure), and is the largest underground complex in the world.[1]

The lower floors of the Eaton Centre between the McGill and Peel metro stations.

Not all portions of the indoor city (ville intérieure) are underground. The connections are considered tunnels architecturally and technically, but have conditioned air and good lighting as any building’s liveable space does. Many tunnels are large enough to have shops on both sides of the passage. With over 32 km (20 mi) of tunnels spread over more than 12 km2 (4.6 sq mi), connected areas include shopping malls, apartment buildings, hotels, condominiums, banks, offices, museums, universities, seven metro stations, two commuter train stations, a regional bus terminal and the Bell Centre amphitheatre and arena.[citation needed] There are more than 120 exterior access points to the underground city. Each access point is an entry point to one of 60 residential or commercial complexes comprising 3.6 km2 (1.4 sq mi) of floor space, including 80% of all office space and 35% of all commercial space in downtown Montreal.[citation needed] In winter, some 500,000 people use the underground city every day. Because of its Underground City, Montreal is often referred to [by whom?] as the “Double-Decker City” or “Two Cities in One”.

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OK so it is really really cold in Montreal. The point is caves do not really need heating and cooling. Hot water can be supplied by solar or geothermal and that just leaves your electrical needs. They also do it where it is really really hot.

http://en.wikipedia.org/wiki/Coober_Pedy

Coober Pedy is a very small town, roughly halfway between Adelaide and Alice Springs, that has become a popular stopover point and tourist destination, especially since the completion of the sealing of the Stuart Highway in 1987.

Interesting attractions in Coober Pedy include the mines, the graveyard, and the underground churches. The first tree ever seen in the town was welded together from scrap iron. It still sits on a hilltop overlooking the town. The local golf course – mostly played at night with glowing balls, to avoid daytime temperatures – is completely free of grass, and golfers take a small piece of “turf” around to use for teeing off. As a result of correspondence between the two clubs, the Coober Pedy golf club is the only club in the world to enjoy reciprocal rights at The Royal and Ancient Golf Club of St Andrews.[4]

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http://www.outback-australia-travel-secrets.com/coober-pedy-underground-homes.html

Coober Pedy Underground Homes
Think A Dugout Is A Hole In The Ground? Think Again!

Coober Pedy underground homes are not what you expect.

The idea of living underground usually triggers thoughts of dark, damp and cramped spaces.

It doesn’t help that those underground homes are called “dugouts” in Coober Pedy… Or that people are told that they are abandoned mine shafts…

But as I said, Coober Pedy dugouts are not what you think.

You really have to go and have a look at some of those homes yourself, or stay in underground accommodation in Coober Pedy. You’ll probably end up dreaming of an underground home yourself. I certainly did.

Historic Coober Pedy Dugouts | Modern Coober Pedy Underground Homes

Historic Coober Pedy Dugouts

Coober Pedy Dugout

The early Coober Pedy dugouts were indeed the holes that had been dug in search for opal.

Back then opal mining was back breaking manual labour, so the earliest Coober Pedy homes were no bigger than they absolutely needed to be.

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Tomorrow more on Energy Neutral Houses.

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Unfortunately These Are PreFab Houses – They are not allowed everywhere

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Still they are pretty cool…

The European Solar Decathlon Kicks Off Today – Exclusive Photos!

by Bridgette Meinhold, 06/18/10

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Ready for another exciting competition in the world of prefab solar houses? Today the 2010 Solar Decathlon Europe kicked off in Madrid, Spain, marking the first time the competition has been hosted in Europe! Seventeen teams from around the globe are battling it out in the center of the city to see who has the most efficient solar powered and eco-friendly house. Just like the competition in Washington DC, the teams will be graded on their ability to minimize their energy use, innovative architecture and engineering, sustainability, and more. Read on for our exclusive photos and a first look at the most exciting houses in this year’s competition!

Above, the Fablab House from the Institute for Advanced Architecture of Catalonia is on their home turf for this competition and one of it’s most striking differences from the other houses is its departure from rectangular home. Solar panels completely cover the curvaceous roof and is built off the ground for a boost of natural ventilation

Read more: The European Solar Decathlon Kicks Off Today – Exclusive Photos! | Inhabitat – Green Design Will Save the World

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Please see this amazing article and its great pictures. The American entry is from last year, but it is still awesome. 2 things to note. This not being critical either. 1, building codes in many areas prohibit the construction of prefab homes. The reasons range from protecting unions, to cutting competition against builders,  to bad experiences with crappy kits. 2, they are small compared to some standards. This is in part because they encourage people to live outside which is good for your health as well as encouraging socializing. But it is also the case that many people have gotten used way too much space for way to much STUFF. We are consuming the planet and we must stop.

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Earth Day’s Coming Up – Energy conservation, we have come a long way

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But we have so far to go. I can remember the days when R13 was over the top in terms of insulation. Nobody would ever need that much. Now we are are encouraging R60 in the attic. But we have so far to go. Don’t get me started on other parts of the world. There is no way we can supply decent housing to 7 billion people, but they will all want televisions.

http://www.homeenergy.org/article_full.php?id=699

March/April 2010
House of Pressure

by Anthony Cox and Melissa Byrd

A Model of Energy Efficiency

The New River Center for Energy Research and Training (NRCERT) in Christiansburg, Virginia, is a division of Community Housing Partners (CHP), a nonprofit development corporation that serves the needs of low-wealth and low-income residents in the Southeast. NRCERT was established in 1999 to provide training to emerging professionals in the fields of in weatherization and whole-house performance skills. NRCERT also performs research for leaders in the field. This research has resulted in significant technical advancements for the weatherization and building performance industries.

NRCERT’s training emphasizes a whole-house approach to home performance, using detailed curricula and innovative models to support these training efforts. Its goal is to create homes (both new construction and retrofit) that are good for people, good for the environment, and good for business. Technicians are taught to reduce energy consumption, address the health and safety of occupants, and assess how the building envelope, appliances, and occupants interact with one another.

One of the teaching tools is the House of Pressure, which Anthony designed in 1995 for himself. He designed this tool to help visually demonstrate to his peers the complicated science of air pressure. At the time, Anthony was a weatherization crew member with New River Community Action.

Not Your Typical Dollhouse

The House of Pressure visually demonstrates pressure and air flow dynamics within a residence, using pressure diagnostics. It is a model of a single-family home, made of a clear, high-strength plastic laminate called Lexan that can be written on with a dry-erase marker. The interior of the House can be viewed from all four sides. It gives the instructor the ability to create and control air flow with working scale reproductions of the mechanical air distribution systems that are found in most homes.

The House features an operable forced air duct system, a clothes dryer, a bathroom fan, a fireplace, and a water heater. There are smoke generators in the water heater and the fireplace to demonstrate the dangers of backdrafting; and a smoke generator in an exhaust pipe in the garage to show the danger of CO infiltration from a garage into conditioned space. (The menacing theme of Jaws plays when backdrafting occurs, as a warning that smoke is coming back into the House!)

An automated performance testing (APT) device from the Energy Conservatory measures the air pressure levels in eight different locations in the House. It uses Microsoft Excel to project those pressure levels onto an LCD screen, so that audiences can view the pressure levels and the direction of air flow in every room. It’s like having eight manometers going at the same time, so when you make changes to one part of the House, you can see how they affect every other part, with immediate feedback from the APT.

Testing the Model Is the Same as Testing a Real House

To get accurate results, it’s important to understand how to set up and use diagnostic equipment—and the House of Pressure is no exception. An illustrated laminated sheet with instructions comes along with the model. The instructions show how to set up the measuring equipment to perform various tests on the model, and also how to use the equipment in the field. It even has color-coded hose hookups for using the digital manometer.

The House of Pressure can be used to

  • demonstrate blower door testing, using a digital manometer and a Minneapolis Duct Blaster;
  • demonstrate zonal and pressure pan testing;
  • show how duct leakage diminishes health and safety, comfort, durability, and energy efficiency by creating leaks in the supply ducts and/or the return ducts;
  • demonstrate the effect of thermal bypasses;
  • show pressure and thermal boundaries; and
  • simulate backdrafting conditions.

There are operable doors from the bedroom and bathroom to the central living area that show how air flow takes place in a house with a central return duct system. Pressure relief methods can be shown and discussed. Combustion appliance zone testing can be shown by following a worst-case test procedure using a digital manometer.

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Please read the magazine every month…as Yoda says…do not try…do

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How Much Do You Lose To The Utility Company While You Work Or Are Asleep

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The phenomenon is called Vampires. These are devices that suck power to maintain function. The Clock on your alarm clock, the chip in your sound system that saves your “functions” setting, the clock on you microwave. This may not appear to be a local issue like I have been posting this week but it is very personal to me. The State of Illinois has a huge office building that houses many members of our local legislature and their staffs. It was built when power was cheap and the cleaning goes on at night. There are no light switches what so ever and SO THE LIGHTS STAY ON ALL NIGHT. This is the Count Dracula of all vampires and I have sworn for the last 30 years that I would get them turned off and I have failed. Yet I persist.

http://www.vampirepowersucks.com/Default.aspx

US total
See it happen - Augmented Reality Calculate your energy loss Get the iPhone app

Vampire Power / Vampire Energy Awareness

Standby Power Wastes $10 Billion of Electricity Annually in US Alone

Just as Count Dracula preys upon the innocent, Vampire Power or Vampire Energy, or the energy drawn from items like electronic devices that are plugged in but not in use, drains “blood” from the energy grid wasting 10 billion dollars annually in the U.S. alone. This Web site is your single source for helping you to take a bite out of Vampire Power or Vampire Energy, to save both energy and money.

Put a stake through Vampire Power and check out the About Us page for more information on how to combat this blood sucker once and for all. Go to the Spread The Word section to show your support and stay up to date on the latest news about Vampire Power prevention. Bring the fang marks of Vampire Power to life and see just how much you’re “bleeding” by visiting the Vampire Power Experience. Consider us your newest garlic supplier — you’ve been warned, Dracula.

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Please write Governor Quinn and tell him to TURN OFF THE LIGHTS IN THE STRATTON BUILDING.

Drive a Stake Through
Vampire Power

As a developer of eco-friendly chargers and power management systems, iGo lives and breathes power, but one thing that always bugged us is how much Vampire Power sucks. Even when your electronic device or appliance is completely turned off, Vampire Power is sucking energy.

Some devices simply take power to run internal circuits or memory while others waste energy by continuously trying to recharge devices that have already been fully charged. Just about everything plugged into your home and office draws power from the wall. Think about it, even if you always turn off your gadgets when you’re not using them, most electronics don’t actually turn all the way off! The typical American home has 40* products that are constantly drawing power and 10% of all electricity is wasted on Vampire Power. Vampire Power sucks away 10 billion dollars** annually in the U.S. alone.

The good news is that there are ways to reduce Vampire Power by changing our behavior and through products such as chargers and surge protectors with iGo Green™ Technology. That’s why, in conjunction with Vampire Power Awareness Month, iGo has created this site to provide information about how to stop sucking Vampire Power.

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Then I can rest in peace.

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St. John’s Hospital Is Building Green – But how green is that?

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http://www.illinoistimes.com/Springfield/article-7175-getting-bigger-going-green.html

Thursday, April 8,2010

Getting bigger, going green

St. John’s expansion will be environmentally friendly

By Patrick Yeagle

As St. John’s Hospital is preparing to renovate its downtown campus, the 135-year-old Springfield institution is paying special attention to minimizing the project’s environmental footprint and maximizing local economic benefits.

On March 31, hospital officials announced a $162 million proposal to demolish certain old structures on the hospital’s campus and replace them with more modern surgery, pharmacy and patient areas.

Dave Olejniczak, chief operating officer at St. John’s, says the project will incorporate several cost-saving, environmentally friendly designs, such as paints, stains and adhesives with low toxin levels, energy-efficient light fixtures and natural lighting whenever possible.

“A little bit of it is an investment up front, but the majority of it is going to be a cost savings down the road, in particular when we focus on the glass elements around the facility itself,” he says. “With having the natural light, it’s going to reduce the amount of artificial light we have to generate.”

Recycling is a big part of the design as well. From the carpet made of recycled fibers to the reuse of scrap materials such as steel and wood, Olejniczak says the project will uphold the hospital’s “stewardship values.”

“Envitronmental stewardship, from a Fransiscan perspective, is ensuring that we’re using the resources that we’re currently given to the best of our ability, and to take what we have and reuse it or recycle it,” Olejniczak said.

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To which I said:

Editor

Illinois Times

1320 S. State Street

PO Box 5256

Springfield, IL  62705

Emailed: 4/12/10

editor@illinoistimes.com

Dear Editor:

I am writing to you regarding your brief article about St. John Hospital’s future building plans. It is laudable that they plan on making that building locally built and green. However I did not hear “state-of-the-art” speak included in that admittedly short article. First and foremost I hope the Hospital will perform a green tear down. We should be wasting as little as possible these days. Putting perfectly good materials in the landfill is no longer acceptable.

Second I hope they also perform a green rebuild so that everything in the new Hospital wing will be recycled. Finally I hope that the new wing will generate its own energy and be super efficient in its energy usage. If they use windows, please use windows that generate electricity. If they have a roof I hope that it has wind turbines on top and plenty of plants to absorb the water that lands there. I hope that they put in geothermal heating and cooling systems. This is after all about people’s health. If St. Johns becomes a beacon of how we can lead our lives without pollutants then they will be contributing to the over all health of our community.

As the article pointed out it is also about health care costs. Industry estimates are that if the medical community used energy efficiently they could cut our medical cost by 10 to 15%. That would be a huge benefit to us all.

Doug Nicodemus

948 E. Adams

Riverton, Il  62561

day) 6297031

email dougnic55@yahoo.com

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If you want to read more about healthcare you might look here:

http://mastersofpublichealth.org/top-50-public-health-blogs.html

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Energy Concerns And Healthcare

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The medical and healthcare industries use energy like there was no tomorrow. I estimate that the US could save at least 20% on its healthcare bills. For those of you in small towns…how much do you waste on driving to your doctor? Why don’t the hospitals put a telecommunications computer in your city or town hall? That way you can call in, get an appointment, walk down to City Hall and talk to your doctor. Even show him where you hurt. To say the medical community is stodgy is wrong…it is too smart for its own britches.

http://www.matmanmag.com/matmanmag_app/jsp/articledisplay.jsp?dcrpath=MATMANMAG/Article/data/11NOV2008/0811MMH_FEA_Purchasing&domain=MATMANMAG

The bright side of energy conservation
Using renewable sources saves money, reduces emissions

By Gina Pugliese and Nick DeDominicis

QUICK TAKE>>>
Hospitals are behind other industries in employing energy conservation initiatives, including the use of renewable energy sources. But times are changing as they realize that wasted energy drains their bottom lines and that they have a responsibility to reduce their carbon footprint for the health of the environment and surrounding communities. Energy-saving initiatives require multidepartmental collaboration within a hospital; and materials managers need to ensure they are a part of that because their expertise can make a difference.

According to the Environmental Protection Agency (EPA), every dollar a not-for-profit health care organization saves on energy is equivalent to generating $20 in new revenue for hospitals or $10 for medical offices. So why aren’t all hospitals jumping into energy conservation with both feet? There are many reasons. But this is certain: Most hospitals recognize that energy conservation is a priority and are gradually realizing the benefits, both to their bottom line and the environment.

On impact

Energy issues have an impact on virtually every aspect of health care. Demands for energy and the costs for providing it, are escalating rapidly. And those costs are not confined to higher utility, transportation and supply bills, but also the gradual destruction of the environment. Our nation’s dependence on fossil fuels has led to a documented rise in global warming caused by greenhouse gas emissions, as well as potentially negative health consequences for patients and workers.

Demand for energy is soaring across all sectors of the American economy. In fact, a recent Department of Energy survey of 20 major companies concluded that global demand for energy resources will rise dramatically—nearly 60 percent—throughout the next 25 years.

Senior executives from 20 major companies attending a 2007 workshop hosted by the EPA and Global Business Network estimated that  electricity demand in the United States alone will grow by at least 40 percent throughout the next 25 years, requiring at least 300 power plants to be built over that time. Such demands have led to an unprecedented rise in energy costs, which have surged dramatically and put a significant financial strain on hospitals. In some areas of the United States, energy costs have grown by more than 60 percent in the past few years.

The Energy Information Administration’s data show that the health care industry spends an estimated $7.4 billion on energy ($5.3 billion for inpatient and $2.1 billion for outpatient facilities). More than 90 percent of hospitals surveyed recently by Healthcare Financial Management magazine reported higher energy costs over the previous year, and more than half cited double-digit increases.

Greenhouse gas (GHG) emissions result from our nation’s reliance on nonrenewable sources of energy—fossil fuels, coal, oil and natural gas—that accelerate global warming and climate change; and there is much debate about how to curb such trends. GHG emissions, which include carbon dioxide, methane and nitrous oxide, also are increasingly linked to a host of serious public health consequences such as depletion of our planet’s fresh water supply and respiratory ailments.

Conservation now

Health care is a veritable energy hog. Whether from heating and cooling air and water, lighting spaces or transporting goods and services, the industry is heavily reliant on energy from mostly conventional nonrenewable sources.

According to the EPA, inpatient health care is the second most energy intensive industry in the United States (second only to the food service industry), gobbling up more than twice as much energy per square foot as nonhealth care office buildings. Buildings alone are responsible for almost half of the energy consumed in the United States and 48 percent of all GHG emissions. Hospitals alone use 836 trillion British thermal units (BTUs) of energy annually, have more than 2.5 times the energy intensity and CO2 emissions of commercial office buildings and are consistently within the top 10 water users in their communities.

Second, the calls for change are based on economic survival. Energy costs are soaring in the health care industry. A recent Department of Energy report found that rising energy prices and hospitals’ increasing energy demands have escalated costs so much that hospitals’ energy bills consume up to 3 percent of their total operating budgets, and up to at least 15 percent of their annual profits. Such phenomena are exacerbated by the added cost of running outdated and energy inefficient building systems.

Third, calls for energy conservation in health care are becoming louder because of hospitals’ ethical duty to protect public health. Many observers believe that the health care industry contributes disproportionately to the detrimental public health consequences of climate change. To keep true to its mandate—first, do no harm—hospitals today increasingly are turning their attention to change practices that can potentially jeopardize patient and worker safety. Increasing public concerns about climate change and its potential health, economic and security consequences are helping to shape the industry’s attitude toward climate change.

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dot dot dot…as they say…the headlines say it all:

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Behind the times

Although hospitals lag behind other industries in implementing energy-efficient strategies, there are numerous national initiatives focusing on health care, including a two-year-old initiative called E2C (Energy Efficient Challenge) that was launched by the American Society for Healthcare Engineering (ASHE) to support the goals of EPA’s Energy Star Challenge Program, says Dale Woodin, ASHE executive director. Woodin explains that this lag is often due to the lack of available capital, expertise and resources, and a need for greater awareness and support from senior health care leaders.

Health care companies in general also spend a smaller portion of their total expenses on energy, meaning fewer dollars are available to make far-reaching improvements. Rising energy costs are squeezing operating margins and diverting money needed for critical health care quality and safety improvements.

In essence, the primary driver is saving money. According to the American College of Healthcare Executives, 67 percent of health care CEOs list financial challenges as their No. 1 concern. However, operating costs and competition for investment and capital improvement funds often restrict available funding for energy improvements.

In addition, alternative energy sources have traditionally been scarce and expensive. For example, only 7 percent of the entire U.S. energy consumption is from renewable energy sources, including biofuels such as ethanol, solar, hydroelectric and wind power.

The health care industry is less open than other industries to the use of renewable energy sources, and few health care organizations have publicly stated carbon reduction goals.

A recent Johnson Controls survey of various industries found that only 38 percent of health care organizations had either invested in or were exploring renewable technologies, compared with 68 percent across other industries.

Catching up

Recently, the health care sector has begun to transform its core practices in response to the scientific confirmation of the link between climate change and health. Health care organizations are placing a growing importance on initiatives such as energy management, and while they are less likely than other industries to achieve green certification, they are more likely to implement green features without pursuing formal certification.

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Physician heal thyself.

Healthcare Is Not Prepared For Peak Oil – In fact it throws our money out the window

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This article is about a year old and it makes points that have been made before, such as:

1. The medical field is not prepared for Global Warming. Our Healthcare system world wide will not be able to cope with the shift in and increase in what are largely thought of as tropical diseases today.

2. Medical Communty’s contribute to Global Warming through inefficiencies.

They also make the point that whether you believe in Peak Oil or not,  Healthcare is addicted to Oil.

3. The pharmaceutical industry’s dependence on Oil would cause it to collapse if oil supplies became restricted or suffered a huge price increase.

4. Hospitals are dependent on electricity (coal) for their medical practices and have very little flexibility built into their practice. eg. No xrays, then what?

But the most telling part for me is the following.

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http://www.greens.org/s-r/45/45-05.html

Medicine at the Crossroads of Energy
and Global Warming

by Dan Bednarz, Ph.D., and Kristin Bradford, M.D., M.P.H.

The difficult thing now is there’s no [longer any] low-hanging fruit. — Roger Elliott, St. Joseph’s Hospital, Chippewa Falls, WI, on efforts to reduce hospital energy costs.

[A]ny field … should be judged by the degree to which it understands, anticipates, and takes action in regard to changes in society. — Bernard Sarason, The Making of an American Psychologist

dot dot dot (as they say)

A given in hospital operations is unlimited inputs of energy and resources; this results in waste in the name of hygiene, insurance and regulatory considerations, and “the best” care. However, the fact that worldwide “energy demand is accelerating” and on its current pace “will double by the year 2050” will soon burst upon medicine.

Turning specifically to energy usage, the Health Care Energy Project tells us that hospitals “use twice as much energy per square foot as office buildings…” In addition, hospitals consume large quantities of petroleum-based, processed, and transported products ranging from aspirin to jells and lubricants to plastic dinnerware and gloves to pharmaceuticals, syringes, IV and dialysis tubing, to name but a few. And most of these items are produced for one-time, non-recyclable use. Petroleum derivatives are also found in many computer parts, electronic equipment, furniture, and so on.

… hospitals “use twice as much energy per square foot as office buildings…”

As noted, hospital administrators are somewhat aware of and responding to the rise in energy costs for heating, cooling, and lighting, primarily by locating the problem in the domain of facilities management. Therefore, controlling energy costs in a hospital largely is confined to electricity and natural gas bills.

As the costs of oil and natural gas have risen in recent years facilities managers are trying to make their buildings more energy efficient, hoping that such savings will offset price rises. Yet, a 2006 survey of hospitals found:

More than 90% … reported higher energy costs over the previous year [2005], and more than half cited increases in double-digit percentages.

The facilities management response is to replace, retrofit or upgrade inefficient infrastructure —boilers, lighting fixtures, building insulation, windows, etc., and in general to “modernize” facilities — in accordance with the Energy Star Program. Some of the newest “green” hospital building approaches promise to reduce energy consumption by as much as 60% below code mandates. This is encouraging, but only a beginning.

However, new construction is done only when it makes “economic sense,” leaving many older hospitals and kindred structures too obsolete to “economically” justify retrofitting or demolishing and replacement — again energy is presumed to be plentiful and cheaper than upgrading — and no consideration whatsoever is given to its scarcity. Moreover, the costs for new hospital construction are soaring, another factor traceable to increasingly expensive fossil fuels. Dave Carpenter, summarizing a 2006 energy survey of hospitals, comments on the constraints facilities managers face:

Money-related reasons were among those given most often in response to a … question asking why recommended energy-saving measures hadn’t been implemented, including 37% who reported a lack of funds. Additionally, 31% cited other priorities, 26% said the payback period was judged to be too long, 23% said operations and maintenance budgets were underfunded and 16% cited lack of senior management commitment and support.

Given these constraints:

Facilities managers have little choice but to stay on the lookout for energy savings wherever they can be found. [One manager] says “it’s going to get worse before it gets better…”

We would argue that “it,” energy costs, will not get better. The entire health care industry will be forced to accommodate to dwindling fossil resources while simultaneously beginning to face the consequences of global warming.

This is stark because the health care system —already stressed in other ways — could begin to fail and even collapse for want of energy and a surge in patients.

… the health care system … could begin to fail and even collapse…

Finally, a word is needed on the third so-called “fall-back” fossil fuel we have barely mentioned, coal, since many energy experts offer it as a painless fix for peak oil. While the high levels of greenhouse emissions of coal are well known, what is less appreciated is that carbon sequestration to control greenhouse emissions is expensive and still an unproven technology. Second, recent reviews have concluded there are substantially less coal reserves than the commonly accepted estimates of 200–300 years supply. Perhaps as little as a few decades of recoverable coal remains, much of it low-grade and high in pollutants.

The dimensions of what we face are uncertain, but the major question undeniably is how will hospitals change given the ecological (global warming as well as multiple sources of pollution and resource scarcity) and geological (twilight of fossil fuels) state of affairs the world now faces?

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And the answer is?

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Healthcare Professionals Waste So Much Money – It is a dieing shame

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The Disposable Society and Industrial Society hit the medical profession hard. They throw out and stamp out enough product to treat most of the third world. It is despicable actually. We wonder why we spend twice as much on medicine as the rest of the world and have crappier outcomes? Well once hospitals became “cost centers”, the game was pretty much over.

http://www.sciencedaily.com/releases/2010/02/100224183113.htm

Going Green in the Hospital: Recycling Medical Equipment Saves Money, Reduces Waste and Is Safe

ScienceDaily (Feb. 26, 2010) — Wider adoption of the practice of recycling medical equipment — including laparoscopic ports and durable cutting tools typically tossed out after a single use — could save hospitals hundreds of millions of dollars annually and curb trash at medical centers, the second-largest waste producers in the United States after the food industry.

The recommendation, made in an analysis by Johns Hopkins researchers in the March issue of the journal Academic Medicine, noted that with proper sterilization, recalibration and testing, reuse of equipment is safe.

“No one really thinks of good hospitals as massive waste producers, but they are,” says lead author Martin Makary, M.D., M.P.H., a surgeon and associate professor of public health at the Johns Hopkins University School of Medicine. “There are many things hospitals can do to decrease waste and save money that they are not currently doing.”

Hospitals toss out everything from surgical gowns and towels to laparoscopic ports and expensive ultrasonic cutting tools after a single use. In operating rooms, some items that are never even used are thrown away — single-use devices that are taken out of their packaging must be tossed out because they could have been contaminated. Selecting such good devices for resterilization and retesting could decrease the amount of needless waste from hospitals.

And, the researchers say, hospitals could procure more items designed to be used safely more than once after being sterilized.

Hospitals, they add, are increasingly attracted to reprocessing because recycled devices can cost half as much as new equipment. Only about a quarter of hospitals in the United States used at least one type of reprocessed medical device in 2002, and while the number is growing, the practice is not yet widespread, they say. Banner Health in Phoenix, they write, saved nearly $1.5 million in 12 months from reprocessing operating room supplies such as compression sleeves, open but unused devices, pulse oximeters and more.

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One Hospital ONE point 2 million $$$. How many Hospitals are there in operation in the US? My god people wake up.

Healthcare And Alternative Energy – If a Bank can do it why not a Hospital

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it’s jam band friday – http://www.youtube.com/watch?v=om2EQ7YXork

Way to go Farmers Bank. They put up a Wind Turbine in Mt. Pulaski. When you think about it, Hospitals manytimes have some of the tallest buildings in town and the most financial muscle around. So why don’t they all sprout wind turbines and solar panels? Please see yesterdays Post.

http://www.lincolncourier.com/homepage/x1499086608/Wind-blows-energy-to-area-bank

Wind blows energy to area bank

Mount Pulaski wind
By Justin L. Fowler/GATEHOUSE NEWS SERVICE
Crews work to install the blades on a 10,000-watt wind turbine being installed to help power the Farmers Bank of Mount Pulaski on the city square in Mount Pulask Wednesday.
By John Reynolds
GateHouse News Service
Thu Mar 25, 2010, 06:05 AM CDT

Mount Pulaski, Ill. –

A high-tech wind turbine that can generate 10,000 watts of power was installed near Logan County’s oldest bank Wednesday.

The turbine, which sits atop a 120-foot tower, will supply about half, or possibly more than half, of the electricity used by Farmers Bank of Mount Pulaski.

The apparatus cost about $65,000, some of which will be offset by tax credits, said Rick Volle, president of Farmers Bank, which was established in 1872.

“There’s a lot of these going up on a larger scale. We think it’s something worth doing,” Volle said. “…We are figuring about a 12-year payoff on it, and it has a life of about 30 years.”

Installation of the turbine on the square in Mount Pulaski drew a crowd of about two-dozen people. They watched as a crane lifted the tower into the air and workmen slowly moved the base over to a concrete pad. The turbine, complete with blades, was already installed on top.

By 12:15 p.m., the tower and turbine were in place. It now stands across the street from the historic Mount Pulaski Courthouse where Abraham Lincoln argued cases.

“I guess it’s progress for our town, and the bank in particular,” said Mike Cyrulik, who watched the work from across the street. “I think it’s going to be a great addition to town.”

Cyrulik was one of the first people to stop and watch. When the big crane took over, more people came out from downtown shops to see the tower rise into the air.

“It’s pretty interesting for a little town,” Cyrulik said.

Mount Pulaski, about 25 miles northeast of Springfield, sits on a hill that rises above the surrounding farmland.

John Wyss, owner of Central Illinois Wind and Solar, the company that installed the turbine, said downtown Mount Pulaski is a good spot for the new technology.

( http://www.youtube.com/watch?v=EVtCdZLtCj4 )

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Some progressive hospitals are catching on.

( http://www.youtube.com/watch?v=E4tFX51imvQ )

http://www.mlive.com/news/ann-arbor/index.ssf/2008/12/ann_arbor_veteran_affairs_hosp.html

Ann Arbor Veteran Affairs hospital gets wind turbine

By Steve Pepple

December 02, 2008, 7:06AM
Eliyahu Gurfinkel | The Ann Arbor NewsDarryl Snabes, left, and Jeff Means are responsible for the installation of a wind turbine on the roof of the VA Ann Arbor Healthcare System building. Snabes is the local project manager and Means the regional energy manager at the VA.

A small wind turbine now spins atop the Ann Arbor Veteran Affairs hospital, contributing to the hospital’s utility needs while satisfying a new federal requirement for renewable energy.

Hospital administrators installed the vertical turbine last month as part of an ongoing plan to generate about 7.5 percent of the hospital’s energy needs from renewable energy, including wind and solar, by 2012.

“It’s a baby step, but we’re optimistic,” said Jeff Means, energy manager for VA hospitals in Michigan and nearby states.

The turbine and its installation cost about $100,000. If it is successful in generating enough energy, the hospital could install additional turbines and solar panels to generate energy, Means said.

The turbine, which weighs about 1,000 pounds, is 16 feet tall and 3 feet wide. As the wind spins the vertical turbine, a generator in its base sends direct electrical current through several boxes to transform the power into alternating current to be used by the hospital.

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There’s a strong wind agona blow.

( http://www.youtube.com/watch?v=E4tFX51imvQ )

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Cutting Healthcare’s Enormous Energy Waste – This article is not on topic BUT

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I had originally planned on taking a look at how much an X-Ray costs in energy terms. The Healthcare industry sucks up huge amounts of energy. Another thing I planned on looking at is their huge computer usage. Like utility companies, hospitals are nothing but giant billing agencies, add to that all of the data they must store and a hospital has got to be gulping the juice. This articles points out that ALL BURNING Behavior is much like most medical behavior, just plain sloppy living.

http://www.time.com/time/nation/article/0,8599,1907514,00.html

The Key to Fixing Health Care and Energy: Use Less

Our health-care crisis and our energy crisis are complex dilemmas made of many complex problems. But our biggest problem in both health care and energy is essentially the same simple problem: we use too much. And in both cases, there’s a simple explanation for much of the problem: our providers get paid more when we use more.

Undoing these waste-promoting incentives — the “fee-for-service” payment system that awards more fees to doctors and hospitals for providing more services, and the regulated electricity rates that reward utilities for selling more power and building more plants — would not solve all our health-care and energy problems. But it would be a major step in the right direction. President Obama has pledged to pass massive overhauls of both sectors this year, but if Congress lacks the stomach for comprehensive reforms — and these days it’s looking like Kate Moss in the stomach department — a more modest effort to realign perverse incentives could take a serious bite out of both crises. (See pictures of Cleveland’s smart approach to health care.)

Everyone knows we use too much energy. Our addiction to fossil fuels is torching the planet, empowering hostile petro-states and straining our wallets. Meanwhile, studies by scientists at the Lawrence Livermore National Laboratory and elsewhere suggest that more than half of our energy is lost through inefficiencies, calculations that don’t even include the energy we fritter away through wasteful behavior like leaving lights on or idling cars. We’re on course to increase electricity usage an extra 30% by 2030, which could require trillions of dollars’ worth of new emissions-belching power plants, so it would be much better to eliminate the usage that doesn’t add to our quality of life.

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Please read the rest of the brief article. It is thought provoking.

More on Green Medical Technology tomorrow.

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