Global Synthetic Zeolites Market 2021 (Includes Business Impact of COVID-19)

                                          
Report updated on 11th September, 2021: Global Synthetic Zeolites Market 2021 (Includes Business Impact of COVID-19)
Global Synthetic Zeolites Market Analysis Trends, Applications, Analysis, Growth, and Forecast to 2030 is a recent report generated by Trusted Business Insights. The global synthetic zeolites market report has been segmented on the basis of type, application, and region.
The global Synthetic Zeolites market size was valued at USD $242.65 billion in 2020 and is projected to reachUSD $468.45 billion by 2030, and is anticipated to expand at a CAGR of 3.25% over the forecast period from 2020 to 2030. 
Global Synthetic Zeolites Market: Introduction

Synthetic zeolites are widely used in different applications for water absorption products for resins, coatings, sealants, and adhesives etc. They have various advantages such as ability to adjust pore their size, higher surface areas, higher adsorption capacity over natural zeolites.

Global Synthetic Zeolites Market: Dynamics

Increasing demand for catalysts synthetic materials used in hydrocracking processes and catalytic cracking is expected to drive revenue growth of target market. Growing demand for synthetic zeolite owing to its usage for separation and adsorption across various industries such as detergents, water treatment, and oil & gas industry is another factor expected to boost growth of the global market.

In addition, various properties offered by these products such as refining, purification and other systems that increases aromatic content of refined products is expected to boost adoption of these products, which in turn is anticipated to drive growth of the target market over the forecast period.

Global Synthetic Zeolites Market: Segment Analysis

Among the type segments, the zeolite Y segment is expected to account major revenue contribution in the global synthetic zeolites market in terms of revenue, owing to various features offered by the product such as durable, thermal stability, and reliable nature is expected to drive growth of the target market over the forecast period.

Global Synthetic Zeolites Market: Regional Analysis

Currently, Asia Pacific market is estimated to account for major share in terms of revenue in the global synthetic zeolites market, and is anticipated to register fast growth in terms of revenue over the next 10 years, owing to presence of major manufacturers in countries in this region, coupled with increasing investments in end-use industries.

China market is projected to contribute significant share in terms of revenue in the Asia Pacific market, whereas the India market is estimated to register moderate CAGR over the next 10 years. Rising awareness regarding various advantages offered by products among manufacturers in China in this region are other factors driving growth of the market in countries in this region.
North America market is expected to grow at a higher growth rate over the forecast period, owing to increasing adoption of zeolite molecular sieve in industries such as oil & gas, petrochemical, and other industries in countries such as US and Canada.

Europe market is expected to follow North America market in terms of revenue share in the global synthetic zeolites market, owing to demand for catalyst for application in air-conditioning, refrigeration, water-purification systems, and others. The markets in Middle East & Africa and Latin America are anticipated to account for moderate revenue share in the global synthetic zeolites market, owing to increasing use of synthetic materials in petrochemical, agriculture, and other sectors.

Below are the active patents related to Synthetic Zeolites Market.

Patent Number: US7244409B2

Process for producing synthetic zeolites with MFI structure

Abstract
A process is described for producing synthetic zeolites useful as catalysts with a MFI structure, a Si/Al atomic ratio from about 8 to 45 to 1 and very small primary crystallites. A Si source, an Al source and an organic template are reacted with one another under hydrothermal conditions. The process is carried out in the presence of seed crystals with an average particle size from roughly 10 to 100 nm, preferably from 20 to 50 nm, prepared from an earlier batch of synthetic zeolites with a MFI structure, without separation from the mother liquor. The process further includes conversion by ion exchange of the zeolites into an H form. Moldings may also be produced by the addition of binders and optionally catalytically active base metal and/or precious metal components before or after the moldings are produced. The zeolites as claimed in the invention are characterized by the combination of the following features:
(a) Si/Al atomic ratio 8 to 45:1
(b) Size of the primary crystallites roughly 0.01 to 0.05 microns;
(c) Ratio between longest and shortest axis of the primary crystallites: roughly 1.0 to 1.5:1;
(d) Ratio between the intensity of the x-ray diffraction line with the highest intensity (Dmax=3.865+/-0.015) and the intensity of the x-ray diffraction lines of ZSM 11-zeolite (Dmax=11.15 angstroms); mordenite (Dmax=9.06 angstroms); Αcristobalite (Dmax=3.345 angstroms); and analcim (Dmax=4.83 angstroms)>500:1.

Application File Date: 2004-04-29

Application Granted Date: 2007-07-17

Current Assignee: Sued Chemie IP GmbH and Co KG

Patent Number: US20050272594A1

Lithium exchanged zeolite X adsorbent blends

Abstract

A lithium exchanged zeolite X adsorbent blend with improved performance characteristics produced by preparing a zeolite X, preparing a binder which includes highly dispersed attapulgite fibers wherein the tapped bulk density of the highly dispersed attapulgite fibers measured according to DIN/ISO 787 is more than about 550 g/ml, mixing the zeolite X with the binder to form a mixture, forming the mixture into a shaped material, ion exchanging the zeolite X at least 75% with lithium ions, and calcining the shaped material.

Application File Date: 2005-07-08

Application Granted Date: 2007-11-27

Current Assignee: Zeochem Corp

Patent Number: US20070214959A1

Adsorbent Zeolitic Composition, Its Method Of Preparation And Its Use For Removing H2O And/Or CO2 And/Or H2S Contained In Gas Or Liquid Mixtures

Abstract

The present invention relates to zeolitic compositions of at least one A, X, Y zeolite and/or chabazite and at least one clinoptilolite type of zeolite.
These zeolitic compositions can be used in adsorption methods for removing H2O and/or CO2 and/or H2S present in gas or liquid mixtures, particularly for purifying natural gas, acid gases, alcohols and mercaptans.

Application File Date: 2005-03-30

Application Granted Date: 2010-11-02

Current Assignee: Arkema France SA

Global Synthetic Zeolites Market Segmentation:

Segmentation by Type:

  
Zeolite Y
  
Zeolite A
  
Zeolite X,
  
Zeolite Zsm-5
  
Others

Segmentation Application:

  
Detergents
  
Adsorbents
  
Catalysts
  
Others (Including dietary supplements, wound care, silver zeolite, etc.)


Key Market Players included in the report:


  
Albemarle Corporation (US)
  
ANTEN CHEMICAL CO.LTD.
  
Arkema SA (France)
  
BASF SE (Germany)
  
Chemiewerk Bad Kostritz GMBH (Germany)
  
Clariant AG (Switzerland)
  
CWK Chemiewerk Bad KOstritz GmbH
  
Dalian Haixin Chemical Industrial Co.Ltd..
  
Gongyi City Meiqi Industry & Trade Co.Limited (China)
  
Honeywell International Inc (US)
  
Huiying Chemical Industry (China)
  
Industrias Químicas del Ebro S.A.
  
International Zeolite Corp
  
KNT Group (Russia)
  
NALCO India.
  
National Aluminium Company Limited (India)
  
PQ Corporation (US)
  
Rive Technology
  
SHOWA DENKO K.K.
  
Sorbead India
  
St. Cloud Mining and Huiying Chemical Industry(Xiamen) Co.Ltd.
  
TOSOH Corporation (Japan)
  
Union Showa KK (Japan)
  
W.R. Grace & Co. (US)
  
Zeochem AG (Switzerland)
  
Zeolites and Allied Products Pvt. Ltd (India)
  
Zeolyst International (US)