Reportlinker Adds Gas-to-Liquids Processes for Chemicals and Energy Production Report
Posted on: Thursday, 3 September 2009, 10:55 CDT
NEW YORK, Sept. 3 /PRNewswire/ -- The gas-to-liquids (GTL) business is involved in the chemical conversion of stranded natural gas feedstocks to liquid products such as transportation fuels and chemicals. Insofar as beneficial processing of the world's huge resource base of stranded natural gas is concerned, GTL processing is a relatively recent R&D focus of the petrochemical industry. Development of commercial-scale GTL plants, utilizing stranded natural gas is a relatively recent development, too. Hence, the need for this BCC report.
Liquid GTL products are primarily transportation fuels (and are defined as synthetic fuels) and chemical feedstocks such as methanol, hydrogen, and other petrochemicals. As the terms are presently used in the petrochemical industry, "GTL" and "GTL products" refer mainly to the output of plants (or refineries) that utilize stranded natural gas as feedstock. For that reason, conventional production of chemicals, including high-volume methanol, typically via steam methane reforming (SMR) of non-stranded natural gas, is not a principal focus of this report.
The objective of this BCC Research report is to provide an up-to-date and critical evaluation of the most dynamic and path breaking aspects of GTL technology and describe how recent breakthroughs in conversion technology have made GTL products competitive with products refined from crude oil. This report discusses the use of GTL processes to produce ultra-clean diesel fuels and high-quality chemical products such as waxes. BCC assesses the role of GTL as an enabling technology for the production of clean transportation fuels.
A principal focus of the report are individual company initiatives and R&D focus, Discussed as well is the status of all major GTL projects around the world that utilize stranded gas. Included are descriptions of technologies and products, and a forecast of the GTL market through 2014. The report quantifies demand for GTL by type of output, application, and production technology. A significant component of this report analyzes competitive synthetic fuel concepts, as the commercial success of competitive synthetic fuel concepts will weigh heavily on the ultimate trajectory of the GTL business. These competitive fuels include those derived from coal-to-liquids (CTL) and biomass-to-liquids (BTL).
REASONS FOR DOING THE STUDY
A significant amount of the world's natural gas resources are stranded, far from existing markets. Gas-to-liquids technologies can economically convert these resources into high-quality, ultra-low sulfur fuels that can be transported to consumers or used in remote locations.
Fischer-Tropsch (FT) processing of synthesis gas has undergone significant improvements in reactor design and product recovery. This has enabled the economic use of stranded natural gas feedstocks in GTL production on the front-end (i.e., the stranded natural gas is the initial feedstock that yields synthesis gas that is then processed via FT). Therefore, GTL fuel production is in a relatively advanced stage of development, with commercial production well demonstrated in, for example, Qatar, Malaysia, and South Africa. Although synthetic fuels can be produced from a range of feedstocks--biomass, coal, and natural gas--the GTL process is at the most advanced stage of commercial development. In addition, GTL utilizes gas resources that either are flared or are currently unmarketable. Synthetic fuel production via GTL processing of stranded gas is approximately 100,000 barrels per day (bbl/d), and it is estimated that as many as 10 large-scale GTL plants will be in operation over the next decade, producing as much as 1 million barrels per day (Mbbl/d) of GTL products.
Nearly every major oil company has announced plans to investigate producing synthetic diesel fuel via a GTL process. However, a handful of companies, such as established GTL companies Sasol, Shell, Syntroleum, and Rentech, are the dominant producers. As discussed in this report, though, there are numerous "second-tier" companies that have sizable GTL support operations in engineering, design, plant construction, ancillaries, and related activities. Generally, research and development are improving the efficiency and economics of GTL production as well as quantifying the costs and benefits of production and use of GTL fuel in vehicles.
GTL derived fuels do have competition in the market, and these competitors include low-grade and synthetic petroleum (e.g., from tar sands in Canada) CTL, biofuels, electricity (EVs), and hydrogen. Although liquid fuels could be increasingly supplied by low-quality and synthetic petroleum, such as tar sands, due to the sheer size of readily accessible resources and the available technologies to turn such resources into liquid fuel, those fuels have much higher GHG (greenhouse gas) emissions than conventional petroleum, as well as GTL, and BCC predicts this will be a highly significant negative factor in terms of product demand. Currently, production capacity for fossil-based "alternative" fuels is about 2.5 Mbbl/d, of which the largest portion is tar sands and extra-heavy oil production. This, of course, far exceeds present GTL output.
These fossil-based "alternative" fuels now account for only 3% of global oil production but could double within the next 5 years. However, environmental mandates could be a significant force behind growing utilization of GTL for chemical and energy production. Higher-purity transportation fuels, such as ultra-low sulfur diesel, will become mandatory in most jurisdictions. GTL will offer both petroleum refiners and automakers flexibility to meet international agreements. In addition, GTL derived fuel may have a slight GHG emission advantage.
INTENDED AUDIENCE
With its broad scope and in-depth analyses, this study will prove to be a valuable resource, particularly for anyone involved with or interested in the synthetic transportation fuels market. It will be particularly useful for researchers, laboratory and government personnel working in research or company settings, as well as business professionals, such as marketing managers, strategic planners, forecasters, new product and business developers, who are involved with most aspects of the liquids fuels industry. It also will be of value to potential investors and members of the general public who are interested in acquiring a business-oriented view of GTL and the synthetic fuels business. The projections, forecasts, and trend analyses found in this report provide readers with the necessary data and information for decision making.
CHAPTER ONE: INTRODUCTION
STUDY GOALS AND OBJECTIVES
REASONS FOR DOING THE STUDY
INTENDED AUDIENCE
SCOPE OF REPORT
METHODOLOGY AND INFORMATION SOURCES
ANALYST CREDENTIALS
RELATED BCC PUBLICATIONS
BCC ONLINE SERVICES
DISCLAIMER
CHAPTER TWO: SUMMARY
MAJOR FINDINGS
KEY FINDINGS OF THIS STUDY
SUMMARY TABLE GLOBAL MARKET FORECAST OF PRODUCTS PRODUCED VIA GTL WITH COMPARISONS TO CTL AND BTL, THROUGH 2014 ($ BILLIONS)
SUMMARY FIGURE GLOBAL MARKET FORECAST OF PRODUCTS PRODUCED VIA GTL WITH COMPARISONS TO CTL AND BTL, 2007-2014 ($ BILLIONS)
CHAPTER THREE: OVERVIEW
TABLE 1 DISTRIBUTION OF WORLD STRANDED NATURAL GAS RESOURCES BY REGION, 2008 (PERCENT DISTRIBUTION)
CARBON REGULATIONS AND GTL MARKET PROSPECTS
FACTORS DRIVING ADOPTION OF GTL PROCESSES
OVERVIEW OF RECENT ACTIVITY
TABLE 2 KEY EXAMPLES OF GTL DEMONSTRATION PLANTS
SASOL
RENTECH
SYNTROLEUM
MODEC
WORLD GTL
BHP BILLITON
EXXON
SHELL
QATAR AND EGYPT: MAJOR FOCUS FOR GTL PROJECTS
PROJECT LIST
TABLE 3 LIST OF PRINCIPAL GTL PLANTS AROUND THE WORLD
TABLE 3 (CONTINUED)
HISTORY OF THE GTL INDUSTRY
FIGURE 1 GTL PRODUCTION OPTIONS, TRANSPORTATION FUELS, AND CHEMICALS
TABLE 4 CURRENT WORLD COMMERCIAL SYNFUELS CAPACITY (BBL/D)
TABLE 5 COMPARATIVE MERITS AND DRAWBACKS OF FT
PRINCIPAL GTL PRODUCTION PROCESSES
SHELL SMDS
Shell SMDS (Continued)
SASOL GTL PROCESSES
Sasol GTL Processes (Continued)
SASOL CTL PLANTS
STATOIL AND PETROSA
RENTECH
Rentech (Continued)
EXXONMOBIL'S ADVANCED GAS CONVERSION
SYNTROLEUM
BP PILOT PLANT IN ALASKA
CHOREN INDUSTRIES
SYNFUELS INTERNATIONAL
CANMET ENERGY TECHNOLOGY CENTER--CETC SUPERCETANE TECHNOLOGY
Canmet Energy Technology Center. . .(Continued)
Canmet Energy Technology Center. . .(Continued)
COMPACT GTL
Compact GTL (Continued)
LNG MARKETS AND CTL
LNG MARKETS AND CTL (CONTINUED)
COAL TO LIQUIDS
National Energy Technology Laboratory Study
Baard Energy CTL Plant
TABLE 6 OPERATING AND PLANNED LARGE COAL GASIFICATION/CTL PLANTS STATUS AS OF 2008
TABLE 6 (CONTINUED)
TABLE 6 (CONTINUED)
TABLE 6 (CONTINUED)
TABLE 6 (CONTINUED)
GTL TECHNOLOGIES
INTRODUCTION
Introduction (Continued)
Introduction (Continued)
GTL OUTPUTS
GTL Outputs (Continued)
GTL Outputs (Continued)
REFORMING
Adiabatic Prereforming
Tubular (or Primary) Reforming
Advanced Reforming
Sulfur-Passivated Reforming
Autothermal Reforming (Catalytic Partial Oxidation)
Two-Step Reforming or Combined Tubular/Secondary Reforming
Heat Exchange Reforming
HYDROGEN SHIFT CONVERSION AND METHANATION
SHIFT CONVERSION
METHANATION
CHAPTER FOUR: INDUSTRY STRUCTURE AND COMPETITIVE DEVELOPMENTS
TIER 1--LARGE DEVELOPERS/PATENT HOLDERS
BHP BILLITON
BP 57
CHEVRON CORP.
CONOCOPHILLIPS CO.
EXXONMOBIL
IVANHOE ENERGY
MARATHON OIL CO
METHANEX CORP.
PETROSA
RENTECH, INC.
REPSOL
ROYAL DUTCH SHELL
SASOL CHEVRON
SASOL SYNFUELS INTERNATIONAL (SSI)
STATOIL
SYNTROLEUM CORP
TOTAL
Total (Continued)
TIER 2--COMPONENT AND ENGINEERING SERVICES SUPPLIERS
ABB LUMMUS GLOBAL GMBH
AIR LIQUIDE GROUP
AIR PRODUCTS AND CHEMICALS, INC.
AMEC PROCESS AND ENERGY, LTD.
AXENS
BASF CORP
BLACK &VEATCH HOLDING CO
CHICAGO BRIDGE AND IRON CO
Chicago Bridge and Iron Co. (Continued)
CRYOMECH, INC
DELTA HUDSON ENGINEERING, LTD.
DESCON ENGINEERING CO., INC.
DOW CHEMICAL CO
ELTRON RESEARCH & DEVELOPMENT, INC.
FLUOR CORP.
Fluor Corp. (Continued)
FMC TECHNOLOGIES
FOSTER WHEELER CORP.
Foster Wheeler Corp. (Continued)
HALDOR TOPSOE A/S
INTEGRATED CONCEPTS AND RESEARCH CORP. (ICRC)
JAPAN OIL, GAS, AND METALS NATIONAL CORP. (JOGMEC)
JOHNSON MATTHEY CATALYSTS
KINETICS TECHNOLOGY INTERNATIONAL CORP. (KTI), INC.
THE LINDE GROUP
LURGI AG
MODEC, INC. (MITSUI OCEAN DEVELOPMENT & ENGINEERING CO., LTD)
NIPPON STEEL
OXFORD CATALYSTS
Oxford Catalysts (Continued)
PALL CORP
PRAXAIR, INC.
SIEMENS
STORK BV
SYNFUELS INTERNATIONAL
TECHNIP
UOP-HONEYWELL
TIER 3--DEVELOPMENT STAGE COMPANIES
ARKENOL
BAARD ENERGY, LLC
CARBON SCIENCES, INC
COMPACTGTL, PLC
HYDROGENICS CORP.
POWER ECALENE FUELS, INC. (PEFI)
SYNTHESIS ENERGY SYSTEMS
WORLD GTL
SCIENTIFIC, GOVERNMENT AND EDUCATION ORGANIZATIONS
ALASKA NATURAL RESOURCES TO LIQUIDS, LLC
ALLIANCE FOR SYNTHETIC FUELS IN EUROPE
ARGONNE NATIONAL LABORATORY (ANL)
CANMET ENERGY TECHNOLOGY CENTER (CETC)
DOE OFFICE OF FOSSIL ENERGY
NATIONAL ENERGY TECHNOLOGY CENTER
IDAHO NATIONAL LABORATORY (INL)
INSTITUTE FRANCAIS DU PETROLE (IFP)
LEHIGH UNIVERSITY
NATIONAL RENEWABLE ENERGY LABORATORY (NREL)
OAK RIDGE NATIONAL LABORATORY (ORNL)
OFFICE OF INDUSTRIAL TECHNOLOGIES--DOE
UNIVERSITY OF HOUSTON
UNIVERSITY OF KENTUCKY
University of Kentucky (Continued)
CHAPTER FIVE: GTL PRODUCT DEMAND FORECASTS
PRODUCT OVERVIEW
TABLE 7 GLOBAL MARKET FORECAST FOR PRODUCTS PRODUCED VIA GTL WITH COMPARISONS TO CTL AND BTL, THROUGH 2014 ($ BILLIONS)
TOTAL UNCONVENTIONAL FUELS MARKET
TABLE 8 PROJECTED GLOBAL UNCONVENTIONAL LIQUID FUELS MARKET, 2005-2014 (MBBL/D)
GTL-FT FUEL DEMAND BY PRODUCT TYPE
DIESEL
GASOLINE
OTHER GTL PRODUCTS
TABLE 9 PROJECTED GLOBAL MARKET FOR FT-GTL TRANSPORTATION FUELS BY PRODUCT TYPE, 2007-2014 ($ BILLIONS)
FT-GTL CHEMICALS DEMAND BY PRODUCT TYPE
TABLE 10 PROJECTED GLOBAL MARKET FOR FT-GTL CHEMICALS BY PRODUCT, 2007-2004 ($ BILLIONS)
GTL CHEMICALS PROCESSING
THE METHANOL MARKET
METHANOL TO GASOLINE PROCESSING
Methanol to Gasoline Processing (Continued)
GTL PRODUCTS--WAXES
GTL PRODUCTS--WAXES (CONTINUED)
GTL PRODUCTS--WAXES (CONTINUED)
FUELS THAT WILL COMPETE WITH GTL
GTL COMPETITORS
Alaska North Slope Possible for GTL by 2015
GROWING GLOBAL LNG DEMAND
CHANGING LNG PROJECT ECONOMICS
WORLDWIDE DEMAND FOR NATURAL GAS
RESOURCE DEVELOPMENT POLICIES--EFFECT ON SUPPLY FOR GTL PLANTS
COAL-TO-LIQUIDS
COAL-TO-LIQUIDS (CONTINUED)
COAL-TO-LIQUIDS (CONTINUED)
FIGURE 2 FLOW CHART: TWO APPROACHES TO PRODUCING LIQUID FUELS FROM COALS
CTL PROJECT ECONOMICS
BIOMASS-TO-LIQUIDS DEVELOPMENTS
TABLE 11 COMMERCIAL BIOMASS-BASED GASIFICATION PLANTS, 2008
BIOMASS-TO-LIQUIDS DEVELOPMENTS (CONTINUED)
BIOFUELS AND RENEWABLE BIOFUELS
ETHANOL
BIODIESEL
OTHER SYNTHETIC CRUDE OILS
OIL SANDS
EXTRA-HEAVY OIL
SHALE OIL
Shale Oil (Continued)
CHAPTER SIX: REGULATORY DRIVERS--THE MACRO ENVIRONMENT
EARLY SYNTHETIC FUELS LEGISLATION
2007-2008 DEVELOPMENTS
2007-2008 DEVELOPMENTS (CONTINUED)
GHGS WILL BECOME A PRIORITY IN LAW AND REGULATION
STATE INITIATIVES RELATIVE TO FUELS' CO2 EMISSIONS
STATE INITIATIVES RELATIVE . . .(CONTINUED)
FUEL STANDARDS ARE DRIVING THE ADOPTION OF GTL
EARLIER INITIATIVES
EARLIER INITIATIVES (CONTINUED)
GOVERNMENT FUNDING FOR GTL RESEARCH AND DEVELOPMENT
GOVERNMENT FUNDING FOR GTL . . .(CONTINUED)
SNYGAS RESEARCH FUNDING VIA THE HYDROGEN FUEL INITIATIVE
SNYGAS RESEARCH FUNDING . . .(CONTINUED)
CHAPTER SEVEN: RECENT SIGNIFICANT PATENT ACTIVITY
TABLE 12 COMPANIES ASSIGNED MULTIPLE U.S. PATENTS RELATING TO GTL PRODUCTION DURING THE LAST YEAR (NUMBER)
SELECTED PATENTS
CONVERSION PROCESS
HIGH SURFACE AREA, SMALL CRYSTALLITE SIZE CATALYST FOR FISCHER-TROPSCH SYNTHESIS
PRODUCTION OF ALCOHOLS FROM SYNTHESIS GAS
AMMONIA PLANT CONFIGURATION AND METHODS
METHOD AND APPARATUS FOR PRODUCING PRODUCTS FROM NATURAL GAS INCLUDING HELIUM AND LIQUEFIED NATURAL GAS
METHOD OF GENERATING HYDROCARBON REAGENTS FROM DIESEL, NATURAL GAS, AND OTHER LOGISTICAL FUELS
PROCESS FOR SYNTHESIZING HYDROCARBONS
HIGH PURITY OLEFINIC NAPHTHAS FOR THE PRODUCTION OF ETHYLENE AND PROPYLENE
PROCESS FOR IMPROVING PREREFORMING AND REFORMING OF NATURAL GAS CONTAINING HIGHER HYDROCARBONS ALONG WITH METHANE
SYNTHESIS GAS AND CARBON DIOXIDE GENERATION METHOD
PROCESS FOR THE PREPARATION OF A SUPPORTED CATALYST
PROCESS AND SYSTEM FOR PRODUCING SYNTHETIC LIQUID HYDROCARBON FUELS
PREPARATION OF TITANIA AND COBALT ALUMINATE CATALYST SUPPORTS AND THEIR USE IN FISCHERTROPSCH SYNTHESIS
PROCESS FOR REMOVING ALUMINUM CONTAMINANTS FROM FISCHER-TROPSCH FEED STREAMS USING DICARBOXYLIC ACID
HYDROGEN RECOVERY FROM HYDROCARBON SYNTHESIS PROCESSES
PROCESS FOR THE PRODUCTION OF MIDDLE DISTILLATES BY HYDROISOMERISATION AND HYDROCRACKING FEEDS FROM THE FISCHERTROPSCH PROCESS
STABILIZED TRANSITION ALUMINA CATALYST SUPPORT FROM BOEHMITE AND CATALYSTS MADE THEREFROM
RECOVERY OF ALCOHOLS FROM FISCHER-TROPSCH NAPHTHA AND DISTILLATE FUELS CONTAINING THE SAME
PRODUCTION OF SYNTHETIC TRANSPORTATION FUELS FROM CARBONACEOUS MATERIAL USING SELFSUSTAINED HYDRO-GASIFICATION
PROCESS FOR PRODUCING SYNTHESIS GAS FOR THE FISCHER-TROPSCH SYNTHESIS AND PRODUCING APPARATUS THEREOF
LOW SULPHUR DIESEL FUEL AND AVIATION TURBINE FUEL
PROCESSES FOR MAKING LUBRICANT BLENDS WITH LOW BROOKFIELD VISCOSITIES
PROCESS AND APPARATUS FOR THE PRODUCTION OF USEFUL PRODUCTS FROM CARBONACEOUS FEEDSTOCK
PRODUCTION OF LOW SULFUR, MODERATELY AROMATIC DISTILLATE FUELS BY HYDROCRACKING OF COMBINED FISCHER-TROPSCH AND PETROLEUM STREAMS
CATALYSTS
FISCHER-TROPSCH COMPOSITION AND PROCESS
SUPPORTED CATALYST
FISCHER-TROPSCH CATALYST PRODUCTION
PROCESS TO PREPARE A HEAVY AND A LIGHT LUBRICATING BASE OIL
HYDROPROCESSING METHODS AND APPARATUS FOR USE IN THE PREPARATION OF LIQUID HYDROCARBONS
SYSTEMS AND METHODS OF IMPROVING DIESEL FUEL PERFORMANCE IN COLD CLIMATES
METHOD FOR PRODUCING LONG-CHAIN HYDROCARBONS FROM NATURAL GAS
FISCHER-TROPSCH CATALYST, PREPARATION, AND USE THEREOF
HOMOGENEOUS MODIFIED-ALUMINA FISCHERTROPSCH CATALYST SUPPORTS
BLENDING FOR DENSITY SPECIFICATIONS USING FISCHER-TROPSCH DIESEL FUEL
OXYGENATE TREATMENT OF DEWAXING CATALYST FOR GREATER YIELD OF DEWAXED PRODUCT
PROCESS FOR REMOVING CONTAMINANTS FROM FISCHER-TROPSCH FEED STREAMS
PROCESS TO PREPARE A WAXY RAFFINATE
PROCESS FOR THE PRODUCTION OF MIDDLE DISTILLATES BY HYDROISOMERISATION AND HYDROCRACKING FEEDS FROM THE FISCHERTROPSCH PROCESS
RECEPTION, PROCESSING, HANDLING, AND DISTRIBUTION OF HYDROCARBONS AND OTHER FLUIDS
PRODUCTION OF HYDROCARBONS
METHOD AND APPARATUS FOR REGENERATING AN IRON-BASED FISCHER-TROPSCH CATALYST
PROCESS FOR CONVERTING GASEOUS ALKANES TO LIQUID HYDROCARBONS
INTEGRATED PROCESSING OF NATURAL GAS INTO LIQUID PRODUCTS
GAS-TO-LIQUIDS FACILITY FOR FIXED OFFSHORE HYDROCARBON PRODUCTION PLATFORMS
MODIFICATION OF A METHANOL PLANT FOR CONVERTING NATURAL GAS TO LIQUID HYDROCARBONS
PROCESS FOR THE RECOVERY OF OIL FROM A NATURAL OIL RESERVOIR
APPARATUS FOR PRODUCING HIGH MOLECULAR WEIGHT LIQUID HYDROCARBONS FROM METHANE AND/OR NATURAL GAS
MANAGING HYDROGEN IN A GAS TO LIQUID PLANT
METHOD FOR CONVERTING NATURAL GAS TO LIQUID HYDROCARBONS
LIST OF TABLES
SUMMARY TABLE GLOBAL MARKET FORECAST OF PRODUCTS PRODUCED VIA GTL WITH COMPARISONS TO CTL AND BTL, THROUGH 2014 ($ BILLIONS)
TABLE 1 DISTRIBUTION OF WORLD STRANDED NATURAL GAS RESOURCES BY REGION, 2008 (PERCENT DISTRIBUTION)
TABLE 2 KEY EXAMPLES OF GTL DEMONSTRATION PLANTS
TABLE 3 LIST OF PRINCIPAL GTL PLANTS AROUND THE WORLD
TABLE 3 (CONTINUED)
TABLE 4 CURRENT WORLD COMMERCIAL SYNFUELS CAPACITY (BBL/D)
TABLE 5 COMPARATIVE MERITS AND DRAWBACKS OF FT
TABLE 6 OPERATING AND PLANNED LARGE COAL GASIFICATION/CTL PLANTS STATUS AS OF 2008
TABLE 7 GLOBAL MARKET FORECAST FOR PRODUCTS PRODUCED VIA GTL WITH COMPARISONS TO CTL AND BTL, THROUGH 2014 ($ BILLIONS)
TABLE 8 PROJECTED GLOBAL UNCONVENTIONAL LIQUID FUELS MARKET, 2005-2014 (MBBL/D)
TABLE 9 PROJECTED GLOBAL MARKET FOR FT-GTL TRANSPORTATION FUELS BY PRODUCT TYPE, 2007-2014 ($ BILLIONS)
TABLE 10 PROJECTED GLOBAL MARKET FOR FT-GTL CHEMICALS BY PRODUCT, 2007-2004 ($ BILLIONS)
TABLE 11 COMMERCIAL BIOMASS-BASED GASIFICATION PLANTS, 2008
TABLE 12 COMPANIES ASSIGNED MULTIPLE U.S. PATENTS RELATING TO GTL PRODUCTION DURING THE LAST YEAR (NUMBER)
LIST OF FIGURES
SUMMARY FIGURE GLOBAL MARKET FORECAST OF PRODUCTS PRODUCED VIA GTL WITH COMPARISONS TO CTL AND BTL, 2007-2014 ($ BILLIONS)
FIGURE 1 GTL PRODUCTION OPTIONS, TRANSPORTATION FUELS, AND CHEMICALS
FIGURE 2 FLOW CHART: TWO APPROACHES TO PRODUCING LIQUID FUELS FROM COALS
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Gas-to-Liquids Processes for Chemicals and Energy Production
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Source: PR Newswire
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