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Polypropylene Multifilament Yarn - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Plant Layout

Polypropylene multifilament yarns comprise a great member of parallel filaments which are in no way tied together. It is used for making various sizes of rope which have more strength and abrasion, resistant for general use. Low density polypropylene filaments are used in making mosquito net clothings. Due to resistance of water absorbity, soft in touch and durability, textured polypropylene filament yarns are used in making fabrics. For marine purpose, polypropylene filament yarns are used in making line or anchor rope. Polypropylene is one of the hot derivative market. It is the biggest volume outlet for propylene, and its consumption is booming world wide. There is very good market for new entrepreneurs.
Plant capacity: 2 MT/DayPlant & machinery: 81 Lakhs
Working capital: -T.C.I: 266 Lakhs
Return: 37.00%Break even: 50.00%
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Acrylic Acid from Propylene - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Acrylic acid is a versatile chemical that can be esterified, aminated or otherwise modified and polymerized to complex molecular arrangements to suit requirements. It has served, for more than 30 years, as an essential building block in the production of some of our most commonly used industrial and consumer products. Approximately, two-thirds of the acrylic acid manufactured is used to produce acrylic esters-methyl acrylate, butyl acrylate, ethyl acrylate, and 2-ethyl hexyl acrylate when polymerized are ingredients in paints, coatings, textiles, adhesives, plastics, and many other applications. The remaining one-third of the acrylic acid is used to produce polyacrylic acid, or cross-linked poly acrylic compounds which have been successfully used in the manufacture of hygienic products, detergents, and waste water treatment chemicals. Polymers of acrylic acid can be produced as super absorbent materials, and soluble as a replacement for phosphates in detergents. Both of these represents fast – growing application for acrylic acid. The economic route acrylic compounds is through propylene as can be seen from the rapid and wide spread change to propylene as a raw materials for acrylonitrile. Similarly the direct oxidation of propylene to acrylic acid is the subject of much attention even though it has not yet attained commercial success of the degree by the acrylonitrile process. Acrylic ester on other hand are projected to grown at only about that rate at 3 per cent per year. As a lower technical grade to produce acrylic ester, typically about on-quarter of world production today is sold as the high purity glacial form. The demand of acrylic acid is good, so new entrepreneurs can well venture into this field.
Plant capacity: 16,000 MT/AnnumPlant & machinery: 516 Lakh
Working capital: -T.C.I: 116 crores
Return: 43.00%Break even: 35.00%
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SURGICAL SUTURES MATERIALS (Surgical Gut, Polyglactin, Polyglycolic Acid, Poliglecaprone, Polydioxanone, Nylon, Polypropylene, Polyester) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey

General classification of sutures includes natural and synthetic, absorbable and non absorbable and monofilament and multifilament. Natural materials are more traditional and are still used in suturing today. Synthetic materials cause less reaction and the resultant inflammatory reaction around the suture materials is minimized. Absorbable sutures are applicable to a wound that heals quickly and needs minimal temporary support. Their purpose is to alleviate tension on wound edges. The newer synthetic absorbable sutures retain their strength until the absorption process starts. Non-absorbable sutures offer longer mechanical support. The absorbable sutures include the monofilamentous monocryl (poliglecaprone), Maxon (Polyglycolidetrimethylene carbonate), and PDS (Polyglactin) and Dexon (Polyglycolic acid). Nonabsorbable sutures comprise nylon, prolene (Polypropylene), Novafil (Polybuster), PTFE (Polytetra fluoroethylene), steel and polyester. Nylon and steel sutures can be monofilaments or multifilaments. Prolene, Novafil and PTFE are monofilaments. Braided sutures are typically more pliable than monofilament and exhibit better knot security when the same type of knot is used. Their major advantage is that they exhibit less tissue drag, a characteristic that is especially important for cardiovasculary ophthalmic and neurological surgeries. A recent source in the literature lists eight objective and three subjective parameters for suture selection based on criteria such as tensile strength, strength retention, knot security, tissue drag, infection potential and case of tying. So, there is good future prospect for this industry and new entrepreneur enter in this project will be successful.
Plant capacity: 12000 PCS/dayPlant & machinery: 856 Lakhs
Working capital: -T.C.I: 1673 Lakhs
Return: 42.00%Break even: 38.00%
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Ethylene Propylene Diene Monomer (EPDM) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

Ethylene Propylene Diene Monomer (M-Class) rubber or Ethylene-propylene rubbers & elastomers (also called EPDM and EPM) continue to be one of the most widely used and fastest growing synthetic rubbers having both specialty and general-purpose applications. The E refers to Ethylene, P to Propylene, D to diene and M refers to its classification in ASTM standard D-1418. The “M” class includes rubbers having a saturated chain of the polymethylene type. The diene(s) currently used in the manufacture of EPDM rubbers are DCPD (dicyclopentadiene), ENB (ethylidene norbornene) and VNB (vinyl norbornene). The ethylene content is around 45% to 75%. The higher the ethylene content the higher the loading possibilities of the polymer, better mixing and extrusion. Peroxide curing these polymers gives a higher crosslink density compared with their amorphous counterpart. The amorphous polymers are also excellent in processing. This is very much influenced by their molecular structure. The dienes, typically comprising between 2.5 wt% up to 12 wt% of the composition serve as crosslinks when curing with sulphur and resin, with peroxide cures the diene (or third monomer) functions as a coagent, which provide resistance to unwanted tackiness, creep or flow during end use.Ethylene-propylene rubbers are valuable for their excellent resistance to heat, oxidation, ozone and weather aging due to their stable, saturated polymer backbone structure. Properly pigmented black and non-black compounds are color stable. Versatility in polymer design and performance has resulted in broad usage in automotive weather-stripping and seals, glass-run channel, radiator, garden and appliance hose, tubing, belts, electrical insulation, roofing membrane, rubber mechanical goods, plastic impact modification, thermoplastic vulcanizates and motor oil additive applications. The solution polymerization process is the most widely used and is highly versatile in making a wide range of polymers. Ethylene, propylene, and catalyst systems are polymerized in an excess of hydrocarbon solvent. Stabilizers and oils, if used, are added directly after polymerization. The solvent and unreacted monomers are then flashed off with hot water or steam, or with mechanical devolatilization. The polymer, which is in crumb form, is dried with dewatering in screens, mechanical presses or drying ovens. The crumb is formed into wrapped bales or extruded into pellets. The high viscosity, crystalline polymers are sold in loosely compacted, friable bales or as pellets. The amorphous polymers grades are typically in solid bales. Major producers and suppliers of EPDM and EPM are Bayer Polymers, Crompton Corp., Exxon-Mobil Chemical Co., DSM Elastomers, Dupont Dow Elastomers, Herdillia, JSR, Kumho Polychem, Mitsui Chemicals, Polimeri Europa, and Sumitomo Chemical Co. Wide ranges of grades are available worldwide to provide solutions to many product requirements. There are three major commercial processes, solution, slurry (suspension) and gas-phase, for manufacturing ethylene-propylene rubbers. The manufacturing systems vary with each of the several producers. There are differences in the product grade slates made by each producer and process, but all are capable of making a variety of EPDM and EPM polymers. The physical forms range from solid to friable bales, pellets and granular forms and oil blends. Ethylene-propylene elastomers are one of the most versatile, fastest growing and interesting synthetic rubber polymers with various end uses.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Ethylene Propylene Diene Monomer (EPDM) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

Ethylene Propylene Diene Monomer (M Class) rubber or Ethylene propylene rubbers & elastomers (also called EPDM and EPM) continue to be one of the most widely used and fastest growing synthetic rubbers having both specialty and general purpose applications. The E refers to Ethylene, P to Propylene, D to diene and M refers to its classification in ASTM standard D 1418. The M class includes rubbers having a saturated chain of the polymethylene type. The diene(s) currently used in the manufacture of EPDM rubbers are DCPD (dicyclopentadiene), ENB (ethylidene norbornene) and VNB (vinyl norbornene). The ethylene content is around 45% to 75%. The higher the ethylene content the higher the loading possibilities of the polymer, better mixing and extrusion. Peroxide curing these polymers gives a higher crosslink density compared with their amorphous counterpart. The amorphous polymers are also excellent in processing. This is very much influenced by their molecular structure. The dienes, typically comprising between 2.5 wt% up to 12 wt% of the composition serve as crosslinks when curing with sulphur and resin, with peroxide cures the diene (or third monomer) functions as a coagent, which provide resistance to unwanted tackiness, creep or flow during end use.Ethylene propylene rubbers are valuable for their excellent resistance to heat, oxidation, ozone and weather aging due to their stable, saturated polymer backbone structure. Properly pigmented black and non-black compounds are color stable. Versatility in polymer design and performance has resulted in broad usage in automotive weather stripping and seals, glass run channel, radiator, garden and appliance hose, tubing, belts, electrical insulation, roofing membrane, rubber mechanical goods, plastic impact modification, thermoplastic vulcanizates and motor oil additive applications. The solution polymerization process is the most widely used and is highly versatile in making a wide range of polymers. Ethylene, propylene, and catalyst systems are polymerized in an excess of hydrocarbon solvent. Stabilizers and oils, if used, are added directly after polymerization. The solvent and unreacted monomers are then flashed off with hot water or steam, or with mechanical devolatilization. The polymer, which is in crumb form, is dried with dewatering in screens, mechanical presses or drying ovens. The crumb is formed into wrapped bales or extruded into pellets. The high viscosity, crystalline polymers are sold in loosely compacted, friable bales or as pellets. The amorphous polymers grades are typically in solid bales. Major producers and suppliers of EPDM and EPM are Bayer Polymers, Crompton Corp., Exxon-Mobil Chemical Co., DSM Elastomers, Dupont Dow Elastomers, Herdillia, JSR, Kumho Polychem, Mitsui Chemicals, Polimeri Europa, and Sumitomo Chemical Co. Wide ranges of grades are available worldwide to provide solutions to many product requirements. There are three major commercial processes, solution, slurry (suspension) and gas phase, for manufacturing ethylene propylene rubbers. The manufacturing systems vary with each of the several producers. There are differences in the product grade slates made by each producer and process, but all are capable of making a variety of EPDM and EPM polymers. The physical forms range from solid to friable bales, pellets and granular forms and oil blends. Ethylene propylene elastomers are one of the most versatile, fastest growing and interesting synthetic rubber polymers with various end uses.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Polypropylene (PP) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Profile Polypropylene (PP), also known as polypropene, is a thermoplastic polymer used in a wide variety of applications including packaging and labelling, textiles (e.g., ropes, thermal underwear and carpets), stationery, plastic parts and reusable containers of various types, laboratory equipment, loudspeakers, automotive components, and polymer banknotes. An addition polymer made from the monomer propylene, it is rugged and unusually resistant to many chemical solvents, bases and acids. Properties Most commercial polypropylene is isotactic and has an intermediate level of crystallinity between that of low-density polyethylene (LDPE) and high-density polyethylene (HDPE). Polypropylene is normally tough and flexible, especially when copolymerized with ethylene. This allows polypropylene to be used as an engineering plastic, competing with materials such as ABS. Polypropylene is reasonably economical, and can be made translucent when uncolored but is not as readily made transparent as polystyrene, acrylic, or certain other plastics. It is often opaque or colored using pigments. Polypropylene has good resistance to fatigue. • Perfectly isotactic PP: Melting Point : 171 °C (340 °F). • Commercial isotactic PP :melting point : 160 to 166 °C (320 to 331 °F), • Syndiotactic PP : crystallinity of: 30% has a melting point of 130 °C (266 °F). There are three general types of polypropylene: homopolymer, random copolymer, and block copolymer. The co-monomer is typically used with ethylene. Ethylene-propylene rubber or EPDM added to polypropylene homopolymer increases its low temperature impact strength. Randomly polymerized ethylene monomer added to polypropylene homopolymer decreases the polymer crystallinity and makes the polymer more transparent. Application: Polypropylene is used in many different settings, both in industry and in consumer goods. It can be used both as a structural plastic and as a fiber. Polypropylene is used in the manufacturing piping systems; both ones concerned with high-purity and ones designed for strength and rigidity (e.g. those intended for use in potable plumbing, hydronic heating and cooling, and reclaimed water). • This material is often chosen for its resistance to corrosion and chemical leaching, its resilience against most forms of physical damage, including impact and freezing, its environmental benefits, and its ability to be joined by heat fusion rather than gluing. • Since polypropylene is resistant to fatigue, most plastic living hinges, such as those on flip-top bottles, are made from this material. However, it is important to ensure that chain molecules are orientated across the hinge to maximise strength. • Very thin sheets of polypropylene are used as a dielectric within certain high-performance pulse and low-loss RF capacitors. • Many plastic items for medical or laboratory use can be made from polypropylene because it can withstand the heat in an autoclave. • Its heat resistance also enables it to be used as the manufacturing material of consumer-grade kettles. • A common application for polypropylene is as biaxially oriented polypropylene (BOPP). These BOPP sheets are used to make a wide variety of materials including clear bags. • Polypropylene, highly colorfast, is widely used in manufacturing carpets, rugs and mats to be used at home. • Polypropylene is widely used in ropes. • Polypropylene is also used as an alternative to polyvinyl chloride (PVC) as insulation for electrical cables for LSZH cable in low-ventilation environments, primarily tunnels. • Polypropylene is also used in particular roofing membranes as the waterproofing top layer of single-ply systems as opposed to modified-bit systems. Market Scenario There is a growing demand for propylene in the world today. The demand is driven primarily by the high growth rate of polypropylene, which is the main end use segment of propylene. The bulk of the propylene supply comes from steam crackers followed by the Fluid Catalytic Cracking (FCC) units in refineries. The supply of propylene from these processes is unable to meet the increasing demand. Most of the new steam cracker capacity is coming up with ethane feedstock, which produces little propylene and there is limited capacity expansion for FCC units. Thus, there is an increased dependability on purpose propylene technologies such as propane dehydrogenation, olefin metathesis and Methanol to Propylene (MTP) to meet the increased demand for propylene.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 0.01%Break even: N/A
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Polypropylene (PP) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Polypropylene (PP), also known as polypropene, is a thermoplastic polymer used in a wide variety of applications including packaging and labelling, textiles (e.g., ropes, thermal underwear and carpets), stationery, plastic parts and reusable containers of various types, laboratory equipment, loudspeakers, automotive components, and polymer banknotes. An addition polymer made from the monomer propylene, it is rugged and unusually resistant to many chemical solvents, bases and acids. Properties: Most commercial polypropylene is isotactic and has an intermediate level of crystallinity between that of low density polyethylene (LDPE) and high-density polyethylene (HDPE). Polypropylene is normally tough and flexible, especially when copolymerized with ethylene. This allows polypropylene to be used as an engineering plastic, competing with materials such as ABS. Polypropylene is reasonably economical, and can be made translucent when uncolored but is not as readily made transparent as polystyrene, acrylic, or certain other plastics. It is often opaque or colored using pigments. Polypropylene has good resistance to fatigue. • Perfectly isotactic PP: Melting Point : 171 °C (340 °F). • Commercial isotactic PP :melting point : 160 to 166 °C (320 to 331 °F), • Syndiotactic PP : crystallinity of: 30% has a melting point of 130 °C (266 °F). There are three general types of polypropylene: homopolymer, random copolymer, and block copolymer. The co monomer is typically used with ethylene. Ethylene-propylene rubber or EPDM added to polypropylene homopolymer increases its low temperature impact strength. Randomly polymerized ethylene monomer added to polypropylene homopolymer decreases the polymer crystallinity and makes the polymer more transparent. Application: Polypropylene is used in many different settings, both in industry and in consumer goods. It can be used both as a structural plastic and as a fiber. Polypropylene is used in the manufacturing piping systems; both ones concerned with high-purity and ones designed for strength and rigidity (e.g. those intended for use in potable plumbing, hydronic heating and cooling, and reclaimed water). This material is often chosen for its resistance to corrosion and chemical leaching, its resilience against most forms of physical damage, including impact and freezing, its environmental benefits, and its ability to be joined by heat fusion rather than gluing. Since polypropylene is resistant to fatigue, most plastic living hinges, such as those on flip top bottles, are made from this material. However, it is important to ensure that chain molecules are orientated across the hinge to maximise strength. Very thin sheets of polypropylene are used as a dielectric within certain high performance pulse and low loss RF capacitors. Many plastic items for medical or laboratory use can be made from polypropylene because it can withstand the heat in an autoclave. Its heat resistance also enables it to be used as the manufacturing material of consumer grade kettles. A common application for polypropylene is as biaxially oriented polypropylene (BOPP). These BOPP sheets are used to make a wide variety of materials including clear bags. Polypropylene, highly colorfast, is widely used in manufacturing carpets, rugs and mats to be used at home. Polypropylene is widely used in ropes. Polypropylene is also used as an alternative to polyvinyl chloride (PVC) as insulation for electrical cables for LSZH cable in low-ventilation environments, primarily tunnels. Polypropylene is also used in particular roofing membranes as the waterproofing top layer of single-ply systems as opposed to modified-bit systems. Market Scenario: There is a growing demand for propylene in the world today. The demand is driven primarily by the high growth rate of polypropylene, which is the main end use segment of propylene. The bulk of the propylene supply comes from steam crackers followed by the Fluid Catalytic Cracking (FCC) units in refineries. The supply of propylene from these processes is unable to meet the increasing demand. Most of the new steam cracker capacity is coming up with ethane feedstock, which produces little propylene and there is limited capacity expansion for FCC units. Thus, there is an increased dependability on purpose propylene technologies such as propane dehydrogenation, olefin metathesis and Methanol to Propylene (MTP) to meet the increased demand for propylene.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 0.01%Break even: N/A
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ETHYLENE PROPYLENE RUBBER - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Ethylene propylene rubber (EPR) is an elastomer and has useful chemical and physical properties; it is resistant to heat, oxidation, ozone and the weather and it is also not susceptible to colour loss. Ethylene-propylene rubbers are valuable for their excellent resistance to heat, oxidation, ozone and weather aging due to their stable, saturated polymer backbone structure. Properly pigmented black and non-black compounds are color stable. As non polar elastomers, they have good electrical resistivity, as well as resistance to polar solvents, such as water, acids, alkalies, phosphate esters and many ketones and alcohols. Amorphous or low crystalline grades have excellent low temperature flexibility with glass transition points of about minus 60°C. Applications: Ethylene-propylene rubbers use the same chemical building blocks or monomers as polyethylene (PE) and polypropylene (PP) thermoplastic polymers. These ethylene (C2) and propylene (C3) monomers are combined in a random manner to produce rubbery and stable polymers. A wide family of ethylene-propylene elastomers can be produced ranging from amorphous, non-crystalline to semi-crystalline structures depending on polymer composition and how the monomers are combined. Because ethylene-propylene rubber (EPR) features excellent resistance to ozone, aging, chemicals & steam, excellent electrical insulation properties and cheap and easily available monomers, it is used for automotive parts, waterproofing membranes, wire and cable sheathings, heat-resistant hoses, belts, car seals, lubricant additives and polyolefins modification. Market Scenario:Ethylene-propylene elastomers are one of the most versatile, fastest growing and interesting synthetic rubber polymers. Excellent resistance to heat, oxidation, ozone and weather aging are expected to provide continued value in demanding automotive, construction, and mechanical goods applications. Current and emerging advanced polymerization and catalyst technologies also provide the ability to design polymers to meet application and processing needs that are important to meeting the ever-increasing demands for product quality, uniformity and performance.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 0.01%Break even: N/A
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Nylon Polyester & Polypropylene Rope

Polyester ropes are almost as strong as nylon when dry. Polyester retains its strength when wet, and thus polyester ropes are generally stronger than nylon ropes when wet. Polypropylene is probably the most common material found in ropes used in the marine field. Polyester rope it’s only about 90% as strong as nylon in strength when a steady force is applied and does not absorb shock loads as well. It is also holds up as well against damage from most chemicals, rot, and mildew as nylon, but is superior in resistance to abrasion and sunlight, stretches far less. Polypropylene rope is the most popular all purpose rope for the average consumer. It is a high quality, light-weight rope that is affordable and very functional. It is high quality, strong for it’s weight, but it is not very UV, heat, or abrasion resistant. For this reason, it is generally not a good choice for long term applications where the rope would be exposed to sun or abrasion. Polypropylene rope is rot resistant and floats, making it very popular for water sports and markers. Globally, increasing demand for synthetic ropes from marine & fishing and oil & gas industry is expected to drive the demand for synthetic ropes during the period of study. The global synthetic rope market is driven by the numerous benefits as compared to steel ropes such as synthetic rope are much lighter in weight, high tensile strength, flexibility and improved performance.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Bio Propylene Production Business

Bio Propylene Production Business. Bio-Based Poly Propylene (PP) Manufacturing Plant Propylene, has never been naturally directly produced by microorganisms and therefore, direct bio-production of propylene requires an artificial metabolic pathway. The largest source of propylene in the chemical industry is coproduction from naphtha or liquefied petroleum gas in ethylene steam crackers. The second largest amount of propylene comes from refineries as a byproduct from fluidized catalytic cracker (FCC) units that are operated for gasoline production. Biopolypropylene is a thermoplastic polymer commonly used in the packaging industry. Other uses include textiles, bottles, cube stickers, and even polymer banknotes. Because polypropylene shares many properties with polyethylene, they are commonly employed for similar uses. Polypropylene is especially resistant to fatigue, which is ideal for mobile plastic parts. Conventional polypropylene is made from petroleum in a process which results in large amounts of greenhouse gases. However, an alternative process has been developed which allows for its synthesis from sugar cane. No natural microorganism exists to convert renewable resources into propylene. Application Propylene is mainly used to manufacture polypropylene plastics for the packaging and the automobile industries. Conventional process Propylene production in refineries. Market Outlook The global bio PP market is expected to grow at a steady pace because of the regulations for reducing carbon emission in addition to consumer inclination toward using bio-based and eco-friendly products. Rising demand for lightweight materials, especially in the automotive industry, is expected to propel the market volume. The global bio-based polypropylene market size was estimated at USD 32.3 million in 2016 and is projected to register a CAGR of 5.1% over the forecast period. Increase in demand for lightweight automotive materials, particularly polymers, is expected to boost market growth over the coming years. With automobile manufacturers preferring eco-friendly polymers of late, the market is anticipated to receive a significant boost. Biobased Polypropylene (PP) Market by Application: 1) Textile 2) Injection 3) Films Bio based polypropylene has emerged as a substitute to synthetic polypropylene due to increasing environmental concerns regarding the use of latter. The health hazards associated with the production and use of polypropylene derived from fossil fuels have led to boost in the demand for bio based polypropylene. However, the bio based polypropylene market is currently in the nascent stage and is growing at a significant pace. The Bio-based Poly propylene (PP) market is in its nascent stage. However, given poly propylene’s wide range of applications, the demand for bio-based PP is expected to skyrocket. Moreover, the growing environmental concerns associated with the production and use of fossil fuel derived PP has prompted the need for a replacement for synthetic poly-propylene. The volatile price of petroleum-based chemicals is another crucial factor that serves to shift the inclinations of the consumer as well as the manufacturer towards bio-based chemicals. In terms of region, North America, Europe, Asia Pacific, Latin America, and Middle East & Africa are the major markets for synthetic and bio-based polypropylene. Developing regions such as Asia Pacific, especially China and India, are the key markets for synthetic and bio-based polypropylene due to increasing demand in automotive and construction industries. U.S. is the major consumer of propylene due to growing demand from the end-user industries. Tags Production of Bio-Propylene, Bio-Based Propylene Production, Bio-Based Poly Propylene, Biopolypropylene, Bio Propylene Production Plant, Bio Polypropylene (PP), Production of Bio-Sourced Propylene, Production of Bio-Based Polypropylene, Bio-Based Propylene Industry, Production of Biopropylene, Bio Based Polypropylene Manufacture, Bio-Based Propylene Production, Bio Propylene Manufacturing Business, Bio Based Polypropylene Company, Propylene Production, Manufacturing Plant for Producing Bio Propylene, project profile on Bio Propylene Manufacturing Industry, Project Report on Bio Propylene Manufacturing Industry, Detailed Project Report on Bio-Based Propylene Production, Project Report on Bio-Based Propylene Production, Pre-Investment Feasibility Study on Bio-Based Propylene Production, Techno-Economic feasibility study on Bio-Based Propylene Production, Feasibility report on Bio-Based Propylene Production, Free Project Profile on Bio Propylene Production, Project profile on Bio Propylene Production, Download free project profile on Bio-Based Propylene Production
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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