PUBLISHER: Coherent Market Insights | PRODUCT CODE: 1086175
PUBLISHER: Coherent Market Insights | PRODUCT CODE: 1086175
Granulators are high speed rotor mills designed to convert a particle powder into sizeable granules. Granulation is a process of binding one or two materials together and making larger particles by using binding agents such as sugars and natural binders or synthetic polymers. Granulation is performed to improve flow properties of powdered active ingredients, which, in turn eases compression during tablet manufacturing. Also, it prevents segregation of the powdered substance. Granulation is performed by two methods, wet granulation and dry granulation. The choice of method depends on characteristics of powder and objective of tablet manufacturing. It refers to the process of size enlargement of pharmaceutical ingredients to prevent segregation of constituents in the powder mix. Granulation is commonly used for production of oral drug formulations such as tablets, pills, and capsules.
Furthermore, several pharmaceutical manufacturing companies are exploring technical solutions that can increase quality of drug, process throughput, reduce costs of manufacturing, and increase yield. One of the most promising solutions being studied and implemented is continuous manufacturing (CM). Continuous granulation is performed to continuously manufacture APIs and excipients. The process of continuous manufacturing is gaining momentum in the pharmaceutical industry owing to increasing demand for faster product development, reduced costs of manufacturing, and higher manufacturing flexibility. The integration of continuous manufacturing process in the pharmaceuticals manufacturing industry has significantly increased efficiency of API and excipient manufacturers.
The pharmaceutical companies are focusing on expansion of their production facilities which would create additional demand for granulators used for producing drugs and for R&D activities. The increasing investments in production facilities by key players attributed to the growth of global pharmaceutical granulators market. For instance in September 2017, Fresenius Kabi announced an investment of US$ 250 million to establish a pharmaceutical plant in Illinois, U.S. for aseptic manufacturing of pharmaceutical drugs. Similarly, according to a survey report published by the USFDA in 2016, the top 15 pharmaceutical companies in the U.S. invested around 20.5% of their pharmaceutical sales in research and development of new drugs. Such strategies adopted by key players is projected to drive demand for pharmaceutical granulators.
Furthermore, technological innovations in development of drugs is another factor driving the growth of this market. For instance, in July 2017, Wittmann Battenfeld, Inc. introduced a new G-Max 23 granulator, which is a flexible, custom-made granulator that consumes less energy and delivers high performance. Additionally, in 2015, the Bosch GmBH, a Germany-based company developed a new granulation unit, Granulean, which is a novel pharmaceutical granulator that collectively carries out the process of mixing, granulating, and drying of the pharmaceutical granules. The launch of innovative and technologically advanced products is expected to drive growth of this market during the forecast period.
? By Product Type
? Single Pot Granulators
? High Sheer Granulators
? Fluid Bed Granulators
? Oscillating Granulators
? Others
? By Mechanism
? Microfracture
? Dry Granulators
? Wet Granulators
? Mixed Granulators
? By End User
? Pharmaceutical Manufacturing Companies
? Contract Manufacturing
? Research Institutes
? By Country:
? U.S.
? Canada
? By Product Type
? Single Pot Granulators
? High Sheer Granulators
? Fluid Bed Granulators
? Oscillating Granulators
? Others
? By Mechanism
? Microfracture
? Dry Granulators
? Wet Granulators
? Mixed Granulators
? By End User
? Pharmaceutical Manufacturing Companies
? Contract Manufacturing
? Research Institutes
? By Country:
? Brazil
? Mexico
? Argentina
? Rest of Latin America
? By Product Type
? Single Pot Granulators
? High Sheer Granulators
? Fluid Bed Granulators
? Oscillating Granulators
? Others
? By Mechanism
? Microfracture
? Dry Granulators
? Wet Granulators
? Mixed Granulators
? By End User
? Pharmaceutical Manufacturing Companies
? Contract Manufacturing
? Research Institutes
? By Country:
? Germany
? U.K.
? France
? Italy
? Spain
? Russia
? Rest of Europe
? By Product Type
? Single Pot Granulators
? High Sheer Granulators
? Fluid Bed Granulators
? Oscillating Granulators
? Others
? By Mechanism
? Microfracture
? Dry Granulators
? Wet Granulators
? Mixed Granulators
? By End User
? Pharmaceutical Manufacturing Companies
? Contract Manufacturing
? Research Institutes
? By Country:
? China
? India
? Japan
? Australia
? South Korea
? ASEAN
? Rest of Asia Pacific
? By Product Type
? Single Pot Granulators
? High Sheer Granulators
? Fluid Bed Granulators
? Oscillating Granulators
? Others
? By Mechanism
? Microfracture
? Dry Granulators
? Wet Granulators
? Mixed Granulators
? By End User
? Pharmaceutical Manufacturing Companies
? Contract Manufacturing
? Research Institutes
? By Country:
? GCC
? Israel
? Rest of Middle East
? By Product Type
? Single Pot Granulators
? High Sheer Granulators
? Fluid Bed Granulators
? Oscillating Granulators
? Others
? By Mechanism
? Microfracture
? Dry Granulators
? Wet Granulators
? Mixed Granulators
? By End User
? Pharmaceutical Manufacturing Companies
? Contract Manufacturing
? Research Institutes
? By Country :
? South Africa
? Central Africa
? North Africa
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"*" marked represents similar segmentation in other categories in the respective section.