Posts Tagged ‘climate change’

EPA proposes oil and gas to report emissions

Sunday, March 28th, 2010

Late last year at the Global Refining Strategies Summit in Houston,  major industry executives talked about new Washington rules on CO2 emissions not in terms of “if,” but “when.”  If you aren’t in the oil and gas business and blinked during the last three weeks during the healthcare battle on Capitol Hill, you might have missed the news:

March 4, 2010 WASHINGTON – The Environmental Protection Agency intends to require that power plants, refineries and other major sources of global-warming pollution get permits beginning in 2011 that would require them to cut emissions, the agency’s leader said Wednesday.

EPA Administrator Lisa Jackson said the EPA wants to regulate sources emitting more than 75,000 tons a year of polluting gaseous oxides (CO2, etc.) over the next three years.  Exactly how the EPA intends to monitor and regulate these emissions is the singular issue not lost on the environmental and industry lobbies in D.C.  Get ready for a knock-down drag out over what the country’s enviro-political landscape will or should look like for years to come.

EPA Administrator Lisa Jackson

EPA Administrator Lisa Jackson

But stepping back, here’s what the EPA has done: it has proposed that oil, gas and other entities that emit CO2 and related pollutants be added to an existing list of companies that report their emissions levels yearly.  One pollutant cited by the EPA is methane, a gas generated by the petroleum industry that traps 20 percent more heat than carbon and is considered a major factor in climate change.  Another area the EPA is interested in is CO2 injection or “flooding” – a method used by producers to push oil out of the ground.

“Gathering this information is the first step toward reducing greenhouse emissions and fostering innovative technologies for the clean energy future,” said Jackson.

The industries cited will be asked to begin recording their emissions for a report submitted in 2012.

Research & Development

SWAPSOL Sulfur Cycle

SWAPSOL Sulfur Cycle

Swapsol Corp. may have a potential solution that may make the worry over CO2 emissions a thing of the past.

SWAPSOL is developing commercial processes around a newly discovered chemical reaction verified to reduce hydrogen sulfide (H2S) below detectable levels while reacting with carbon dioxide (CO2) to form water, sulfur and carsuls, a carbon-sulfur polymer.

The Stenger-Wasas Process (SWAP) stands to fundamentally simplify sulfur removal technology as it consumes carbon dioxide in an exothermic reaction under relatively mild process conditions.

SWAPSOL will again present its science to the international oil and gas industry at the Global Refining Summit May 17-19  in Rotterdam.  It returns to Houston October 26-27 to meet with industry at the Global Refining Strategies Summit.

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SWAP to clean flue gas, Claus tail gas, destroy CO2

Wednesday, March 17th, 2010

“Clean coal technology” describes a new generation of energy processes that sharply reduce air emissions and other pollutants from coal-burning power plants.” – from the U.S. Dept. of Energy’s “Clean Coal Technology & Clean Power Initiative” web page.

Coal-fired power plant

Coal-fired power plant

What happens to gas generated by coal-fired power plants?  It exits the plant up the smokestack and is called “flue gas.”  What if there were a way to clean flue gas and lessen the need to capture and bury CO2?

There is a dearth of news on efforts to make coal “clean,” by capturing the gas and storing it underground.  Swapsol is in the late stages of laboratory development and is seeking industrial partners to commercialize a technology that alters preconceived notions about chemistry and energy.

The Stenger-Wasas Process (SWAP) is capable of reducing all existing gaseous oxides and other reactive components in gases including NOx, SOx, O3, COS, CS2, CO, H2S, CO2 and mercaptans.  The elimination of refinery flue gas may have the single biggest impact on industry savings and climate change. Refining operations already have sulfur plants and gas streams containing H2S, thereby increasing the feasibility of integrating the SWAP technology.

The SWAP also has important applications for Claus tail gas cleanup.  Refineries requiring additional H2S may generate requisite amounts on-site using the SWAP Sulfur Cycle which reacts any waste hydrocarbon with sulfur to form H2S and carsuls, a carbon-sulfur polymer.

For more information on the SWAP, please visit http://www.swapsol.com . The next presentation will be held May 19 at the Global Refining Summit/Rotterdam http://www.refiningsummit.com

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Beyond Copenhagen: Cap & Trade or Carbon Tax? Or what?

Thursday, December 31st, 2009
French President Nicolas Sarkozy

French President Nicolas Sarkozy

The French version of the Supreme Court this week shot down a carbon tax proposal that the Nicolas Sarkozy administration hailed as a fundamental weapon against climate change. The court cited too many loopholes. Today, France’s economic minister is offering a new proposal he says will close many of those loopholes and says the new proposal is a necessary tool to fight CO2 emissions.

As a follow-up to our earlier post looking at the Carbon Offset, we wanted to take a summary look at two other CO2 mitigation plans. Unlike the Carbon Offset, which typically is an industry-driven solution, two others are the so-called “cap & trade” system and the straight carbon tax.   Both require direct involvement from government.

Cap & Trade

What is the so-called “cap & trade” system?  Long in place as a method for managing pollution in Europe, cap & trade is a two-part system where a government sets a cap on the volume of particular greenhouse gases (GHG) (carbon dioxide, mercury, nitrous oxide and sulfur)  can be emitted.  The government then sets up a system where companies can earn “credits” when they emit fewer emissions. Companies can sell these credits to other organizations unable to currently meet their caps.  Proponents of cap & trade contend a government can reach their overall emissions caps at the lowest possible cost.  Critics of cap & trade say the system is flawed, arguing it is cheaper for many companies to purchase the credits rather than invest in technology to reduce their emissions.  Thus, they say, it does nothing to impact CO2 emissions in the long-term and merely serves as an arbitrary tax in the short-term.

Carbon Tax

The other CO2 mitigation proposal is the carbon tax.  Relatively self-explanatory, the carbon tax is an excise tax on the carbon content of fossil fuels (oil, gas, coal).  Those in favor of the carbon tax say it is the simplest and most efficient way of pricing emissions and will quickly spur investment in carbon reduction.  Those against say it is a regressive tax that punishes those smaller companies unable to withstand the penalties and will hurt small business and put people out of work.  Many economists and experts believe the carbon tax should be phased in over time so as to allow companies and organizations adapt.

At the end of the day there are arguments from every angle.  In whatever way CO2 mitigation is achieved, we can rest assured it will take not only determined investment in technology, but also a sustained belief that it is our obligation as people to do what we can to save the environment, and ultimately, ourselves.

www.swapsol.com

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Beyond Copenhagen: What is a Carbon Offset?

Thursday, December 17th, 2009

Copenhagen is coming to a close with reports that a deal may not be reached.  Aside from geopolitical arguments on who should shoulder more burden, there is the added confusion of what’s being done thus far.  Carbon offsets is one method, though not widely understood.  If you want to understand carbon offsets, talk to someone who’s used up their cell phone minutes and is now paying overage charges.

Copenhagen Dec. 2009

Copenhagen Dec. 2009

In response to growing governmental calls to reduce carbon emissions or face penalties, industry has had to come up with a variety of strategies to comply.  In Europe, they use “cap & trade.”  In the U.S. there is similar legislation being proposed on top of new calls for a carbon tax.  Similar to a cap & trade, the carbon offset has become a way to get credit for the job, but give breathing room to improve compliance with new CO2 emission regulations.

What is a carbon offset?  To quote Carbonfund.org, “a carbon offset represents a reduction in carbon dioxide (CO2) somewhere else…. to balance out the emissions you cannot reduce”.

A carbon offset is a financial tool a company or organization uses to comply with greenhouse gas reduction rules.   For example, a governmental body decides that a Company should annually emit less than X-tons of CO2 into the air yearly. But that company produces greater than that amount.  By itself, that company would have a very difficult time meeting that requirement.

So in order to meet these new regulations, industry has developed the carbon offset.  The carbon offset allows CO2 emitters (companies, governments, citizens, organizations) to invest directly into projects which either are carbon-negative or create carbon-neutral or renewable energy, e.g. carbon reforestation, wind farms and Carbon Capture and Storage (CCS) projects.

By purchasing credits and giving money to organizations like the Carbon Fund and Terrapass, you can, in essence, reduce or eliminate your own carbon footprint.

The growing green shift has been a boon for carbon offset providers. According to the UN, 147m tons of the credits have been sold worldwide under the Kyoto Protocol. But this market could become very big business following the passage of any US climate bill. Climate legislation is currently stalled in the Senate, with Democratic leaders not expecting a vote on the bill until early spring

Given the multitude of CO2 mitigation proposals being debated, Swapsol looks forward to playing a fundamental role in helping companies benefit by converting CO2 and earning valuable carbon credits. Every possible action must be taken to reduce anthropogenic CO2 and avoid climate disaster.

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Swapsol supports Worldwatch natural gas play at Copenhagen

Wednesday, December 2nd, 2009

Could natural gas be a player in the new world climate order?  It looks like three organizations will be pushing for just that in Copenhagen next week.   The American Clean Skies Foundation (ACSF), the UN Foundation and the Worldwatch Institute say they will jointly “explore the potential for natural gas to accelerate the world’s transition to a low-carbon economy,” according to Worldwatch.

Sour gas pipeline, courtesy CBC.CA

Sour gas pipeline, courtesy CBC.CA

They will announce that new sources of unconventional gas could (and would) more quickly help the world turn away from oil and coal as a primary source of energy and spur new energy policy.  That’s correct if certain truths are taken into account.  There are considerable reserves of natural gas that remain capped due to high concentrations of hydrogen sulfide (H2S) that make them “sour.”  Many of these reserves are in remote areas where the cost of production makes it economically unattractive.  In fact, nearly 40 percent of the world’s natural gas reserves is sour, according to French oil and gas giant Total, s.a.

Many experts say more attention needs to be paid to renewable sources like wind and solar.  That’s true, but where are we now?  Wind and solar are growing sources of energy, but they currently aren’t developed enough to make an overnight change.  Will natural gas be the answer?

H2S, sometimes known as “sewer gas,” is the oil and gas industry’s enemy No. 1.  A chief part of the refining process is removing sulfur and H2S from raw streams to be able to bring refined natural gas to market. So yes, natural gas should play a fundamental role in any low-carbon policy proposed.  But this is possible only if more attention is paid to technological advances in refining it.

As we look toward Copenhagen, SWAPSOL agrees with the Worldwatch Institute that greater investment is needed in natural gas to play a pivotal role in a low-carbon environment.  Wind and solar technologies are exciting and are quickly gaining ground in the fight against climate change, but today we have an opportunity to both lower carbon emissions using natural gas, as well. Incorporating natural gas into the mix of solutions will also create needed jobs through additional investment in refining technologies. These technologies hold the key to preventing H2S from holding a tremendous volume of natural gas hostage.

With the SWAP, we can eliminate two “bad actors” in a single chemical process, protect the environment and improve bottom lines by reducing costs and creating jobs simultaneously.  We can look at CO2 not as an enemy, but as a friend and use it to profit in a new energy economy.

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How to reduce global warming and improve the bottom line

Tuesday, November 10th, 2009

What does that mean?  That means Ray Stenger and Jim Wasas turned heads recently by announcing they have discovered how to convert CO2 and H2S, two “bad actors,” into harmless compounds in a self-sustaining process.

“The SWAP is a process that can eliminate CO2 by recycling waste, produce a negative carbon footprint and improve the bottom line…” was the message executives at the Houston Global Refining Strategies Summit (www.refiningna.com) heard for three days.

“SWAPSOL earned the biggest buzz I’ve ever seen at one of our shows,” said John Mackenzie, business development manager for World Trade Group, a leader in event production for the energy sector. “From Big Blue on down, it appeared company executives had to get in line to speak with these gentlemen about the science.”

The Stenger-Wasas Process (SWAP) www.swapsol.com is not about capturing and storing CO2 underground (CCS).  The SWAP converts and breaks CO2 into its parts – parts that can be cycled back into the reaction to convert more CO2.

Wolf Koch, Swapsol Director; Jim Wasas and Ray Stenger

Wolf Koch, Swapsol Director; Jim Wasas and Ray Stenger

Federal legislation to force lower emissions in the oil and gas sector and increase taxes for those who do emit CO2 has industry executives deeply concerned.  They say it’s a fundamental question of survival with some gas leaders saying thousands of jobs will be lost.  Executives at SWAPSOL said they were thankful to be part of the discussion moving forward.

“Congress setting tough rules on carbon emissions in some way is inevitable,” said Evan Howell, SWAPSOL Corp. executive vice president for marketing and communications.  “As we build our company around the science, we’re talking with potential partners to develop what we see are a wide variety of commercial applications both in and outside the petroleum industry.”

Keynote speakers in Houston called for the industry to take a greater role in shaping legislation and make a greater commitment to investing in new and innovative technologies.

SWAPSOL is scheduled to present at the Global Refining Strategies Summit May 18-19, 2010, in Rotterdam where they will present the SWAP to industry executives from Europe, China and the Middle East.

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SWAPSOL TO ANNOUNCE BREAKTHROUGH DURING NATIONAL CHEMISTRY WEEK

Monday, October 5th, 2009

Chemical reaction verified to convert carbon dioxide (CO2) and hydrogen sulfide (H2S) to form harmless compounds, contribute to climate change fight

MONMOUTH JUNCTION, N.J. (October 5, 2009) – Two New Jersey scientists at SWAPSOL Corp. (www.swapsol.com ) have discovered a chemical process that reacts hydrogen sulfide (H2S) with carbon dioxide (CO2), eliminating both. SWAPSOL will hold a seminar on the science and potential industrial applications during National Chemistry Week on Oct. 21, 2009, on the Rutgers University Cook Campus in New Brunswick, N.J. http://www.swapsol.com/events

The discovery may shatter preconceived notions about energy and chemistry and play a role in the fight against climate change and global warming.  Unlike a carbon capture process, the Stenger-Wasas Process or SWAP is a carbon conversion process, verified in the laboratory to break down CO2 into its inert compounds.

Ray Stenger and Jim Wasas discovered the SWAP, a suite of hydrocarbon reactions based on the previously unknown reaction between CO2 and H2S. The SWAP was verified in the laboratory to reduce H2S below detectable levels (below 4 ppb) by gas chromatography while converting proportionate amounts of CO2 into innocuous compounds such as water.  Sour gas processors and high-sulfur crude oil refiners may be the first to benefit from the SWAP which could substantially reduce operating costs and mitigate CO2 emissions.  The SWAP may also have potential applications in other sectors where H2S is present, such as landfills, tanneries and coke ovens.

Thermodynamic and chemical kinetics studies indicate that the SWAP is exothermic and the heat liberated can be easily managed and controlled

Thermal Hazard Solutions, Inc. (THS), a company that provides scientists with quantitative thermodynamic and kinetic information, verified the SWAP and determined the kinetic and thermodynamic parameters of the process.

“The SWAPSOL discovery may have deep industrial applications,” said Dr. Roy Drayton, president of THS, who submitted the thermodynamic and kinetic studies.  “The reaction between CO2 and H2S was very impressive and I believe signals strong potential for continuous-flow operations.”

Gas chromatography (GC) was independently conducted by Gene Hall, Ph.D., professor of analytical chemistry at Rutgers University.  He found the SWAP reaction reduced H2S to below 4 ppb.

“My GC studies demonstrated the SWAP has strong potential for dramatic H2S reduction,” said Hall, adding the SWAP discovery was extremely important. “It appears they may have something very special indeed.”

To learn more about the seminar and the SWAP, visit www.swapsol.com/events

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National Chemistry Week Seminar : Can a chemical reaction help fight global warming?

Tuesday, September 1st, 2009

Wednesday, October 21, 2009

Could a Sour Natural Gas Process Convert Carbon Dioxide (CO2) and Hydrogen Sulfide (H2S) into harmless compounds?

Attend discussion on if an exothermic chemical reaction could contribute in the fight against global warming and climate change.

WHAT:

The Stenger Wasas Process (SWAP): A suite of hydrocarbon refining solutions that, in the laboratory, has been verified to rapidly reduce H2S to below detectable limits by gas chromatography (under 4ppb) and may be able to convert CO2 into carbon, water and sulfur industrially.  Discoverers of the SWAP invite academicians and experts to discuss the science and its potential contributions to the global warming solution.

WHERE:

Philip Alampi Auditorium, Rutgers University Cook Campus
School of Environmental and Biological Sciences
71 Dudley Road (corner of College Farm and Dudley Rd.)
New Brunswick, NJ

WHEN: Wed., Oct. 21

2:30 p.m. – 4:30 p.m.

RSVP:             www.swapsol.com/events.php

Open Admission      Q & A Following

WHO:

Raymond Stenger and James Wasas invite members of the academic and professional communities on Wednesday, Oct. 21, 2009, to learn about the Stenger-Wasas Process (SWAP), proposing that a reaction between carbon dioxide (CO2) and hydrogen sulfide (H2S) eliminates both (2H2S + CO2 => 2H2O + 2S + C) in a mildly exothermic reaction and could alter the course of global warming and impact escalating energy costs.  Hear and discuss the science behind the SWAP and its potential impact on the hydrocarbon industry.

PARTICIPANTS

  • Raymond Stenger (B.S.,WV University ‘57)
  • James Wasas (B.S., Rutgers ‘68)
  • Wolf Koch, Ph.D, Chemical Engineering, University of Cincinnati (B.S., Rutgers ‘68), President, Technology Resources International, Inc.
  • Gene Hall, Ph.D, Analytical Chemistry, Rutgers University (independent GC verification)
  • Roy Drayton, Ph.D, President, Thermal Hazard Solutions, Inc.  (independent thermodynamics and chemical kinetics verification)
  • Randa Fahmy-Hudome, Former U.S. Associate Deputy Energy Secretary

Stenger and Wasas will discuss the catalytic and recombinant science behind the reaction.  Dr. Wolf Koch will discuss the potential commercial applications.  Q & A will follow: Dr. Hall will answer questions about his independent chemical and gas chromatography (GC) analysis; Dr. Drayton will answer questions about his findings and verifications of thermodynamic and chemical kinetic results showing scalability of the SWAP.

If you would like to attend, please visit: www.swapsol.com/events.php

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