Posts Tagged ‘Claus Process’

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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Wolf Koch Named CEO of SWAPSOL

Monday, September 19th, 2011

Former Amoco veteran leads efforts behind industry breakthrough of the SWAP

Wolf Koch before shareholders in NYC, March 2011

Wolf Koch before shareholders in NYC, March 2011

The SWAPSOL Board of Directors has named Amoco Oil veteran Wolf Koch president and chief executive officer of N.J.-based SWAPSOL on the eve of a major expansion of business development activities by the company.

The new appointment surrounds the company’s patented green chemistry breakthrough, the SWAP, designed to mitigateCO2 and turnpollutants into valuable materials for a wide range of industries. Koch is President and Founder of the Sterling-based consulting firm Technology Resources International, Inc.

Board chairman and company co-founder Ray Stenger said Koch will have responsibility for business operations, strategy, and partnership negotiations as the company moves forward; he will divide his time between the Company’s office and labs in Eatontown, N.J. and his Sterling office.

“We couldn’t have a better man at the helm,” Stenger said. “Wolf’s many years of experience in the oil industry and his vast network of industry relationships make him the ideal choice in leading us forward.”

The SWAP is a suite of hydrocarbon refining applications based on a self-sustainable chemical reaction. The reaction instantaneously eliminates noxious pollutants, such as hydrogen sulfide and reduces CO2 levels in natural gas and refinery streams. The SWAP has applications in landfill gas-to-energy projects, hydrogen generation, industrial flue gas cleanup and carbon fiber-like material development. Independent engineering and cost analyses show the SWAP can reduce costs in some hydrogen sulfide removal operations by as much as 70 percent and significantly lower a plant’s carbon footprint. SWAPSOL is currently engaging industry on joint development and joint investment opportunities in the commercialization of the technology.

Koch recently served as Director of Planning and Development for SWAPSOL and is a member of the company’s Board of Directors. He holds a Ph.D. in chemical engineering and worked in the oil and gas sector for more than 30 years, including 20 years at Amoco Oil. He frequently presents on the SWAP to industry both in the United States and abroad, and he will continue these activities as CEO.

“SWAPSOL is armed with an innovative marketing team and a strong cadre of negotiating experts,” Koch said. “Backed by independent commercial analyses showing the economic and environmental benefits of the SWAP, I’m confident industry will embrace our technology’s potential in the marketplace.”

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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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Can sulfur recovery breakthroughs reduce our environmental footprint?

Saturday, August 22nd, 2009

There has been a recent discovery of a previously unknown exothermic reaction between CO2 and H2S.  It’s a reaction that may fundamentally alter the hydrocarbon industry.  Work continues.  It’s called the Stenger-Wasas Process (SWAP) developed by Ray Stenger and Jim Wasas.  And it may make obsolete traditional petroleum methods, such as the Claus Process and its variants.

The SWAP: Unrefined sour natural gas is fed into the catalytic reactor, where the SWAP reaction occurs between CO2 and H2S. Refined gas flows past the separator. CO2 and H2S are converted into water, sulfur and carbon in the collector. In a reaction that can start in less than one second at very moderate temperatures, the result of the SWAP is refined natural gas.

Brief Overview

Sulfur contaminants such as hydrogen sulfide (H2S), carbonyl sulfide (COS), and mercaptans in gas streams can create unacceptable levels of sulfur emissions in power applications or poison catalysts used in chemical synthesis. Sulfur contaminants are usually reduced to less than 300 ppm for power generation and considerably lower (<1 ppm) for the synthesis of methanol, ammonia, and Fischer-Tropsch (FT) liquids.

Sulfur recovery unit (courtesty: C&I)

Sulfur recovery unit (courtesy: C&I)

Sulfur Recovery Processes

Removing sulfur from a natural gas or syngas process stream is only part of the story. The residual sulfur present in an acid gas stream must then be recovered to prevent environmental and safety harms, as well as meet operator permit requirements. Two main technologies have traditionally been used commercially to recover sulfur: the Claus process (partial combustion) for high levels of sulfur, and catalytic Redox processes, for relatively low levels of sulfur. In recent years, bio-chemical based technology, the Thiopaq Process, has been developed and commercially implemented. Other recent developments include the development of hybrid processes that combine Claus and Redox technology and are used for tailgas cleanup in Claus plants.

The SWAP has been verified by gas chromatography in the laboratory to reduce H2S to below the limit of detection (about 4ppb) in a single pass through the SWAP column.

The SWAP in the laboratory

The SWAP in the laboratory

Classified as hazardous waste by the EPA, H2S disposal requires expensive processing, i.e. the Claus Process. The SWAP may reduce related capital costs for the H2S disposal resulting from crude oil desulfurization, while simultaneously eliminating substantial amounts of CO2.

CLAUS PROCESS

Technology Description

In the Claus process, a high H2S concentration stream is the feedstock for recovery to elemental sulfur. Roughly 1/3 of the H2S is burnt (partial combustion) to form sulfur dioxide (SO2). The remaining H2S reacts with the synthesized SO2 over an alumina or bauxite catalyst to produce elemental sulfur. Depending on their concentrations, the unreacted components (tail gas), such as residual SO2, CO2, and H2S, are either emitted, thermally oxidized, or further treated in an additional recovery process.

(US Environmental Protection Agency, AP42, 5th Edition, “Compilation of AirPollutant Emissions Factors Volume 1: Stationary Point and Area Sources, 1995) The Claus process is thermodynamically limited to ~97 percent sulfur recovery, although additional treatment steps, such as tail gas sulfur recovery, can increase the recovery rate.

Commercial Manufacturers and Applications

The Claus process is the oldest commercial sulfur treatment process, with development dating back to the late 19th century. Today, Claus processes are the main step used for elemental sulfur production worldwide-in fact, 90 percent to 95 percent of the sulfur recovered in the United States was from the Claus process. Almost 40 companies operate over 1000 Claus processes in the United States, recovering nearly 9 million tons per year of sulfur. The petroleum and natural gas industries are the main users of the technology, with IGCC applications making up a small but growing segment of the user population.

With catalytic refining, environmental footprint and operational costs can be lowered. This and other breakthroughs may change the landscape of hydrocarbon refining.  www.swapsol.com

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