Report updated on 11th September, 2021: Global Hydrogen Sulfide Scavengers Market By Type (Regenerative , and Non-Regenerative), By Application (Gas Industry , Oil Industry , and Waste Water), By Region and Key Companies - Industry Segment Outlook, Market Assessment, Competition Scenario, Trends and Forecast, 2021-2030 (Includes Business Impact of COVID-19)
Trusted Business Insights has published a comprehensive market research report on, Global Hydrogen Sulfide Scavenger Market by Product Type (Regenerative scavenger, Non-regenerative scavenger), By End Use Industry (Oil Industry, Gas Industry, Waste Water Treatment Industry), and by Region -Global Forecast to 2030, which offers a holistic view of the global Hydrogen Sulfide Scavenger market through systematic segmentation that covers every aspect of the target market. The global Hydrogen Sulfide Scavenger market is projected to be US$ 1184.7 Mn in 2020 to reach US$ 1724.7 Mn by 2030 at a CAGR of 4.0%. Hydrogen sulfide (H2S) scavenger is a chemical compound primarily used in hydrocarbon and chemical processing facilities. The specialized chemicals in hydrogen sulfide scavenger react selectively with H2S and help in removing it. Products treated for H2S include fuels, crude oil, and refined petroleum products in tanker ships, storage tanks, pipeline, and rail-cars, and wastewater treatment facilities. Hydrogen sulfide is a flammable, colorless, and toxic gas mostly found in the hydrocarbon processing industry. It is a poisonous and powerful gas produced during upstream and downstream processes, that can cause severe to damage to human and environment. Hydrogen sulfide can damage pipe works and produce an iron sulfide corrosion film. Therefore, it is necessary to remove H2S from such facilities as quickly and efficiently as possible. The process of eliminating H2S is known as gas sweetening, which is carried out either by chemical scavengers or iron sponge H2S scrubbers. H2S scavengers are used in hydrocarbon processing facilities to maintain productivity and plant workers safety. H2S scavengers are mainly categorized into regenerative and non-regenerative H2S scavengers. H2S removal is essential when the presence of bacteria and organic matter results in the generation of this noxious gas. Presence of H2S can decrease operational reliability, and overall system efficiency as the gas is destructive and can lead to iron sulfide fouling. H2S scavengers offer a cost-effective alternative to conventional gas/liquid sweetening processes. These products offer successful treatment in various applications including H2S removal from gas streams, sour hydrocarbon liquids and H2S reduction in sour liquid tank vapor spaces. The treatment process is considered to be effective when the reaction between H2S and scavenger is irreversible and complete. The reaction is said to be incomplete when sulfide residue is left behind.Global Hydrogen Sulfide Scavenger Market Revenue (US$ Mn), 2021 to 2030
Hydrogen sulfide scavengers provide a cost-effective alternative method to remove H2S corrosion in traditional gas/liquid sweetening process. Furthermore, they provide effective treatment for several applications. Owing to these characteristics, demand for hydrogen sulfide scavengers in various applications is increasing and aiding the market growth. Several ongoing research and development activities regarding the chemistry of hydrogen sulfide scavengers to make the compounds more environment-friendly while maintaining their effectiveness are expected to create lucrative opportunities for the market growth of hydrogen sulfide scavengers in the forecast period. Moreover, strong investments by several players in the market towards development of cost-effect regenerative H2S scavengers is also anticipated to further boost the market growth Global Hydrogen Sulfide Scavenger market is segmented on the basis of product type, end use industry, and region. On the basis of product type, the market is segmented into Regenerative scavenger, Non-regenerative scavenger. The Non-Regenerative Scavenger segment accounts for the majority share and is expected to register highest growth over forecast period, followed by Regenerative Scavenger segment. On the basis of end use industry, the market is segmented into Oil, Gas, and Wastewater treatment industry. The Gas Industry segment accounts for a majority share in the global Hydrogen Sulfide Scavenger market.Global Hydrogen Sulfide Scavenger Market Attractiveness Index by Product Type, 2018
On the basis of region, the market is segmented into North America, Europe, APAC, South America, and Middle East Africa. The Middle East & Africa accounts for the majority share in the global Hydrogen Sulfide Scavenger market, followed by North America. The research report on the global Hydrogen Sulfide Scavenger market includes profiles of some of the major companies such as Suez SA, Danaher Corporation, Dorf-Ketal Chemicals India Private Limited, Schlumberger Limited, Halliburton Company, Ecolab Inc., Arkema S.A., etc.Below are the active patents related to Ibuprofen Market.
Patent Number: EP2699653A2 Synergistic h2s/mercaptan scavengers using glyoxal Abstract The use of neutral aqueous solutions of glyoxal (pH approximately 6 to 8.5) scavenges H2S that is present in natural gas and in oil better than glyoxal alone or base alone. The resulting scavenger combination significantly increases the reaction rate and the overall scavenging efficiency, i.e. capacity over glyoxal used alone. A buffer may be optionally used. In another embodiment, the combination of non-nitrogen-containing surfactants and glyoxal results in a significant increase in the reaction rate and the overall scavenging efficiency, i.e. capacity as compared to glyoxal used alone. Application File Date: 2012-03-06 Application Granted Date: 2020-12-02 Current Assignee: Baker Hughes Inc Baker Hughes Holdings LLC Patent Number: US9587181B2 Synergistic H2S scavenger combination of transition metal salts with water-soluble aldehydes and aldehyde precursors Abstract The use of a composition including a transition metal salt and at least one water-soluble aldehyde or water-soluble aldehyde precursor scavenges H2S that is present in aqueous fluids (e.g. produced water liquid streams), natural gas and in oil and mixtures thereof (e.g. mixed production streams that contain all three phases) better than either component when used alone. The resulting scavenger combination significantly increases the reaction rate and the overall scavenging efficiency, i.e. capacity over the case where each component is used alone, in the same total amount. Non-limiting examples of the metal salt include zinc or iron carboxylates, and a non-limiting example of a water-soluble aldehyde or water-soluble aldehyde precursor is ethylene glycol hemiformal. Application File Date: 2014-01-07 Application Granted Date: 2017-03-07 Current Assignee: Baker Hughes Inc Patent Number: US8512449B1 Oil-soluble triazine sulfide scavenger Abstract The present invention is directed to water-dispersible, oil-soluble triazine sulfide-scavenging compositions for use in hydrocarbon recovery and processing applications. The compositions include a triazine component, a glycol ether component, and an optional alcohol component. The compositions contain a minor amount of water up to a maximum of about 15% by volume. The compositions can be used in any type of sulfide-scavenging operation and significantly reduce corrosion problems found with conventional triazine scavengers. Application File Date: 2010-12-03 Application Granted Date: 2013-08-20 Current Assignee: Cesh International Financing KftKey Market Segments:
By Process
Chapter 1 Global Hydrogen Sulfide Scavenger Market Overview 1.1 Introduction 1.2 Global Hydrogen Sulfide Scavenger Market is segmented on the basis of type, application, and region. 1.3 Drivers of Hydrogen Sulfide Scavengers Market 1.4 Restraints of Hydrogen Sulfide Scavengers Market 1.5 Opportunities of Hydrogen Sulfide Scavengers Market 1.6 Trends of Hydrogen Sulfide Scavengers Market 1.7 PEST Analysis 1.8 PORTER'S Five Forces Analysis 1.9 Macroeconomic Factors 1.10 Comparison between Regenerative and Non-regenerative H2S Scavengers 1.11 Opportunity Map Analysis 1.11.1 Optimistic Scenario | read more...