Archive for September, 2009
Recycle, Reuse and Reduce
September 26th, 2009 | 
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Recycle, Reuse and Reduce
Does you family recycle aluminum cans? Do they do it to get a little extra cash or because it is the responsible thing to do? How much do they, and you, know about what happens to the can after the soda is gone? Here is a quick true and false quiz on recycling. It will only take 2 or 3 minutes to find out what you know and what you need to know about the importance of families recycling.
Circle the answer for each of the 6 questions. Now test the other members of the family.
1. In the time it takes you to read this question, 50,000 12-ounce aluminum cans are made.
True or False
2. When you recycle one aluminum can you save enough energy to equal a half gallon of gasoline?
True or False
3. There is no limit to the amount of times aluminum can be recycled.
True or False
4. We use over 80,000,000,000 (billion!) cans a year.
True or False
5. At one time, aluminum was more valuable than gold.
True or False
6. More aluminum goes into beverage cans than any other product.
True or False
Surprise! All of the answers are true.
Did you know that for every $10 spent buying things $1 or 10% goes for packaging that is thrown away. Packaging, and that includes aluminum cans, represents 65% of household trash. Wow. What a waste of money and resources. We can do better than that.
Our family is making a special effort to Recycle, Reuse and Reduce. Will you join us in helping to protecting our earth and natural resources? Maybe your family could put up a special box to save aluminum cans for the recycling center.
(c) Judy H. Wright http://www.ArtichokePress.com You have permission to reprint this article in your blog, ezine or offline magazine as long as you keep the content and contact information intact. Thank You.
Artichoke Press is the home site of Judy H. Wright, family relationship coach and author. If your organization would like to schedule Auntie Artichoke, the storytelling trainer, for a workshop please call 406.549.9813.
You are also invited to visit our blog at http://www.AskAuntieArtichoke.com for answers and suggestions which will enhance your relationships. You will also find a full listing of free tele-classes and radio shows held each Thursday just for you.
Thanks for joining our community of caring parents, family members,coaches, teachers and mentors who want to help raise a generation of responsible adults.
World's Largest Solar Power Project Planned | Eco Friendly Mag World’s Largest Solar Power Project Planned Gujarat, a state of India, is quite eager to opt for alternative sources of energy. It started out as a small. C-Questor Carbon Markets and Climate Change News Letter: Solar … But Mr. Asbeck suggests cutting them slightly more to show the German industry is serious about lowering the cost of solar power, and in exchange for implementing new quality and environmental standards that apply to both domestic and … Solar Power: Finally, A Reason to Invest Says HSBC – Environmental … The solar sector has been battered, but can finally see the light at the end of the tunnel, says HSBC in a big new report. That doesn’t mean solar power’s cost-competitive by any means, however. Solar power plant coming to Brush (KJCT 8 Grand Junction) BRUSH, Colo. (AP) – A solar power equipment maker is building a new plant in Morgan County that it says will employ 130 within five years. E2Logicx Solar is building a. World's largest solar power project planned for India | Gujarat, a state in India, is planning to build a 3GW solar power facility. It will produce more power than any existing nuke or coal facility.Green Technology
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Green Tip – Moms Use Clothe Diapers
Green Tip – Moms Use Clothe Diapers
Sure, this is a little messier than the easier, disposable version. However, do you even realize the amount of disposable diapers that are filling landfills?? Cloth diapers are a choice that every mother should seriously consider. Let’s look at some facts that are quite alarming…
Disposable Diapers Sobering Facts:
* from birth to about 2-1/2 the average child will go through about 7,300 diapers
* the cost for that is about $2600
* 18 billion diapers enter landfills each year
* disposable diapers make up about 3.4 million tons of trash
* health risks such as fertility issues in males, eyes, nose and throat issues and even asthma-like symptoms have been connected to disposable diapers!
* long term negative affects on animal and water life.
* the chemicals that make disposable diapers white increase the risk of cancer
* affect development
* they use more water. yep. you may need to wash cloth diapers, however, way more water is used making disposable diapers!
* a study, conducted by Anderson Laboratories in 1999 and published in the Archives of Environmental Health, found that disposable diapers release chemicals called volatile organic compounds (VOCs), including toluene, ethylbenzene, xylene and dipentene. They have been shown to have toxic health effects, such as cancer and brain damage, when used over time or high exposure.
* they use 1.3 million tons of wood pulp. that’s about 1/4 million trees every year.
* they take up to 500 years to break down.
* more viruses than you want to know about…including polio, survive for two weeks or more after disposed of.
There are many many many more reasons to avoid disposable diapers. However, I think our readers are intelligent and the above information is enough to get you thinking! Research for yourself. You will be shocked!
Go for organic natural reusable cloth diapers. You will not only be helping the environment and saving money, you will also protect your sweet precious love bugs from harm!
Copyright © Green Christian Network, All Rights Reserved
About the Author: Cindy Taylor is a Christian stay at home Mom who love the Lord and cares about God’s planet. You can see her passion and writing at her website, Green Christian Network (http://greenchristiannetwork.com).
NewNet News – Solar Power supplies Solarmarkt Sued Park with solar … Solar Power supplies Solarmarkt Sued Park with solar modules for German project. Heliogenic Climate Change: I thought they wanted solar power “Solar thermal company BrightSource Inc has dropped plans to build a solar power plant in the Mojave Desert, losing a battle with environmentalists and a U.S. senator who want to preserve the surrounding area. … Carbon credit benefit for solar power consumers | Carbon Offsets Daily Sourced From Istockanalyst.com | According to the FKCCI, there is a disparity between the actual amount of monthly solar rebate being given by the Escoms. Suzy Solar – Solar Power Sessions on 1Mix Radio – TranceSound.net … Solar Power Sessions No.415 â?? Suzy Solar & Lil B Hour 1: Suzy Solar 1.[00:00] George Hales â?? Glacia (Original Mix) [Proxoz] 2.[07:24] Martin. Developments in Solar Power Towers « Solar Energy On August 5th, the company eSolar opened the Sierra Sun Tower, the newest example solar power towers. According to the website of esolar, the Sierra facility supplies 5 MW of clean, renewable energy to the grid. …Green Roof
Scientists Ask For Higher CO2 Cuts at Copenhagen’s Spring
Scientists Ask For Higher CO2 Cuts at Copenhagen’s Spring
The International Scientific Congress on Climate Change was held in Copenhagen between 10th to 12th March and organised by the International Alliance of Research Universities (IARU): the conclusions will be published into a full synthesis report next June. Almost 1,600 scientific contributions of researchers from over 70 countries have been received, and more than 2,500 delegates attended the event.
Connie Hedegaard, Minister of Climate & Energy of Denmark said that we have “to avoid the unmanageable and manage the unavoidable” and she pointed to their example: this European country has become a net energy exporter in 30 years, creating a green growth as a stable solution of the 70s oil crisis. The messages of the congress are various. The risk that current trends of the climatic system will accelerate has a more defined and significant meaning: more probable abrupt and irreversible shifts, and we are already above the worst scenarios published by the Intergovernmental Panel on Climate Change (IPCC) in 2001. Thus the big problem is trying to at least slow down these trends if not reverse them. The experts tell us that fast regional and global mitigation strategies are needed and that the more we wait the more expensive and ambitious actions will have to be taken in the future. The fact that scientists have come to the point of saying that “Inaction is Inexcusable” means also that people who studied relentlessly for decades are frustrated by the inaction of governments, businesses and people: it is understandable given that their work has not been considered and used enough, if not at all, up to now. They are speaking louder and clearer now. The different roles of politicians and scientists have to be combined. It is time for leaders to rely firmly on science as a basis for tough and unavoidable decisions. A “societal transformation” is being asked for by a wide group of the most intelligent people on the planet including diffusion of sustainable behaviours, innovative leadership, removal of subsidies and reduction of “vested interests”. These are all very explicit messages to politicians and public alike: there is a lot of work to do between now and next December’s COP15.
In the final debate the Danish Prime Minister, Anders Fogh Rasmussen, summarised the six messages given by scientists as 6 keywords: Urgency (of the climate change challenge), Direction (long term target to be defined), Action (short term targets to be set), Fairness (to the poorest and most vulnerable), Opportunity (to originate large benefits), Governance (creation of a new global multilateral era). He stated firmly that “Business As Usual is dead” and asked his colleagues to follow Obama’s call for a Green New Deal, already asked for by public opinion and by many political parties in the world.
After the final debate with the panel of scientists an impatient Rasmussen asked for clear words on the CO2 emission target to be set in the new treaty. Prof. Daniel Kammen, Obama’s Senior Policy Advisor, stated that an entire new industrial revolution is needed to cut 1990’s CO2 emissions by 80% in 2050 and Prof. Stefan Rahmstorf agreed on this point. The feeling was that the other panelists didn’t mind… At this point the Prime Minister concluded that the ambition for COP15 can be this -80% long-term objective following the precautionary principle to avoid worse impacts (than the ones presented in 2007 IPCC report) already hypothesized by new works. Overall a more direct communication between scientists and policy makers took place in this huge meeting: now it’s time for delegations to study and prepare the ground for brave steps forward to be made by the international community in Copenhagen’s crucial Conference of the Parties #15. Will we be able to navigate better our “ship” in the solar system during the over 200 rotations it will make before then?
Written by Luca Marazzi on behalf of Responding to Climate Change.
For further information on Climate Change please visit the Responding to Climate Change website –
http://www.rtcc.org
*Next event: Copenhagen, 24-26 May 2009. World Business Summit on Climate Change
LAUGH OR CRY TV
Bucks USA economic trends – Green technology
You cannot control that which you do not measure. In more and more industries, the exact knowledge of particle contamination is gaining in importance. Contamination of materials in dimensions of a few micrometers was mainly of concern for the pharmaceutical and semiconductor industries. However, not only manufacturers of circuit board components, but also traditional car parts suppliers face new demands on particle recognition and contamination source identification. Cleanliness for the automotive parts manufacturers has become a huge topic in today’s ever challenging continuous improvement world. The need to define, measure and control the levels of particulate contamination on product is the new norm for suppliers and automotive OEM’s. Cleanliness directly relates to product warranties, reliability, performance and safety issues. It has long been known that a dirty product gives us poor quality and low life expectancy. The dirtier the transmission from new, the less time it will last. It is crucial now to identify particles and their source so that effective elimination can be achieved. Residual contamination consists of particles that persist on the component’s surface after the final step in manufacturing. Such contaminants are introduced via parts from suppliers or arise during processing. After vehicle assembly, the contaminant particles can cause severe damage, loss of function or reduce the lifetime of the product. Cleanliness is defined as the contamination level of a component surface. Common measures to quantify the cleanliness are mass of the contaminants as well as number, size of the dirt particles. In general, the customer will specify contamination limits. The supplier then has to maintain these levels and document them regularly by means of contamination analysis. The analysis of the contamination has to be proven to not affect the result and to be effective in evaluating all the contamination present. Methods of extraction and evaluation are specified in the international standard ISO 16232. Particular attention must be paid to the extraction method to ensure no contributing factors are introduced to the evaluation. There are different methods of counting the resulting extracted particles but by far the most accurate, repeatable and cost effective is automated microscope analysis. The microscope with software can scan the filter membrane; sort the particles by size class and even determine basic material composition (metal, non-metal, fiber). Once the data is gathered a custom report can be generated based on the customer requirements. For more information on cleanliness analysis, visit http://www.onclean.com Chris Trower is the President of Onclean Labs Inc, an Ontario based lab specializing in third party cleanliness analysis testing.
Bucks USA economic trends - Green technology
Analysis of Cleanliness
Noise and Vibration Control Goes to the Animals
Noise and Vibration Control Goes to the Animals
Noise and vibration control is an issue that is much more common than one might originally think. In fact, it can creep up in the most unlikely of places. A good case in point is animal lab environments. Indeed, ALN Magazine recently ran an article titled “Noise & Vibration Considerations for the Animal Lab Environment.” Therein, the publication pointed out, “In the lab animal facility setting, noise, sound, and vibration affect the life cycle, interaction, and behavior of animals.” However, because “the impact of noise, sound, and vibration is a largely undocumented factor in the research,” it’s an often overlooked issue.
“If the sound pressure levels get too high,” the article continues, “there is a negative impact on animals and structures.” Vibration control, however, is just as important to these animals as noise control in that it “is a driving force behind radiated sound.”
Obviously, exposure to noise and vibration can be detrimental to an animal’s hearing, but the risks don’t stop there. “Sound and vibration can [also] have a physical impact on animals.” Even more startling, “Smaller animals are more susceptible to the affects of sound and vibration over time and will adapt or adjust accordingly. In some cases, mutations may result from exposure to undesirable conditions.”
How can animal laboratories mitigate these problems? The magazine notes, “The designers can control items that are constant disturbances that may greatly impact the animal community. Items within the designer’s control include ventilation system design, machinery vibration isolation, wall construction, lighting selection, and computer terminal placement.”
During the design process, animal labs may want to consult with a producer of custom-molded rubber and rubber-to-metal bonded parts for noise and vibration control. A world leader in the creation of rubber molding and rubber-to-metal bonded parts can help to create an environment that is not only safe for the animals being kept there but is also conducive to a healthy work environment for the people who are employed there.
The Vibro-Insulator line of isolators and mounts, in particular, aid in the control of noise, vibration, and shock. Selecting the right type of mount for an individual animal lab’s specific applications can prove tricky, however. That’s why consultation with an expert with reputable qualifications in rubber molding and rubber-to-metal bonding can be very beneficial.
Of course, once professional advice has been obtained, browsing the Vibro-Insulator catalog allows animal labs easy navigation so they can select the correct mount for their application. Rubber Vibro-Insulators come in a variety of styles and sizes to handle most vibration isolation problems. Most of the mount styles are designed to be used in either the compression or shear direction.
Selection of the proper Vibro-Insulator for a specific application boils down to a multi-step mathematical function that an expert can calculate for the lab or into which the lab’s design team can plug the following information:
1. The maximum load that must be supported.
2. The number of mounts supporting the load.
3. The frequency of the disturbing vibration.
4. Any restrictions on the size or style of the mount based on space limitations or assembly considerations.
Carmen Fontana is a Web Services Manager for Western Reserve Internet Services. Karman Rubber is a world leader in vibration control.
News for Green Tech Stock
Antarctic Peninsula Climate – A Change in Krill Ecosystem
Antarctic Peninsula Climate – A Change in Krill Ecosystem
Antarctic Peninsula has been experiencing warming trends for over 40 years with an increase of 2-3 C, thus correlating with lower sea ice conditions in the Amundsen Sea and Bellinghausen Sea. Warming temperatures around the Antarctic Peninsula is changing the dynamics of the ecosystem. The rise in atmospheric temperature is causing increasing in melting of freshwater glaciers and ice shelves. Fresh water emerging into the sea counteracts the salinity within a regional area. Changes identified are;
• Decrease in sea water salinity up to 60 miles offshore
• Lower sea ice
• Decreased krill population
• Increased salp (open ocean tunicate that is reminiscent of a jelly-fish) population
• Increase in cryptophytes (single cell phytoplankton algae)
• Decrease in diatom phytoplankton
• Increase in carbon sequestering in deep ocean sinks
• Decrease in carbon availability in the food chain
The Antarctic Krill (Euphausia superba), a small shrimp like crustacean is the most important zooplankton species associated with the sea ice and plays a crucial role in the Antarctic food web. On a regional basis the amount of krill appear to be declining in the southern ocean. There are definitely lower trends in krill population during lower sea ice years around Antarctica. Part of the rational for the population decline is that ice algae rely on the sea ice for protection and growth. The krill need the sea ice in order to feed on the algae and phytoplankton.
Krill occur in groups or large swarms. They are less than 3 inches in size and feed primarily on phytoplankton and sea ice algae. Krill filter diatom phytoplankton out of the water column and scrape algae from the sea ice. Apart from frequenting the sea ice to feed, krill in particular juveniles, seek protection from predators in the many nooks and crannies formed by the deformed sea ice floes. Krill is the staple food of many fish, birds and mammals in the Southern Ocean. The biomass of Antarctic krill is considered to be larger than that of the earth’s human population.
Sea- ice algae utilizes atmospheric carbon dioxide for its energy source, the same as plants do on land. Krill diet of the sea-ice algae and phytoplankton is essential for converting the carbon for use in higher animals such as fish, birds, and whales. This carbon conversion is a very critical role in predatory nutrition. Additionally krill do eliminate some of the silica from the diatom shells and carbon in sticky balls that sinks nearly two miles into the deep ocean. These cold, deep waters are able to contain carbon dioxide and prevent the gas from rising to the surface, thus immobilizing carbon that is not passed into the food chain.
In recent years there have been increases in algae phytoplankton called cryptophytes. Mark Moline, California Polytechnic State University, states that the cryptophyte population correlates with warmer temperatures and lower salinity waters that are produced by the melting of the freshwater glacier. Cryptophytes measure around 2 mm, while other plankton in the Antarctic waters are much larger and measure 15 to 270 mm. Along with the increase in cryptophyte population an increase in salp, a pelagic tunicate, population has also occurred. There are differences between salps and krill. Salps feeding efficiency is capable of grazing on smaller food sources less than 4mm, whereas, the Antarctic Krill efficiency declines on any food less than 20 mm. The salps compete with krill for the phytoplankton and thus decrease the krill population. Additionally the salps feed on krill larvae, which also cause a decline in krill numbers.
The warming trend in the Antarctic Peninsula is showing a pattern of increasing cryptophytes over other phytoplankton and the increase in the salp. This influence is due to the low sea ice and the lowering of the salinity in the seawater. Salps and cryptophytes do better in the lower salinity, while the krill and other plankton are unable to tolerate the increased freshwater regime from the glacier ice melts. This selectivity gives preference to the salps as the dominant species while decreasing krill abundance. During lower sea ice seasons the density of krill declines while the salp population increases.
Carbon sequestering into the deep ocean from the algae and phytoplankton occur by both the salp and krill. Both species eliminate the atmospheric carbon received from the primary producing algae by producing fecal pellets by the salps and sticky balls by the krill, thereby, reducing the amount of carbon dioxide in the atmosphere. The salps though sequester more carbon into the cold deep ocean than the krill. However, the krill provides the most efficient pathway for carbon transfer up into the food chain. The cryptophyte dominated waters are less efficient in the food chain due to increased feeding by salps and the difficulty of the krill to utilize the cryptophytes as a food source. Migration patterns by penguins are changing, in part due to the changing krill population. Krill is a mainstay diet for penguins, and if the krill population changes, many other ecological changes occur with it.
Steve Bynum has worked at Palmer Station along the Antarctic Peninsula. He not only enjoyed the ecosystem along the Bellinghausen Sea but he has also witnessed the changing climate conditions.
Join Steve at http://www.climatechangenewsletters.com as we take a journey to discover the warming and cooling effects of our planet.
AT&T Tech ChannelFor Green Computing
To Reveal a Product’s True Cost An Environmental Tax?
To Reveal a Product’s True Cost An Environmental Tax?
Sometimes, simple acts such as going to the grocery store can turn into a moral dilemma. Is it better to choose the piece of organic fruit produced on the other side of the country or the non-organic version grown locally, 50 miles away? Are the benefits of chemical-free shampoo worth an extra 5 bucks a bottle? Will I really be able to enjoy a cheap chocolate bar knowing that the growers of the cocoa beans were likely not fairly compensated?
As much as I’d like to say that I always buy the product that is environmentally safe and sustainably produced, in reality, that’s not always the case. First, the sheer amount of information required to be able to distinguish between products is staggering. You need facts regarding environmental impact, transportation costs, and fair trade practices, to name just a few. And there are plenty of misinformation and greenwashing campaigns out there to steer you in the wrong direction.
Second, of course, there are times when the high cost of an ethically made product turns me off from buying it. Even consumers with the best of intentions have their breaking points.
The thing is, companies who go out of their way to implement sustainable practices endure a greater cost of production. Sure, they can sometimes capitalize on this by marketing to conscientious consumers who are willing to pay a bit more, but the fact remains that in today’s system, environmentally minded production is punished.
On the other hand, companies who move their factories (and jobs) to developing countries with lax environmental standards and cheap labor are able to make products at a fraction of the cost and undercut their competitors (while shipping materials and finished goods all around the world and adding to our greenhouse gas problems).
The way it’s set up, high environmental standards in one country drive companies to relocate in places where it’s permissible to pollute in order to compete in the marketplace. Chaco, the Colorado-based athletic sandal company, is a prime example of even a well-intentioned company being forced to follow suit to maintain competitive pricing on their products. In fact, 95% of all footwear in the world is produced in China, whose poor environmental regulation and sometimes dangerous environmental problems are well known.
With current talk about cap and trade emissions programs, this phenomenon may only get worse.
So how do we even the playing field and reward companies for good business practices?
When I think about this problem, I keep coming back to an idea I encountered in a casual conversation with a stranger while traveling. I can’t remember his face or his name, but his idea has stuck with me and festered in my mind for the better part of a year. His take was that putting the financial burden of environmental responsibility on the companies just doesn’t make sense for the reasons I’ve given above. In a global marketplace, it renders companies less competitive than those that operate free of environmental and labor regulations.
Wouldn’t it make more sense to put an “environmental impact” or “ecological footprint” tax on the product itself?
Ugh, a tax?
Initially, I didn’t warm to the idea either. But think about it: adding a tax proportionate to a product’s ecological and social footprint eliminates the cost advantage of irresponsible production. All those environmental costs that are currently not included in our economic system would be factored in and would increase the price of unsustainably made products.
This, in turn, would make moral dilemmas at the grocery store much easier. Is it more sustainable to buy distant, organic produce or local, non-organic produce? The tax-adjusted pricing should inform my decision. Can I afford the chemical-free shampoo? Yes, because the price of its chemical-laden competitors would be raised through the environmental impact tax and eliminate the cost advantage of choosing that product.
The money raised from the tax could fund its implementation and other sustainable programs such as public transportation (high speed rail, anyone?) and alternative energy. Perhaps it could even make a dent in our gaping budget deficit.
Won’t this cost me money?
You may be thinking, “Sure, that’s a good idea in concept, but that will raise my bills – grocery, clothes, everything.” Well, yes, that’s true. But maybe if we see the true cost of the products we casually consume, we can make a more informed decision about what is really necessary to our lives.
Additionally, programs such as this often have the greatest impact on the poor. But this could be compensated for by using some of the tax revenue for need-based assistance programs.
Regardless, running an economic system on the assumption of infinite resources is fundamentally flawed. Currently, environmental impacts such as air pollution, water pollution, and deforestation are not factored into the cost of a product: they are considered “externalities.”
These costs need to be included in the system in a way that does not punish those who engage in sustainable business practices. By taxing a product’s environmental impact, it levels the playing field for the consumer.
Disclaimer
Of course, I am not an economist or policy guru. I don’t know how to implement such a tax or if it would even be possible (though compared to creating a carbon trading market, perhaps it’s not that difficult). This is only the musing of a concerned, intelligent citizen trying to brainstorm ways to make our economic system fit within the bounds of our ecological constraints.
What do you think? Would such a tax have a beneficial effect on our production system? Join the conversation over at our website!
Jill Mueller is a conservation biologist, avid cyclist, and freelance writer. She has combined forces with a good friend and dietitian to start The Barefoot Badger, a blog promoting healthy, sustainable living. Check us out!
Environmentally Friendly Technology
A Carbon Footprint is Impacted by Fugitive Refrigerant Gas Emissions
A Carbon Footprint is Impacted by Fugitive Refrigerant Gas Emissions
The United States and a host of other foreign countries are focusing on fugitive emission tracking for certain industries. The goal is to identify the amount of substances that are emitted into the atmosphere when a refrigerant gas leak occurs. This will give government officials at the EPA a better understanding of the amount of greenhouse gases harming the environment each year and contributing to global warming due to the ineffective management of refrigerant gases.
Fugitive emission takes place when an unexpected leak of a hazardous substance occurs in a system and the discharge is not contained in a vent, stack, or duct. This may be caused by a component failure, poor servicing, or a breakdown in some industrial process. When a system containing refrigerant leaks, these high global warming potential substances cause damage to the atmosphere. Certain refrigerant gases are not broken down in the atmosphere and end up entering the stratosphere and destroying the protective ozone layer over time.
Across the U.S. economy, refrigerant gases or fugitive emissions equal over 300K tons of carbon dioxide each year. Other countries have similar or worse outputs. Many environmental regulations, such as The Montreal and Kyoto Protocols, exist to reduce the escape of harmful substances, like refrigerants, into the atmosphere over time. There are additional goals to reduce the potential for global warming in the near future and to improve air quality in the long term by reducing the emissions refrigerant gases.
A select few refrigerant gases have multiple detrimental effects on the environment. Not only are they ozone depleting substances but they are also chemicals with a high global warming potential (GWP) which places them into the category of greenhouse gases which lead to global climate change. For many reasons, it is important to effectively monitor, track, and report refrigerant gas usage.
The EPA has finalized its rules pertaining to any fugitive emission occurrence, whether through evaporation or a leak. The regulations apply to several industries, including existing and newly constructed facilities with systems using refrigerant gas in their workplace heating and cooling systems. Other industries are industrial chemical manufacturing, electric services, pulp and paper mills, and petroleum refinancing.
Tracking fugitive refrigerant gases is required by facilities owning or operating HVAC-R systems or by manufacturers who produce them. The EPA has identified a number of dangerous compounds, among them chloroflurocarbons, hydrofluorocarbons, methyl bromide, halons, methyl chloroform, and carbon tetrachloride.
A particular concern for fugitive emission problems is with refrigerant gas, because it contains chloroflurocarbons and hydrofluorocarbons, two primary contributors to the weakening of the ozone layer and the increase in greenhouse gas volumes. Furthermore, refrigerant gas is used across many industries in refrigeration and cooling units, ventilation and air conditioning systems, and fire protection systems.
When a fugitive emission occurs, businesses are required to track the refrigerant leak rates and report annul refrigerant usage it to the EPA. One of the primary emissions scopes, fugitive refrigerant gas emissions are an integral part of an organizations carbon management requirements. Of the utmost importance is the determination of the HVAC-R system that is leaking and the capturing of the service event detail related to fixing the leak. Systems containing refrigerant gases must be inspected by EPA certified technicians and all service events must be logged when refrigerants are handled.
The new fugitive emission regulations provide a more standardized approach to thresholds identified by the U.S. Clean Air Act at the direction of the EPA. These include continuous monitoring, tracking of leaks, and reporting of leak repair, and containment.
Web applications and specialized tools can increase an organization’s efficiencies related to HVAC-R system maintenance, improve accuracy of refrigerant inventories thus saving money, and turn manual processes into a centralized, automated work flow. Development firms who specialize in the area. They ensure compliance and reduce the likelihood of substantial fines.
Daniel Stouffer, Product Manager at Verisae, has more information about fugitive emissions management. Refrigerant Tracker makes it easy to monitor, manage, and report refrigerant gas usage across multiple locations. Learn more at: http://www.Refrigerant-Tracker.com
GIGA Green tech visite of Kevin Koerber