Posts Tagged ‘sour gas’

SWAPSOL in Houston’s Sulphur 2011 Nov. 10 on H2S processing breakthrough

Wednesday, November 9th, 2011

Media Alert

SWAPSOL Corporation tomorrow will present its breakthrough sulfur recovery technology that can reduce hydrogen sulfide to below detectable levels and yield valuable products in a low temperature catalytic reaction.

Sulphur 2011 / Intercontinental Houston / Houston, TX
11:50am, Thursday, November 10th, 2011

Session: Stream A: Sulphur and Sulphides
Presenter: Wolf Koch, CEO / SWAPSOL Corp.

The SWAP: A breakthrough in hydrogen sulfide processing
SWAPSOL is developing commercial processes around a recently discovered chemical reaction, which reduces hydrogen sulfide (H2S) below detectable levels while reacting with carbon dioxide (CO2) to form water, sulfur and carsuls, a carbon-sulfur polymer. The SWAP stands to fundamentally simplify sulfur removal technology as it consumes carbon dioxide in an exothermic reaction under relatively mild process conditions. Alternatively, hydrogen sulfide may be reacted to form hydrogen and sulfur. The SWAP will have applications in landfill gas, sour gas, industrial flue gas cleanup, Claus tail gas cleanup and may serve as an alternative to Claus technology. A related process allows for the destruction of waste hydrocarbons by reacting them with sulfur to form hydrogen sulfide and carsuls.

The primary reactions and variants have been independently verified and the chemical kinetics determined by a third party laboratory. Swapsol has filed US and international patent applications covering all aspects of the technology. Laboratory scale development of the various Swapsol processes is nearing completion and the company is exploring opportunities for pilot plant development programs with potential partners.

For more information:

Evan Howell / evan.howell@swapsol.com

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SWAPSOL in Hydrocarbon Engineering Magazine on sour gas, landfill gas cleanup

Wednesday, October 12th, 2011

This month, editors at Hydrocarbon Engineering Magazine, Europe’s premiere refining trade publication, took a look at the SWAP’s application in cleaning sour gas which has potential for dramatic savings for refiners.  A new outside report shows the SWAP can beat costs of traditional methods (Claus) by as much as 70 percent.

In early 2011, an independent comprehensive process design and cost analysis was commissioned for the SWAP sour gas application, covering a design for a typical well and one for cleaning landfill gases. The outside contractor was chosen because of his renown expertise in sulfur recovery technology and process design.


“What is clear from the data is that the SWAP can provide cost advantages over competing processes, especially in view of the fact that thecompeting cost data needs to be inflated for a four year time period. Compared to the industry standard (the Claus process), the SWAP provides a cost advantage in excess of 40 % (after adjustments for inflation); the advanced SWAP process increases the potential advantage to 70%.”

To read the full article, please visit the PDF.

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Gastech 2011 – SWAPSOL PROCESS CUTS GAS REFINING COSTS 70 PERCENT

Tuesday, March 22nd, 2011

Low-temp, catalytic process set for Q2 pilot, new partner discussions on horizon
GASTECH /Amsterdam (22 March, 2011) – SWAPSOL announced today its pre-pilot sulphur disposal technology may help refiners eliminate nearly two-thirds of their current gas processing costs. Company director Wolf Koch (Cook), Ph.D., cited data from an independent cost and engineering analysis when he presented the news at Gastech.

SWAPSOL Director, Wolf Koch

SWAPSOL Director, Wolf Koch

“This new data shows how the SWAP can both improve a gas processors bottom line and make a positive contribution to a cleaner environment simultaneously,” Koch said.

The report shows the SWAP disposal costs estimate to be $0.46 ($/1,000cf), compared to $1.40 ($/1,000cf) with current Claus technology. The cost comparison is based against published U.S. Department of Energy data on competing processes adjusted from 2004 to 2008 – the reference time frame for the present study.

Read story ==>

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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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