2-Methyl-1 3-Propanediol Market Development and Trends

According to this latest study, the growth in the 2-Methyl-1 3-Propanediol market will change significantly from the previous year. Over the next five years, 2-Methyl-1 3-Propanediol will register a CAGR in terms of revenue, and the global market size will reach USD in millions by 2028.

The global 2-Methyl-1 3-Propanediol  market provides qualitative and quantitative information on growth rate, market segmentation, market size, future trends and regional prospects. The research study represents a modern perspective aimed at securing the future potential of the 2-Methyl-1 3-Propanediol market. This report analyses and evaluates the latest prospects for the new retail space, as well as the general and future market performance of Covid-19. In addition, this report provides a detailed overview of competition between some industries and others.

Report Coverage

The report offers a comprehensive perspective of the market size, share, revenue and volume. It has also delved into Porters’ Five Force Analysis SWOT analysis. Quantitative and qualitative assessments have been used to provide a holistic view of the market. The primary interviews validate assumptions, findings and the prevailing business scenarios. The report also includes secondary resources, such as annual reports, press releases, white papers and journals.

Key Prominent Players in the 2-Methyl-1 3-Propanediol Market:

LyondellBasell, DAIREN Chemical Corp

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Market segmentation

The Global 2-Methyl-1 3-Propanediol Market is segmented on the basis of its type, application, and regional demand. Detailed segmentation of the 2-Methyl-1 3-Propanediol market, based on type and application and a descriptive structure of trends of the segments and sub-segments are elaborated in the report. It also provides the market size and estimates a forecast from the year 2022 to 2028 with respect to major regions

2-Methyl-1 3-Propanediol Market Segment by Types, Estimates, and Forecast by 2028

Assay (on a dry basis), Water, Color, Carbonyl (as -CHO), Iron

2-Methyl-1 3-Propanediol Market Segment by Applications, Estimates, and Forecast by 2028

Unsaturated Polyester Resins, Coating, Modified PET, Personal Care

Regional Analysis for COVID-19 Outbreak-Global 2-Methyl-1 3-Propanediol Market:

APAC     (Japan, China, South Korea, Australia, India, and Rest of APAC)

Europe     (Germany, UK, France, Spain, Italy, Russia, Rest of Europe)

North     America (U.S., Canada, and Mexico)

South     America (Brazil, Chile, Argentina, Rest of South America

MEA     (Saudi Arabia, UAE, South Africa)

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Overall, this report covers the historical situation, current position, and the upcoming future prospects of the global 2-Methyl-1 3-Propanediol market during the forecasted period. This 2-Methyl-1 3-Propanediol Report Provides an excellent market outlook in terms of product trends, marketing strategy, future products, new geographical markets, future events, sales strategies, customer actions or behaviours. This market research study presents actionable market insights with which environmental and profitable business approaches can be created. Studying and analysing the impact of Coronavirus COVID-19 on the 2-Methyl-1 3-Propanediol industry, the report gives an in-depth analysis and expert suggestions on how to face the post COIVD-19 period.

This report offers information about the 2-Methyl-1 3-Propanediol market and covering company profiles, patterns, industry dynamics, and market share. The report also throws light on a set of constantly changing market situations as well as future evaluations of various factors that totally affect the market.

Studying and analysing the impact of Coronavirus COVID-19 on the 2-Methyl-1 3-Propanediol industry, the report provides in-depth analysis and professional advices on how to face the post COIVD-19 period.

2-Methyl-1 3-Propanediol Market 2021: Future Demand, Market Analysis

2-Methyl-2-propyl-1,3-propanediol (MPP) is a simple alkyl diol which has sedative, anticonvulsant and muscle relaxant effects. It is both a synthetic precursor to, and an active metabolite of the tranquilizers meprobamate and carisoprodol, as well as other derivatives. Methyl-propane-diol, also known as MPD, is an organic compound with the chemical formula CH₃OCH₂CH(OH)CH₃. It is a clear, colorless liquid with a faint odor. MPD is miscible with water and soluble in most organic solvents. MPD is produced by the hydrogenation of propionaldehyde. It is used as a building block for the production of polyurethanes, resins, and plasticizers. MPD can also be used as an antifreeze, coolant, and heat-transfer fluid.

2-Methyl-1 3-Propanediol Market report covers the detailed analysis on current and upcoming market trends, company market shares, market projections, competitive benchmarking, competition mapping, and in-depth research of the most significant sustainability strategies and their impact on industry growth and competition. The research was conducted using a combination of primary and secondary data, as well as input from leading industry players.

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The key players covered in the 2-Methyl-1 3-Propanediol market report are:

•    LyondellBasell

•    DAIREN Chemical Corp

Market has segmented the global 2-Methyl-1 3-Propanediol market on the basis of type, application, and region:

By Type:

·         Assay (on a dry basis)

·         Water

·         Color

·         Carbonyl (as -CHO)

·         Iron

 By Application:

·         Unsaturated Polyester Resins

·         Coating

·         Modified PET

·         Personal Care

·         Other

By Regional Outlook (Revenue, USD Billion, 2017 – 2028)

·         North America (U.S., Canada, Mexico)

·         Europe (Germany, U.K., France, Italy, Russia, Spain, Rest of Europe)

·         Asia-Pacific (China, India, Japan, Southeast Asia, Rest of APAC)

·         Middle East & Africa (GCC Countries, South Africa, Rest of MEA)

·         South America (Brazil, Argentina, Rest of South America)

Covid-19 Impact Is Covered in This Report:

The COVID-19 pandemic has had devastating effects on several industry verticals globally. To constrain the number of cases and slow the coronavirus spread, various public health guidelines were implemented in different countries across the globe. COVID-19 protocols ranging from declaring national emergency states, enforcing stay-at-home orders, closing nonessential business operations and schools, banning public gatherings, imposing curfews, distributing digital passes, and allowing police to restrict citizen movements within a country, as well as closing international borders. With the growing vaccination rate, governments are uplifting the protocols to give a boost to the stagnant economy. Like other industries, 2-Methyl-1 3-Propanediol Market have experienced slowdown the growth, however market is expected bounce back as restrictions are being lifted up by governments across the globe.

The research provides an up-to-date analysis of the current market scenario, as well as the current developments and drivers, and the market landscape. Furthermore, the growing demand for 2-Methyl-1 3-Propanediol is expected to propel the industry forward. The 2-Methyl-1 3-Propanediol market analysis is segmented into type, application, and geographic landscape.

Also, the 2-Methyl-1 3-Propanediol market analysis report includes information on upcoming technology trends, restraints, threats, challenges and opportunities that will influence market growth. This is to help companies strategize and leverage all forthcoming growth opportunities. The report contains a comprehensive market and competitive landscape in addition to an analysis of the key vendors.

Report covered the major key points:

•         Explore key findings of the overall market

•         Strategic breakdown of market dynamics (Drivers, Restraints, Opportunities, Challenges)

•         Market forecasts for a minimum of 7years, along with 5 years of historical data for all segments, sub-segments, and regions

•         Market Segmentation caters to a thorough assessment of key segments with their market estimations

Reasons to Purchase the 2-Methyl-1,3-Propanediol Market Report:

·         The report includes a plethora of information such as market dynamics scenario and opportunities during the forecast period

·         Segments and sub-segments include quantitative, qualitative, value (USD Million,) and volume (Units Million) data.

·         Regional, sub-regional, and country level data includes the demand and supply forces along with their influence on the market.

·         The competitive landscape comprises share of key players, new developments, and strategies in the last three years.

·         Comprehensive companies offering products, relevant financial information, recent developments, SWOT analysis, and strategies by these players.

Lupine Publishers|Straw Based Biorefinery

Abstract

In India energy security and exploring the production of valuable chemicals , which are otherwise mostly imported have become imperative necessity The advantage of abundant availability of paddy and its straws, specifically the rice straw in India are taken as an example to establish a perfect Bio-refinery . In these paper possibilities of production of chemicals and energy by Chemical, Biochemical and Thermo chemical platforms are explored. Possible alternatives on the problems of stubble burning in some stares of India are put forward. However, studies on the optimal design, and economic viability of each routes remain to be evaluated.

Introduction

Biorefineries similar to petroleum refineries is a facility developed, engineered and designed optimally where renewable energy (heat & power) and multiples of chemical products and can be profitably manufactured from biomass with best known environmentally benign process technologies through biochemical and thermo chemical platforms. The energy production from bipomass is also Greenhouse neutral. Cellulosic biomass, because of its massive availability, can be a truly biorefinery representing a feedstock for biofuels and valuable chemicals. Agricultural residues such as straws are ideal candidates for establishing a biorefinery in India. Presently major quantity of straws is used as domestic fuels in rural areas. Rice Straw is produced from Rice Paddy. The various products and by-products are shown in the schematic diagram (Figure 1). On an average, there is 20% husks, 10% bran, 3% polishings, 1-17% broken rice and 50-66% polished rice. Generally Rice Paddy by-products is on an average 30% weight of paddy3).

Figure 1: Products and Bye-products from Rice Paddy (2).

The residual wastes (stubbles) are usually burnt in the field which leads to severe air pollution problems due to discharge of gaseous pollutants including CO, Ozone , N2O, NOx, SO2 , CH4, particulate matters ,smokes and smogs, hydrocarbons. Open burning of crop stubble also results in the emissions of harmful chemicals like polychlorinated dibenzo-p-dioxins, polycyclic aromatic hydrocarbons (PAH’s) and polychlorinated dibenzofurans (PCDFs) referred as as dioxins, besides loss of nutritional values of soil intermas of organic carbon, nitrogen, phosphorous and potassium in many states of India, especially Punjab, Haryana, Rajasthan and Uttar Pradesh. This is not that extent in other part of India. The main reasons are: larger length of the stubbles remains after harvesting in those states which cannot be economically covered under soil to enhance the fertility of the land and attempts to burn these long projected straws over the agricultural land. In the following paragraphs some alternatives to straw stubble burning are suggested [1].

Due to continuous depletion of non-renewable energy resources and high cost of chemicals due to import, at present there is a worldwide attention towards development of renewable resources of energy and chemicals for sustainable development for the welfare of mankind. For example: Economic production of bioethanol from lignocellusic biomass. Conversion of lignocellulosic plant materials to biochemicals is also regarded as one of the most promising alternatives to fossil fuels. Most abundantly available biomass in the countries like India and China are straws (rice, wheat, oats, rye, barleys, Zea Mays, corn stalks etc.), out of which rice straw occupies the first position and followed by wheat straw in terms of availability in Eastern, and North Eastern Indian states (West Bengal, Bihar, Assam, Orissa, Manipur etc.) whereas reverse is true for Northern India (U.P. Haryana, Punjab, Rajasthan etc.).

Conventional but Economic Uses of Rice Straw and Stubbles

a) Soil improver to increase the fertility

b) Manuring/Composting with cowdung and others etc.

c) Briquettes

d) mats

e) Mushroom cultivation(as growth substrate)

f) Vegetables Cultivation

g) Animal Bedding material

h) Poultry Litter & Mulch

i) Feed for ruminants/Animal feed

j) Packaging goods for transporting goods &machineries

k) Frost prevention in horticulture

l) Strawberries (preventing damage to the fruit)

m) Thatching

n) Rope making

o) Traditional building materials, fibre boards,Particle board, insulation material

p) Energy (heat, power, fuels)

q) An intergrated solid state fermentation approach for production of enzymes from agro-wastes including straws

Lignocellulosic biomass could thus be utilized for both production of biofuels as well as biochemical’s due to its nature of renewability, low price, widespread availability and containing high content of pentose and hexose sugar polymers. These are detailed elsewhere [2-6]. Straw and Stubbles can be used for various Chemicals, valuable products and energy. The most notable products which can economically manufactured are: Pulp & Paper, Particle Board, Pulp and Paper Board, Straw board, board of rice husk.

Energy technologies and thermal combustion consists of Non- Conventional uses of straws. Valuable chemicals include Cellulose, High Alpha cellulose, Plastics, Fuels and Energy,Bio-gas and in situ, Bio-oil, Nanocellulose and nano composites, Pentosans, Xylose, Xylitol, α-Cellulose, Glucose , Fructose, Hydroxy methyl Furan, Ethanol and host of many other chemicals [7-10]. These are shown in Figure 2.

Refineries based on Cellulose, Ethanol, Sucrose, Glucose, Lignin have been proposed and given elsewhere various Unit Operations and Processes involved to produce a biorefinery are as under:

a) Pulping

b) Gasification

c) Pyrolysis

d) Destructive distillation

e) Plasma Treatment

f) Chemical Treatment

g) Electron Irradiation

Chemical platform

a) Activated carbon

b) Chemical transformation through Catalyst(Sn-beta zeolites)

c) Synthetic Fuel using Solar Furnace

d) Cellulose nano crystals and nanocomposites:

Cellulose nanocrystals have been largely applied as reinforcing fillers in the preparation of nano composites materials with improved mechanical and barrier properties.

Figure 2: Products and Bye-products from Rice Paddy (2).

Bio-chemical platform

Bio-chemical platform

a) Renewable fuels: Ethanol, Biodiesel,Butanol, Hydrogen

b) Chemicals: Acetone,Furfurol,Propanediol, Ketones etc.

c) Organic Acids:Acetic, Lactic , Succinic, Gluconic, Butyric etc.

d) Bio-Energy: Lignate, Methane, Bio-gas, Heat, Electricity

e) Food & Feed: Single Cell Protein,Fat,Fiber, Sugar etc.

Chemistry of Formation

Go to

Monosachharides

D-Xylose,D-glucose, L-arabinose,Xylitol,fructose,D-mannose,Dgalactose

Hemicellulose

Furfural, through acid treatment, Biogas by anaerobic Digestion, concentrating to Animal Feed. Fructose /Fruit sugar →Hydroxymethyl furfural (HMF) →catalytic processes → Plastics, diesel fuel additives, or even diesel fuel [11,12].

Chemical or Biochemical Platforms: Dilute acid hydrolysis of lignocelluloses:

Acids: Carboxylic acids such as formic acid, acetic acid, 3-hydroxy propionic acids, succinic acid, fumaric acids, Malic acids, Itaconic acids, Levulinic acid, Glucaric acids, glucuronic acid, Vanillic acids, Syringic acids, Ferulic acids, p-coumarlic acid. Amino acids like Aspartic acids,Glutamic acids, Aldehyde: Syringaldehyde

Polyphenols: glycerol, Arabitol, Xylitol, Sorbitol Lactones such as 3-hydroxy butyrolactone

Phenolics: p-hydroxy benzoic acids and vanillin However,aldopentose xylose (20-40% of the total carbohydrates are normally found in agricultural residues.

Reaction Schemes (4,9,21,29,30)

Chemical reaction consists of series, parallel and combination of series-parallel reactions

Cellulose (Glucan)→ Oligosaccharides →Glucose →HMF→Levulinic acid

Hemicellulose →Oligosachharides→Sugars( xylose,arabinose, glucose, mannose, galactose)

Pentoses ( Xylose/ Arabinose)→ Furfural→ Furfural resinification and condensation products

Hexoses(Glucose/ Fructose ) → HMF→ Levulinic acid+Formic acid→Succinic acid

Furfural and HMF

Figure 3 Reaction Scheme and Kinetic models are developed (Pentosan( both xylan and arabinan) is hydrolyzed to both aldopentoses which are converted into two or more steps into furfural. Loss of furfural takes place due to side reactions which leads to condensation and to the formation of resins. Both levulinic acid and furfural can be produced from straw or any biomass & levulinic acid can be converted to succinic acid and formic acid [13].

Figure 3: Products and Bye-products from Rice Paddy (2).

Chemistry of formation

Xylan Xylose Furfural: Hexosan →Hexose (Unit Cellulose) → 5-hydroxymethyl-2-furfural + 5-methyl -2-furfural

Mechanism:

Hydrolysis:

xylan + water →H+Xylose

arbinan + water →H+arabinose

Dehydration:

Furan derivatives such as Furfural (2-furaldehyde), HMF (5-hydroxymethyl-2-furaldehyde), 2,5 furan dicarboxylic acids(33-35) are most important chemicals. HMF is produced industrially on a modest scale as a carbon-neutral feedstock for the production of fuels and other chemicals such as levulinic acid, gamma-valerolactone, or other byproducts. HMF itself has few applications and it is primarily produced in order to be converted into other more useful compounds [14-20]. Of these the most important is 2,5-furandicarboxylic acid, which has been proposed as a replacement for terephthalic acid in the production of polyesters. HMF can be converted to 2,5-dimethylfuran (DMF), a liquid that is a potential biofuel with a greater energy content than bioethanol. Hydrogenation gives 2,5-bis(hydroxymethyl) furan. Acid-catalysed hydrolysis converts HMF into gamma-valerolactone, with loss of formic acid. HMF is practically absent in fresh food, but it is naturally generated in sugar-containing food during heat-treatments like drying or cooking. Along with many other flavor- and color-related substances, HMF is formed in the Maillard reaction as well as during caramelization. In these foods it is also slowly generated during storage. Acid conditions favour generation of HMF. HMF is a well known component of baked goods. Upon toasting bread, the amount increases from 14.8 (5 min.) to 2024.8 mg/kg (60 min). It is a good wine storage time−temperature marker, especially in sweet wines such as Madeira and those sweetened with grape concentrate arrope [21-24].

Fermentation Technology

Bio-Ethanol

Sachharomyces cerevisiae, Zymomonous Mobilis, Clostidium thermocellum, Ruminococcus albus- a bacterium are generally used for conversion of cellulose to ethanol. Theoretically 1kg of sucrose on inversion, gives 1.053 kg of invert sugar, glucose and fructose combined together. Further,one tone of invert sugar yields 644.8 litres of absolute alcohol(ethanol of 100% ) or 678.7 litres of rectified spirit.The net CO2 emission of burning a biofuel like ethanol is zero since the cO2 emitted on combustion is equal to that aabsorbed from the atmosphere by photosynthesis during growth of the plant(sugarcane) used to manufacture ethanol.

Inversion: C12H22O11+H2O→C6H12O6+C6H12O6

Sucrose + Water →Invertase→Glucose + Fructose (Invert Sugars)

Fermentation: C6H12O6→2C2H5OH+2CO2+27.8kCals xymase

Oxidation: C2H6O+3O2→2CO2+3H2O+Δ

Combined equation: C6H12O6+6O2→6CO2+6H2O+Δ

6CO2+6h2O+hv(light)→C6H12O6+6O2

Butanol

Biobutanol is produced by microbial fermentation, similar to bioethanol, and can be made from cellulosic feedstocks such as straws. The most commonly used microorganisms are strains of Clostridium acetobutylicum and Clostridium beijerinckii, C. Saccharoperbutylacetonicum and C. saccharobutylicum. In addition to butanol, these organisms also produce acetone and ethanol, so the process is often referred to as the “ABE (acetone-butanolethanol) fermentation [25-30]. Production of lactic acid from straw derived cellulose,cellulase production with Tricoderma citriviridae on solid bed, use of acid hydrolysates for lactic acid production using various strains such as Lactobacillus delbrueckii or lactobacillus pentosus can be explored.A number of products can be produced from sucrose as shown in Figure 4.

Figure 4: Products and Bye-products from Rice Paddy (2).

Anaerobic Digestion

Biogas production (25,31-32), Anaerobic conversion of carbohydrate /cellulosics, especially of agricultural residues , has been considered for biogas ( methane) production which is typically, CH4=50-65%, CO2=35-50%, H2O=30-160g/m3, H2S=1.5-12.5g/ m3 inn presence of methane producing bacteria. Typically some of the methane forming microorganisms likes Methanaomonas, Methanococcous mazei n.sp. methannobacterium sohn genii n.sp. etc. are employed. The two best described pathways involve the use of acetic acid or inorganic carbon dioxide as terminal electron acceptors:

CO2+4h2→CH4+2H2O

CH3COOH→CH4+2CO2

During anaerobic respiration of carbohydrates, H2 and acetate are formed in a ratio of 2:1 or lower, so H2 contributes only ca. 33% to methanogenesis [31], with acetate contributing the greater proportion. In some circumstances, for instance in the rumen, where acetate is largely absorbed into the bloodstream of the host, the contribution of H2 to methanogenesis is greater.

Buswell and Symons universal equation:

CnHaOb+(n-a/4-b/2)H2O→(n/2-a/8+b/4)CO2+(n/2+a/8-b/4)CH4

Thermo-chemical platform

Gasification Technology

The basic principles of Gasification technology are as under:

a. Steam Reforming of Straws:

Superheated steam reacts endothermally (consumes heat) with the carbonaceous components of straws to produce hydrogen and carbon monoxide fuel gases (synthesis gas or syngas)

b. Steam Reforming reaction: H2 O +C + Heat → H2 +CO

Water –gas shift reactions also occur simultaneously with the steam reforming reactions to yield additional hydrogen and carbon dioxide.

c. Water gas shift reaction: H2 O +CO→ H2- +CO2

Conclusion

India being an agriculture based country with plenty of biomass renewable resources can produce potential bio-products and bio energy at a cheaper rate compared to other renewable sources. Being carbon neutral these resources is eco friendly, yields much less green house gaseous emissions compared to fossil fuels [32- 37]. In this present paper various alternatives for straw utilization, specifically the plausible solutions of current problems of straw stubble burnings in a few Indian states are highlighted. However detailed optimum design of process and plant with economic feasibility need to work out.

2-Methyl-1, 3-Propanediol Market Seeking Growth Emerging Players (2019-2025) - LyondellBasell, DAIREN Chemical Corp, Global

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Key Manufacturers Diagnosis:

LyondellBasell, DAIREN Chemical Corp, Global

The Market is Segmented by Product Type as Follows:

Assay (on a dry basis)

Water

Color

Carbonyl (as -CHO)

Iron

Breakdown Information by Application and Market Share and Growth, Covering:

Unsaturated Polyester Resins

Coating

Modified PET

Personal Care

Others

Total

Each geographic segment of the market was independently examined with pricing and analysis, distribution, and demand data for geographic market notably:

Americas, United States, Canada, Mexico, Brazil, APAC, China, Japan, Korea, Southeast Asia, India, Australia, Europe, Germany, France, UK, Italy, Russia, Spain, Middle East & Africa, Egypt, South Africa, Israel, Turkey, GCC Countries

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This report studies 2-Methyl-1, 3-Propanediol in Global market, especially in North America, China, Europe, Southeast Asia, Japan and India, with production, revenue, consumption, import and export in these regions, from 2012 to 2016, and forecast to 2022. This report focuses on top manufacturers in global market, with production, price, revenue and market share for each manufacturer, covering LyondellBasell DAIREN CHEMICAL CORP Perstorp ... On the basis of product, this report displays the production, revenue, price, market share and growth rate of each type, primarily split into Chemical Grade Laboratory Grade By Application, the market can be split into Plasticizer Adhesive Painting Personal Care Products By Regions, this report covers (we can add the regions/countries as you want) North America China Europe Southeast Asia Japan India If you have any special requirements, please let us know and we will offer you the report as you want.

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1,4-Dichlorobenzene (p-DCB, para-dichlorobenzene) is an organic compound with the formula C6H4Cl2. This colorle solid has a strong odor. In terms of its structure, the molecule consists of two chlorine atoms substituted for hydrogen at opposing sites on a benzene ring. The p-DCB is used a pesticide and a deodorant, most familiarly in mothballs in which it is a replacement for the more traditional naphthalene. p-DCB is also used as a precursor in the production of the polymer poly(p-phenylene sulfide).

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Pruduct types

CP purity is more than 99.0%

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Global 2-Methyl-1, 3-Propanediol Market Growth 2018: DAIREN Chemical Corp, LyondellBasell and Global

Global 2-Methyl-1, 3-Propanediol Market Growth 2018: DAIREN Chemical Corp, LyondellBasell and Global

Global 2-Methyl-1, 3-Propanediol Market Reportcomprises of all the fundamental data with respect to the market. The comprehensive report will help to comprehend the market current flow and patterns, industry development drivers, market share, sales volume, informative diagrams, supply and demand, and numerous different aspects. The report was proficient in utilizing a target amalgamation of…

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Global 2-Methyl-1, 3-Propanediol Market 2017- DAIREN Chemical Corp and LyondellBasell

Global 2-Methyl-1, 3-Propanediol Market 2017- DAIREN Chemical Corp and LyondellBasell

Global 2-Methyl-1, 3-Propanediol Market research report starts with basic introduction of 2-Methyl-1, 3-Propanediol market, basic definitions, end-user applications, classifications and industry chain structure. The report also predicts upcoming 2-Methyl-1, 3-Propanediol markettendencies by analyzing past market values and current 2-Methyl-1, 3-Propanediol market needs. Comparison of past,…

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Global 2-Methyl-1, 3-Propanediol Market Forecast to 2022: by Key Players, Application, Type and Region

Global 2-Methyl-1, 3-Propanediol Market Forecast to 2022: by Key Players, Application, Type and Region

The Report Study On Global 2-Methyl-1, 3-Propanediol Market 2017 offers an inherent and described analysis of 2-Methyl-1, 3-Propanediol industry which helps company executives, industry investors, and industry participants with in-depth intuition to enable them make informed vital decisions regarding the opportunities in the global 2-Methyl-1, 3-Propanediol market.

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Wir konzentrieren uns auf kundenspezifische Synthese organische Chemikalien, engagieren sich aktiv in F & E in allen Phasen und bieten Contract Research und Manufacturing Services (CRAMS) für globale Unternehmen in der pharmazeutischen Industrie. Kontaktieren Sie uns per [email protected]. FORSCHUNGSEINRICHTUNGEN Organisches Syntheselabor Analytisches Laboratorium Mikrobiologische Forschung und Testlabor Alle Produkte im Zusammenhang mit Patenten sind nur als F & E-Gebrauch zu liefern, keine kommerzielle Verkaufsvereinbarung. Www.pharm-china.com Hauptproduktliste sind als unten:

Product CAS No. Luliconazole CAS NO:187164-19-8 Dexlansoprazole CAS NO:138530-94-6 Pirfenidone CAS NO:53179-13-8 Isothipendyl hydrochloride CAS NO:1225-60-1 Tofacitinib citrate CAS NO: 540737-29-9   Vorapaxar Sulfate CAS No:705260-08-8 escitalopram oxalate CAS NO: 219861-08-2 Teneligliptin CAS NO: 760937-92-6 Dapagliflozin CAS No：461432-26-8 Dasatinib CAS No：302962-49-8 Linagliptin CAS No：668270-12-0 Canagliflozin hemihydrate CAS No：928672-86-0 Saxagliptin hydrochloride CAS No：709031-78-7 Saxagliptin hydrate CAS No：945667-22-1 Alogliptin benzoate CAS No：850649-62-6 Empagliflozin CAS No：864070-44-0 Ipragliflozin CAS No：761423-87-4 Ipragliflozin L-Proline CAS No：951382-34-6 Trelagliptin CAS No：865759-25-7 Omarigliptin CAS No：1226781-44-7 Sitagliptin CAS No：486460-32-6 Vildagliptin CAS No：274901-16-5 Ticagrelor CAS No：274693-27-5 Milrinone lactate CAS No：100286-97-3 Raltegravir potassiu CAS No：871038-72-1 Rivaroxaban CAS No：366789-02-8 Pitavastatin calcium CAS No：147526-32-7 Voxilaprevir CAS No：1535212-07-7 Ivabradine hydrochloride CAS No：148849-67-6 Silodosin CAS No：160970-54-7 Tasimelteon CAS No：609799-22-6 Lifitegrast CAS No：1025967-78-5 Sofosbuvir CAS No：1190307-88-0 Ledipasvir CAS No：1256388-51-8 Dapagliflozin propanediol CAS No：461432-26-8 Cobimetinib CAS No：934660-93-2 Huperzine A CAS No.：102518-79-6 Omarigliptin (MK-3102) CAS No：1226781-44-7 Eluxadoline CAS NO:864821-90-9 RU-58841 (also known as PSK-3841 or HMR-3841) CAS No：154992-24-2 Setipiprant CAS No：866460-33-5 CB-03-01 CAS No：19608-29-8 2-[1-BENZYL-4-PIPERIDYL]-2-PHENYLGLUTARIMIDE CAS No：5633-14-7 Saquinavir CAS No：149845-06-7 Sorafenib CAS No：284461-73-0 Hexachlorophene CAS No：70-30-4 Osimertinib mesylate CAS No：1421373-66-1 Mirabegron CAS No.:223673-61-8 Vortioxetine CAS No.:508233-74-7 Apremilast CAS No. 608141-41-9 Empagliflozin CAS No.864070-44-0 Palbociclib CAS NO.571190-30-2 bortezomib intermedate CAS NO.179324-87-9 CAS NO. 18680-27-8 bortezonib CAS NO 179324-69-7 Bleomycin Sulfate CAS NO.: 9041-93-4 Ethyl 2,2-difluoro-3-aminopropanoate hydrochloride CAS NO 541547-37-9 2-Bromo-5-hydroxypyrazine CAS NO 374063-92-0 2-Bromo-5-aminopyrazine CAS NO 59489-71-3 (S)-1-(2,6-Dichloro-3-fluorophenyl)ethanol CAS NO 877397-65-4 (R)-1-(2,6-Dichloro-3-fluorophenyl)ethanol CAS NO 330156-50-8 (S)-(-)-2-(Boc-amino)-1,4-butanediol CAS NO 128427-10-1 (R)-(+)-2-(Boc-amino)-1,4-butanediol CAS NO 397246-14-9 N-Boc-hexahydro-1H-azepin-4-one CAS NO 188975-88-4 (1R,4R)-4-(Boc-amino)cyclopent-2-enecarboxylic acid CAS NO 298716-03-7 (1S,2S)-(+)-Cyclohexane-1,2-diamine D-tartrate salt CAS NO 67333-70-4 (1R,2R)-(-)-Cyclohexane-1,2-diamine L-tartrate salt CAS NO 39961-95-0 1-Boc-3-(R )-aminopyrrolidine CAS NO 147081-49-0 3-Fluoro-1H-isoindoline hydrochloride CAS NO 924305-06-6 3-Bromo-1H-isoindoline hydrochloride CAS NO 923590-95-8 (1R,2S,3R,4S)-rel-1,7,7-Trimethylbicyclo[2.2.1]heptane-2,3-diol CAS NO 56614-57-4 Oxetan-3-ol CAS NO 7748-36-9 (S)-3-Aminotetrahydrofuran tosylate CAS NO 104530-79-2 (R)-3-Aminotetrahydrofuran tosylate CAS NO 111769-27-8 3-Oxocyclobutanecarboxylic acid CAS NO 23761-23-1 Sitagliptin Phosphate Intermediates CAS NO 12092-47-6 CAS NO 209995-38-0 CAS NO 762240-92-6 CAS NO 767340-03-4 CAS NO 486460-00-8 Vildagliptin Intermediates CAS NO 207557-35-5 Linagliptin Intermediates CAS NO 853029-57-9 CAS NO 666816-98-4 CAS NO 93703-24-3 CAS NO 109113-72-6 CAS NO 334618-23-4 CAS NO 309956-78-3 Saxagliptin Intermediates CAS NO 361442-00-4 CAS NO 361440-67-7 Bendamustine hydrochloride Intermediates CAS NO 3543-73-5 CAS NO 3543-74-6 Sofosbuvir Intermedaites CAS NO 1334513-02-8 CAS NO 863329-66-2 Ledipasvir Intermedaites CAS NO 1441670-89-8 CAS NO 1256387-87-7 Ivabradine hydrochloride Intermediates CAS NO 866783-13-3 CAS NO 35202-54-1 CAS NO 20925-64-8 CAS NO 73942-87-7 CAS NO 85175-59-3 CAS NO 148870-57-9 Temocapril hydrochloride Intermediates CAS NO 110221-26-6 CAS NO 88767-98-0 Dapagliflozin Intermediates CAS NO 461432-22-4 CAS NO 461432-23-5 CAS NO 461432-24-6 Canagliflozin Intermediates CAS NO 898566-17-1 CAS NO 1030825-20-7 Empagliflozin Intermediates CAS NO 915095-86-2 CAS NO 915095-87-3 CAS NO 915095-94-2 CAS NO 1279691-36-9 Ipragliflozin Intermediates CAS NO 1034305-21-9 CAS NO 1034305-17-3 Alogliptin Intermediates CAS NO 865758-96-9 Trelagliptin Intermediates CAS NO 4318-56-3 CAS NO 421552-12-7 Tasimelteon Intermediates CAS NO 230642-84-9 Silodosin Intermediates CAS NO 239463-85-5 CAS NO 160969-03-9 2-Diphenylmethylpiperidinehydrochloride CAS NO 5807-81-8 2,6-Dimethyl Hydroquinone CAS NO 654-42-2 2-Methyl-1-nitronaphthalene CAS NO 881-03-8 4-vinyl-2,3-dihydrobenzofuran CAS NO 230642-84-9 2,3-Dihydrobenzo[b]furan-5-carbaldehyde CAS NO 55745-70-5 2,3-Dihydro-1-benzofuran-5-propanoic acid CAS NO 215057-28-6 2-Pyrazinecarboxylic acid CAS NO 98-97-5 3-Amino-5-methylpyrazole CAS NO 31230-17-8 2-[2-(2-Thienyl)ethyl]benzoicacid CAS NO 1622-54-4 2-Ethoxycinnamic acid CAS NO 69038-81-9 Hexylamine CAS NO 111-26-2 1,1,3,3-Tetramethylguanidine CAS NO 80-70-6 Diethylamine hydrochloride CAS NO 660-68-4 2-Chloro-3,4-dimethoxybenzamide CAS NO 175136-02-4 2,3,4,6-Tetra-O-benzyl-D-galactopyranos CAS NO 53081-25-7 N-Methyl-N-[3-[3-(thien-2-ylcarbonyl)pyrazolo[1,5-a]pyrimidin-7-yl]phenyl]acetamide CAS NO 325715-02-4 Dodecylamine CAS NO 124-22-1 Dipropylsulfide CAS NO 111-47-7 7-Methoxycoumarin CAS NO 531-59-9 2-Hexyne CAS NO 764-35-2 N-[2-(2-Acetamidophenyl)ethyl]-1-hydroxy-2-naphthamide CAS NO 5254-41-1 Methyl 4-Chloronicotinate CAS NO 63592-85-8 3-Chlorothiophene CAS NO 17249-80-8 4-Propoxycinnamic acid CAS NO 69033-81-4 4-Bromomethyltetrahydropyran CAS NO 125552-89-8 Methyl 3-[(1,3-Dioxo-1,3-dihydro-2H-isoindol-2-yl)methyl]benzoate CAS NO 781632-38-0 Di-tert-butyl azodicarboxylate CAS NO 870-50-8 Anthrone CAS NO 90-44-8 Methyl 2-(2-Furyl)benzoate CAS NO 39732-01-9 3-bromo-4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)pyridine CAS NO 458532-92-8 benzyl 2,4-difluorophenylcarbamate CAS NO 112434-18-1 7-fluoro-1H-indazole-3-carboxylic acid CAS NO 959236-59-0 2-(2-bromo-6-nitrophenyl)ethanol CAS NO 118665-02-4 2,4-dichloropyridin-3-amine CAS NO 173772-63-9 2,2-dimethylpropanethioamide CAS NO 630-22-8 1-(2-amino-4-methylthiazol-5-yl)ethanone CAS NO 30748-47-1 2-(benzyloxy)-1-bromo-4-fluorobenzene CAS NO 202857-88-3 4-bromo-2-methoxyphenylboronic acid CAS NO 889849-21-2 3-BROMO-4-OXO-PYRROLIDINE-1-CARBOXYLIC ACID TERT-BUTYL ESTER CAS NO 885278-03-5 (S)-tert-butyl 2-(4-(4-chlorophenyl)-2,3,9-trimethyl-6H-thieno[3,2-f][1,2,4]triazolo[4,3-a][1,4]diazepin-6-yl)acetate CAS NO 1268524-70-4 3-fluoro-4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)pyridine CAS NO 458532-88-2 [1-(tert-butyl-dimethyl-silanyl)-5-fluoro-1H-indol-4-yl]boronic acid CAS NO 1093066-72-8 1-(2-amino-4-methylthiazol-5-yl)ethanone CAS NO 30748-47-1 3-bromo-5-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)pyridine CAS NO 452972-13-3 benzyl 5-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)pyridin-3-ylcarbamate CAS NO 1218790-11-4 tert-butyl 5-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)pyridin-2-ylcarbamate CAS NO 910462-31-6 4-methyl-3-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)pyridine CAS NO 1171891-31-8 2-methoxypyridin-3-ylboronic acid CAS NO 163105-90-6 5-methoxypyridin-3-ylboronic acid CAS NO 850991-69-4 2-bromo-5-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)pyridine CAS NO 214360-62-0 3-chloro-4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)pyridine CAS NO 458532-90-6 2-chloro-4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)pyridine CAS NO 458532-84-8 3-fluoro-5-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)pyridine CAS NO 719268-92-5 2-fluoro-3-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)pyridine CAS NO 452972-14-4 2-[(3-CHLOROPROPYL)SULFANYL]PROPANENITRILE CAS NO 940315-21-9 3-cyano-2-hydroxybenzoic acid CAS NO 67127-84-8 1-isopropyl-1H-1,2,4-triazole CAS NO 63936-02-7 3-bromofuran-2-carboxylic acid CAS NO 14903-90-3 tert-butyl 2-carbamoylfuran-3-ylcarbamate CAS NO 655255-07-5 N-methyl-5-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)pyrimidin-2-amine CAS NO 904326-88-1 2-(dibenzo[b,d]furan-4-yl)-4,4,5,5-tetramethyl-1,3,2-dioxaborolane CAS NO 912824-85-2 4,4,5,5-tetramethyl-2-(furanyl-2-yl)-1,3,2-dioxaborolane CAS NO 374790-93-9 BOC-N-Methyl-L-alanine CAS NO 16948-16-6 pyridine-2,4-diol CAS NO 84719-31-3 tert-butyl 2-bromo-6-chloropyridin-3-ylcarbamate CAS NO 1227958-32-8 6-chloropyridin-2-amine CAS NO 45644-21-1 5-bromo-6-chloro-3-iodopyridin-2-amine CAS NO 1207625-23-7 5-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)-4-(trifluoromethyl)pyrimidin-2-amine CAS NO 944401-58-5 2-(dibenzo[b,d]thiophen-4-yl)-4,4,5,5-tetramethyl-1,3,2-dioxaborolane CAS NO 912824-84-1 2-(benzyloxy)-1-bromo-4-fluorobenzene CAS NO 202857-88-3 2-(benzo[d][1,3]dioxol-5-yl)-4,4,5,5-tetramethyl-1,3,2-dioxaborolane CAS NO 94838-82-1 4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)isoquinoline CAS NO 685103-98-4 4-benzylpiperidine hydrochloride CAS NO 31252-42-3 5-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)-4-(trifluoromethyl)pyrimidin-2-amine CAS NO 944401-58-5 5-bromo-4-(trifluoromethyl)pyrimidin-2-amine CAS NO 935534-47-7 benzyl 2,4-difluorophenylcarbamate CAS NO 112434-18-1 7-fluoro-1H-indazole-3-carboxylic acid CAS NO 959236-59-0 2-(2-bromo-6-nitrophenyl)ethanol CAS NO 118665-02-4 2,4-dichloropyridin-3-amine CAS NO 173772-63-9 2,2-dimethylpropanethioamide CAS NO 630-22-8 2-chloro-N-methoxy-N-methylacetamide CAS NO 67442-07-3 3,5-dimethyl-4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolane-2-yl)isoxazole CAS NO 832114-00-8

Global 2-Methyl 3-Propanediol Market 2017 - DAIREN Chemical Corp

Global 2-Methyl 3-Propanediol Market 2017 – DAIREN Chemical Corp

Global 2-Methyl 3-Propanediol Market 2017 report presents the fresh industry data and forthcoming industry trends, allowing you to pinpoint the products and clients driving Revenue growth and profitability.

The report Global 2-Methyl 3-Propanediol Market offers a comprehensive and executive-level overview,including definitions, classifications and its applications. The 2-Methyl 3-Propanediol…

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Global 2-Methyl-1, 3-Propanediol Market Industry Size, Share, Trends & Forecast to 2022

Global 2-Methyl-1, 3-Propanediol Market Industry Size, Share, Trends & Forecast to 2022

2017-2022 Global 2-Methyl-1, 3-Propanediol Market Report

The report titled “Global 2-Methyl-1, 3-Propanediol Market” gives a proper understanding of global 2-Methyl-1, 3-Propanediol industry. Furthermore it also cover-up forecast and analysis for 2-Methyl-1, 3-Propanediol market on the global and regional level. The report analyses 2-Methyl-1, 3-Propanediol market on basis of its attractiveness…

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Snapshot This report covers 2-Methyl-1, 3-Propanediol basic market data by segment: 1 by Product 2 by End-User 3 by Company 4 by Region 5 by Channel 6 by Price This report can also be customized according to further requirements.

Summary Key Content of Chapters (Including and can be customized) Part 1: Market Overview, Development, and Segment by Type, Application & Region Part 2: Global Market by company, Type, Application & Region Part 3: Asia Market by company, Type, Application & Region Part 4-10: Key Regions of Asia Market by Type, Application Part 11: Company information, Sales, Cost, Margin etc. Part 12: Conclusion Market Segment as follows: By Region Global (Asia, Europe, America etc.) Asia (China, Southeast Asia, India, Japan, Korea, Western Asia, Others) Key Companies LyondellBasell DAIREN Chemical Corp Global Market by Type Assay (on a dry basis) Water Color Carbonyl (as -CHO) Iron Market by Application Unsaturated Polyester Resins Coating Modified PET Personal Care Others Total

Global and China 2-Methyl-1, 3-Propanediol Market Research by Company, Type & Application 2013-2025

Global and China 2-Methyl-1, 3-Propanediol Market Research by Company, Type & Application 2013-2025

Summary Date Published: 20/10/2017 Region: Global Delivery Format: Email PDF + Excel Pages: 97.0 Category: Chemicals and Materials Market Segment as follows:By Type Assay (on a dry basis) Water Color Carbonyl (as -CHO) IronBy Application Unsaturated Polyester Resins Coating Modified PET Personal Care Others TotalBy Company LyondellBasell DAIREN Chemical Corp Global Browse complete report with…

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Research On World 1,2-Propanediol Market Report 2025

This unique report on World 1,2-Propanediol Market till 2025 presents quality data on the global market revenue, sales, growth rate and leading market players. The supply chain analysis completes the 1,2-Propanediol market understanding for a new entrant as well as existing players. The import and export data along with consumption statistics from major countries is sure to enrich the strategists understanding of the market.

1,2-Propanediol market research report provides the newest industry data and industry future trends, allowing you to identify the products and end users driving revenue growth and profitability.

The industry report lists the leading competitors and provides the insights strategic industry analysis of the key factors influencing the market.

The report includes the forecasts, analysis and discuion of important industry trends, market size, market share estimates and profiles of the leading industry players.

Final Report will cover the impact of COVID-19 on this industry.

Browse the complete report and table of contents @ https://www.decisiondatabases.com/ip/47555-world-12-propanediol-market-report

The players mentioned in our report

Dow

Lyondell Basell

INEOS

BASF

ADM

Sumitomo Chemical (Nihon Oxirane)

SKC

Repsol

Asahi Kasei

Huntsman

Shell

Tongling Jintai Chemical

Shandong Shida Shenghua Chemical

CNOOC and Shell Petrochemicals

Hi-tech Spring Chemical

Daze Group

Shandong Depu Chemical

Global 1,2-Propanediol Market: Product Segment Analysis

Industrial Grade

Food Grade

Pharmaceutical Grade

Global 1,2-Propanediol Market: Application Segment Analysis

Unsaturated Polyester Resins (UPR)

Functional Fluids

Cosmetics, Pharmaceutics and Food

Liquid Detergents

Others

Global 1,2-Propanediol Market: Regional Segment Analysis

USA

Europe

Japan

China

India

South East Asia

Download Free Sample Report of World 1,2-PropanediolMarket @ https://www.decisiondatabases.com/contact/download-sample-47555

There are 10 Chapters to deeply display the World 1,2-Propanediol market. Chapter 1 About the 1,2-Propanediol Industry Chapter 2 World Market Competition Landscape Chapter 3 World 1,2-Propanediol Market share Chapter 4 Supply Chain Chapter 5 Company Profiles Chapter 6 Globalisation & Trade Chapter 7 Distributors and Customers Chapter 8 Import, Export, Consumption and Consumption Value by Major Countries Chapter 9 World 1,2-Propanediol Market Forecast through 2025 Chapter 10 Key succe factors and Market Overview

Purchase the complete World 1,2-PropanediolMarket Research Report @ https://www.decisiondatabases.com/contact/buy-now-47555

Other Reports by DecisionDatabases.com:

World 2-Methyl-1, 3-Propanediol Market Research Report 2025(covering USA, Europe , South East Asia, China, India and etc )

World 1-Bromopropane Market Research Report 2025(covering USA, EU, China, South East Asia, Japan and etc)

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