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Best Business Opportunities in Equatorial Guinea, Africa- Identification and Selection of right Project, Thrust areas for Investment, Industry Startup and Entrepreneurship

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Lithium Battery & E-Waste (Electronic Waste) Recycling Industry

Lithium Battery & E-Waste (Electronic Waste) Recycling Industry. Battery Recycling as a Business. Electronic Waste Management, Disposal and Recycling E-Waste Electronic waste, or e-waste, is a term for electronic products that have become unwanted, non-working or obsolete, and have essentially reached the end of their useful life. Because technology advances at such a high rate, many electronic devices become “trash” after a few short years of use. In fact, whole categories of old electronic items contribute to e-waste such as VCRs being replaced by DVD players, and DVD players being replaced by Blu-ray players. E-waste is created from anything electronic: computers, TVs, monitors, cell phones, PDAs, VCRs, CD players, fax machines, printers, etc. Electronics (E-waste) Recycling Electronics waste, commonly known as e-scrap and e-waste, is the trash we generate from surplus, broken and obsolete electronic devices. E-waste or electronics recycling is the process of recovering material from old devices to use in new products. Some of the benefits of e-waste recycling include: • Conservation of natural resources: E-waste has a lot of recoverable and valuable resources like plastics, gold, copper, aluminum, and iron. To preserve our natural resources, all e-waste should be recycled and reused instead of dumped into landfills. • Preventing soil contamination by toxic chemicals: E-waste can be loaded with hazardous materials like lead, chromium, mercury, chemical flame retardants, and beryllium, which can be harmful to our water and soil. Computers and servers can contain cadmium, mercury, and chromium. Flat-panel TVs and LCD screens can contain lead. • Buy-back offers for customers: Many computer and phone manufacturers provide buy-back offers for consumers who return their e-waste. By recycling this e-waste manufacturers are able to obtain a continuous supply of raw materials without the need for mining or further exploitation of natural resources. Consumers also enjoy the benefit of reduced pricing by committing to recycle cell phones, computers, and other common e-waste products. • Creating new jobs: Recycling e-waste can create jobs for people involved in professional refurbishing and recycling. It can create new markets for materials and components. Other financial benefits due to e-waste recycling include minimization of transportation costs involved in movement of raw materials from one place to another and associated labor costs. • Energy efficiency: One of the biggest advantages of recycling e-waste is considerable reduction of energy requirements. The energy cost involved in e-waste recycling is comparatively less than the cost involved in mining and processing of new materials from soil. For example, recycling of aluminum will take ninety-five percent less energy than production of fresh aluminum from raw materials. Recycling of plastics can save up to 70% energy, recycling of glass up to 40% energy, while recycling of steel can save up to 60% energy. E-waste recycling also helps reduce air pollution, greenhouse gas emissions, and dependence on oil. Lithium Battery Lithium batteries are disposable (primary) batteries that have lithium metal or lithium compounds as an anode. Depending on the design and chemical compounds used, lithium cells can produce voltages from 1.5 V to about 3.7 V, over twice the voltage of an ordinary zinc-carbon battery or alkaline cell battery. Lithium batteries are commonly used as power sources for portable electronics and implanted medical devices. Lithium batteries are used in many devices present in the workplace. They include pretty much all computers, cell phones, cordless tools, watches, cameras, flashlights, some medical devices, and vehicles ranging from golf carts, electric cars, airplanes and many others. Cell Phone Lithium Battery Batteries of all types are useful because they allow us to store energy for use whenever it is needed. Lithium Ion (Li-Ion) battery is a rechargeable battery with twice the energy capacity of a Nickel-Cadmium battery and greater stability and safety. LiIon batteries use a liquid lithium-based material for one of their electrodes. Lithium-ion batteries are used in applications that require lightweight and high-energy density solutions. These batteries provide the highest energy density per weight and are mostly used in cellular phones, notebook computers, and hybrid automobiles. Lithium Ion Battery Advantages There are many advantages to using a li-ion cell of battery. These li-ion battery advantages include: • High Energy Density: The much greater energy density is one of the chief advantages of a lithium ion battery or cell. With electronic equipment such as mobile phones needing to operate longer between charges while still consuming more power, there is always a need to batteries with a much higher energy density. In addition to this, there are many power applications from power tools to electric vehicles. The much higher power density offered by lithium ion batteries is a distinct advantage. • Self-Discharge: One issue with batteries and ells is that they lose their charge over time. This self-discharge can be a major issue. One advantage of lithium ion cells is that their rate of self-discharge is much lower than that of other rechargeable cells such as Ni-Cad and NiMH forms. • No Requirement for Priming: Some rechargeable cells need to be primed when they receive their first charge. There is no requirement for this with lithium ion cells and batteries. • Low Maintenance: One major lithium ion battery advantage is that they do not require and maintenance to ensure their performance. Ni-Cad cells required a periodic discharge to ensure that they did not exhibit the memory effect. As this does not affect lithium ion cells, this process or other similar maintenance procedures are not required. • Variety of Types Available: There are several types of lithium ion cell available. This advantage of lithium ion batteries can mean that the right technology can be used for the particular application needed. Some forms of lithium ion battery provide a high current density and are ideal for consumer mobile electronic equipment. Others are able to provide much higher current levels and are ideal for power tools and electric vehicles. Market Outlook E-Waste Recycling In India as well as other developing countries, majority of the electronic products are not recycled, which poses a serious environment and health risk. In India, E-Waste management and recycling market faces major challenges due to lack of proper regulatory interface and supporting infrastructure. E-Waste in the country is primarily generated from large household appliances and Information Technology and Telecommunications sectors. In the coming years, as the technology advances, lifespan of products would become shorter, resulting in replacement of existing products with the new ones, which would result in further increasing generation of E-Waste. Presently, the market size of e-waste in India is of 3.2 million MT and expected to touch to 20 million MT by 2020. In terms of value, it is presently of Rs 25,000 crore industry which is expected to touch Rs 125,000 crores by 2020. Fortunately, the entire industry is presently untapped by the formal sector as required under the E-waste management rules of India. India’s E-Waste market has been divided into various segments including IT and Telecom, Large Household Appliances and Consumer Electronics. Some of the key products generating most of the E-Waste in the country includePCs, mobile phones, refrigerators, washing machines, laptops, televisions, etc. Attero, Ecoreco, SIMS Recycling, Earth Sense Recycle, and TSS-AMM are the major E-Waste recycling and management players operating in the country. These players are focusing on increasing consumer awareness, while also working towards bridging the gap between the organized and unorganized E-Waste management market in India. Recycling of electronic waste includes two methods as the traditional manual disassembly method and automated process. The automated process is majorly preferred, it consists of 6 steps which are- picking shed, disassembly, first size reduction process, second size reduction process, over band magnet, non-metallic and metallic components separation and water separation. Global E-Waste Management Market is expected to garner $49.4 billion by 2020, registering a CAGR of 23.5% during the forecast period 2014 - 2020. It is one of the fastest growing waste streams in emerging as well as developed regions. The reduced life spans of electrical, electronic and consumer electronic devices are generating large E-Waste, which is growing rapidly every year. The growth of E-Waste market is supplemented by the growing need for upgrading to the latest technologies. A desire towards the adoption of new technologically advanced devices leads to generation of millions of tons of E-Waste across various regions. The high consumption of electronic goods has also resulted in Asia being the largest e-waste generators in the world. Some of the largest Asian countries that generated the most number of e-waste in terms of quantity are China, Hong Kong, Japan, and India. The awareness on the impact of e-waste has grown over the years. This has resulted in the imposition of strong legislative laws as well as the development of e-waste treatment standards and recycling technologies. Standards have been put in place to recycle waste responsibly, which will lead to the growth of the e-waste management market in India and APAC. Lithium Battery The India lithium-ion battery market is expected to grow at a robust CAGR of 29.26% during the forecast period, 2018-2023. Lithium-Ion batteries are primary batteries in which lithium compound acts as an anode. A lithium cell can produce voltage from 1.5 V to about 3 V based on the types of materials used. These batteries have a potential to achieve very high energy and power densities in high-density battery applications such as electronics, automotive and standby power. Lithium-ion batteries are now widely implemented as the power or energy source for everything from portable electronics to electric vehicles and energy & natural resources. Increasing adoption of smartphones, tablets, wearable’s, toys, power tools, personal care devices, payment devices and digital cameras among users have led to an improved demand for lithium-ion batteries in India. Increase in disposable income has led to rise in demand for electronic devices such as smartphones and tablets fueling the growth of lithium-Ion batteries in the India. Moreover, rise in government initiative to reduce pollution level are the major factors driving the Indian lithium-ion battery market. Growth in automotive sector has led to surge in demand for electric vehicles which has also supplemented the growth of lithium-Ion batteries. However, high cost and risk of fire in electronic devices may hinder the market growth in the coming years. Growth in automobile industry and growing trend of electronic devices among youth consumers would increase the demand for lithium-Ion batteries in the near future. The India lithium-ion battery market has been segmented on the basis of material type and industry vertical. By material type, the market is further segmented into cathode, electrolytic solution, anode, and other materials includes (binders, separators, and others). By industry vertical, the market is bifurcated into electronics (UPS, smart phones, laptops/tablets, and others), automotive (car, buses, and trucks, scooters and bikes, train and aircraft), industrial (mining equipment, construction equipment, smart grid), and other industry verticals. India has set itself an ambitious target of having only electric vehicles (EV) by 2030, which is expected to increase the demand for lithium-ion batteries in India, significantly. The high cost, associated with batteries that are used in the electric vehicles, is considered to be critical for India's ambitious target. To counter this, the Government of India is planning to set up lithium-ion battery manufacturing units in India. The Global Lithium-Ion Battery Market size is expected reach $46.21 billion by 2022, with a CAGR of 10.8% during the forecast period (2016-2022). Lithium-ion (Li-ion) batteries are rechargeable batteries with high energy density and are mainly used in portable equipment. The market for these batteries is expected to witness a significant growth owing to their increasing use in smartphones, tablets/PCs, digital cameras, and power tools. Moreover, the demand for Li-ion batteries in the automobile industry is expected to increase with the increasing demand for electric vehicles. These batteries have gained popularity among the automobile manufacturers as they offer an alternative to nickel metal batteries used in electric vehicles, due to their small size and light weight. Tags E Waste Recycling Plant, E-Waste Recycling, E Waste Management, e Waste Recycling Plant in India, e-Waste Recycling Plant Cost, E-Waste Recycling Plant Project Report, Starting an E-Waste Recycling Plant, E-Waste Recycling Business, Electronic Waste, Business Setup for E-Waste Recycling, Electronics (E-Waste) Recycling, E-Waste or E-Scrap Recycling, Electronic Waste Management, E Waste Recycling and Recovery, Environment Friendly Electronic Waste Management, Electronic Waste Recycling, E-Waste Management, Electronic Waste (E-Waste) Recycling & Disposal, Disposal of Electronic Waste (E-Waste), Electronic Waste Disposal, E-Waste (Electronic Waste) Recycling and Management, Battery Recycling, Recycling of Automotive Lithium-Ion (Li-Ion) Batteries, Lithium-Ion Battery Recycling, Battery Recycling Plant, E – Waste Management Project, e-Waste Management Project Report Pdf, Cost of Setting up E-Waste Recycling Plant in India, E-Waste Project Ideas, e-Waste Management Project in India, Lithium Battery Recycling Process, How to Recycle Batteries, Lithium-Ion Battery Recycling Industry, Recycling the Hazardous Waste of Lithium Ion Batteries, Li-Ion Batteries Recycling, Battery Scrap Recycling, Project Report on Battery Recycling Industry, Detailed Project Report on E-Waste (Electronic Waste) Recycling, Project Report on Li-Ion Batteries Recycling, Pre-Investment Feasibility Study on E-Waste (Electronic Waste) Recycling, Techno-Economic feasibility study on Lithium-Ion Battery Recycling, Feasibility report on e-Waste Management, Free Project Profile on Lithium-Ion Battery Recycling, Project profile on Li-Ion Batteries Recycling, Download free project profile on E-Waste (Electronic Waste) Recycling, E-Waste & Lithium Battery Recycling, Recycling the Hazardous Waste of Lithium Ion Batteries, Lithium Battery Disposal & Recycling, Batteries & Electronic Waste, Electric, Electronic Waste and Batteries Recycling Business, Disposal of Batteries, Battery Recycling Industry
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Bioplastic Film

Biodegradable plastics are the type of plastics that undergo decomposition over a period of time under composting conditions.A bioplastic is a plastic that is made partly or wholly from materials derived from biological sources, such as sugarcane, potato starch or the cellulose from trees and straw.Bioplastic film compounds are used for products like shopping bags, fruit and vegetable bags as well as for labels, agricultural applications and a lot more. The biopolymer films market is slated to cross USD 6 billion by 2024. In 2018, global demand for these polymers is 360,000 metric tons, but total consumption of biodegradable polymers is expected to increase to almost 550,000 metric tons by 2023. This facilitates the development of new technologies and ensures a high quality product.
Plant capacity: Bioplastic Film 25 Micron: 5000Kgs/DayPlant & machinery: Rs. 184 lakhs
Working capital: -T.C.I: Cost of Project: Rs. 616 lakhs
Return: 28.00%Break even: 60.00%
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Bioplastic Carry Bags and Garbage Bags

BioPlastic shopping bags, carrier bags, or plastic grocery bags are a type of bioplastic bag used as shopping bags and made from various kinds of bioplastic.A bioplastic carrier bag also looks exactly like a traditional carrier bag. Additionally, the bioplastic carrier bag is just as strong and sturdy with the same capacity and tensile strength. The big difference is the environmentally friendly degradation of the waste and CO2 neutral impact of the biomass used.The bags offered by us are 100% compostable. The packaging applications are expected to experience significant growth with biodegradable mulch films, compostable waste bags, catering products, film packaging, and rigid packaging. The analysts forecast global bioplastics market to grow at a CAGR of 29.3% during the period 2016-2020.Entrepreneurs who invest in this project will be successful. Few Indian major players are as under • Arihant Industries Ltd. • Baroda Polyplast Ltd. • Jain Plastics & Chemicals Ltd. • Karwa Consolidated Mktg. Ltd. • Paradise Plastics Enterprise Ltd. • Shakun Polymers Ltd.
Plant capacity: Bioplastic Carry Bags (8"x16") Size: 3500 Kgs/Day Bioplastic Garbage Bags (950x810 mm) Size: 1500 Kgs/DayPlant & machinery: Rs. 62lakhs
Working capital: -T.C.I: Cost of Project: Rs 396 lakhs
Return: 30.00%Break even: 60.00%
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Naphthalene from Coal Tar & Petroleum Waste

Naphthalene is an organic compound with formula C10H8. It is the simplest polycyclic aromatic hydrocarbon, and is a white crystalline solid with a characteristic odor that is detectable at concentrations as low as 0.08 ppm by mass. As an aromatic hydrocarbon, naphthalene's structure consists of a fused pair of benzene rings. It is best known as the main ingredient of traditional mothballs. Naphthalene is the most abundant single constituent of coal tar, a volatile product from the destructive distillation of coal, and is also formed in modern processes for the high-temperature cracking (breaking up of large molecules) of petroleum. It is commercially produced by crystallization from the intermediate fraction of condensed coal tar and from the heavier fraction of cracked petroleum. The substance crystallizes in lustrous white plates, melting at 80.1°C (176.2°F) and boiling at 218°C (424°F). It is almost insoluble in water. Naphthalene is highly volatile and has a characteristic odour; it has been used as moth repellent. Naphthalene is a class of an organic compound with chemical formula C10H8. It is considered as the simplest polycyclic aromatic hydrocarbon, and is a white solid chemical that sublimes easily. Naphthalene is manufactured commercially from either coal tar or petroleum; majorly it is produced from coal tar across the globe. Naphthalene is used in the manufacturing of phthalic anhydride and also used in mothballs. Additionally, it is used as surfactant & wetting agent, plasticizer, and pesticide in numerous end use industries such as building & construction, agriculture, household cleaning, textile and others. The global naphthalene market is categorized into five regions, Asia Pacific, Europe, Latin America, North America, and the Middle East & Africa. The Asia Pacific region is predicted to grow with the fastest CAGR during the review period, (2016 to 2023) on account of expansion of numerous end use industries such as building & construction and agriculture among others.
Plant capacity: -Plant & machinery: -
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Return: 1.00%Break even: N/A
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Disposable Plastic Syringes

Disposable Syringes are being used by doctors to inject medicines through intravenous or intramuscular ways for the treatment of diseases & also by research & development personnel. Disposable syringes are made of plastic material and are used in the field of medical and veterinary science. The manufacture of plastic syringes has been developed to such a degree that the products now satisfy the requirements and standards set by Hospital and physicians. Disposable syringes are the dominating market with a CAGR of around 6% over the forecast period i.e. 2016-2024 because disposable syringes are used only once ensuring the safety of patients. On the basis of material, glass syringe is dominating the segment and is expected to reach a value of USD 15 million by 2024 because they can be sterilized and reused. The syringes market is expected to reach USD 15.99 Billion by 2021 from USD 10.56 Billion in 2016, at a CAGR of 8.7% during the forecast period. Thus, due to demand it is best to invest in this project. Few Indian major players are as under • Albert David Ltd. • Disposable Medi-Aids Ltd. • Hindustan Syringes & Medical Devices Ltd. • Lifeline Injects Ltd. • Lifelong Meditech Ltd. • Oyster Medisafe Pvt. Ltd. • Peekay Mediequip Ltd.
Plant capacity: Disposable Plastic Syringes 2 ml Size: 60 Boxes/Day Disposable Plastic Syringes 5 ml Size: 60 Boxes/Day Disposable Plastic Syringes 10 ml Size: 40 Boxes/DayPlant & machinery: Rs. 137 lakhs
Working capital: -T.C.I: Cost of Project: Rs 307 lakhs
Return: 13.00%Break even: 61.00%
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Lithium Ion Battery (Battery Assembly)

Lithium batteries are now powering a wide range of electrical and electronical devices, including laptop computers, mobile phones, power tools, telecommunication systems and new generations of electric cars and vehicles. Lithium ion batteries are those that can be recharged. As an example, laptop or cell phone is likely to have a lithium ion battery. The India lithium-ion battery market is expected to grow at a robust CAGR of 29.26% during the forecast period, 2018-2023. The Indian automobile sector is one of the most prominent sectors of the country, accounting for nearly 7.1% of the national GDP. The India lithium-ion battery market is expected to grow at a robust CAGR of 29.26% during the forecast period, 2018-2023. This facilitates the development of new technologies and ensures a high quality product.
Plant capacity: 90 Volt, 180 AH Lithium Ion Battery Pack: 56 Nos/dayPlant & machinery: Rs 90 lakhs
Working capital: -T.C.I: Cost of Project: Rs 1076 lakhs
Return: 34.00%Break even: 55.00%
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Bicycle Tyre & Tubes Production from Natural Rubber

Bicycle Tyre & Tubes Production from Natural Rubber. How to Start a Tire and Tubes Manufacturing Business Tyres are one of the most important components of a bicycle build. Bicycle tires perform an important function of eliminating the shock transferred through the front and rear wheels as they travel on uneven and rough surfaces; effectively gaining traction on the road so that the bicycle can travel properly and doesn’t slip. It is also used for hand cycles and specially designed wheelchairs for racing purposes. The complete tire system provides ideal suspension, produces the longitudinal force essential for propulsion and braking, and creates the lateral force required for turning and balancing. A bicycle tire is a tire that fits on the wheel of a bicycle, unicycle, tricycle, quadracycle, bicycle trailer, or trailer bike. They may also be used on wheelchairs and handcycles, especially for racing. Bicycle tires provide an important source of suspension, generate the lateral forces necessary for balancing and turning, and generate the longitudinal forces necessary for propulsion and braking. They are the second largest source, after air drag, of power consumption on a level road. The modern detachable pneumatic bicycle tire contributed to the popularity and eventual dominance of the safety bicycle. There are various grips offered in the market, which enhance traction between the wheels and the road and increase performance at high speeds and on uneven and rough terrains. The recent removable pneumatic bicycle tire contributed to the acceptance and enhanced safety operation of bicycle. Over the years, with bicycles becoming more advanced and efficient, advanced bicycle tires have been developed to improve riding performance and capability. Over the several years manufacturers were keen on reducing the bicycle’s body weight and enhancing strength, so it may travel at a desirable speeds. Tube Bicycle tubes are the backbone of the bicycle industries. Few numbers of companies in organized sector are engaged in the quality grade cycles tyres and tubes and few unorganized sector also engaged to manufacturing bicycle tyre and tubes. An inner tube is basically a doughnut-shaped balloon, with a valve for inflation. The only requirement for an inner tube is that it should not leak. Being rubber, they have no rigid structure. If an inner tube is inflated outside of a tyre, it will expand to 2 or 3 times its nominal size, if it doesn't explode first. Without being surrounded by a tyre, an inner tube can't withstand any significant air pressure. Market Outlook The bicycle tires market possesses a lot of potential for growth in the research and development division. Also, the market for bicycle tires has increased due to development in the overall bicycle market, as consumers are more attracted towards safety and riding comfort. In a bicycle, tires are the most important component and the replacement rate of the tires is high, owing to the high rate of friction between the tire and road. The aftermarket for replacement and services is projected to remain healthy over the forecast period as consumers will try to keep their bikes up to the mark. Moreover, in developed nations, the ability to ride at faster speeds with comfort is estimated to drive growth of the bicycle tires market in the near future. Furthermore, growth in racing and adventure sports, such as dirt biking and off-road riding will fuel growth of the overall bicycle tires market in the coming future. Events, such as the Tour de France, Olympics and other bicycle professional races will propel growth in the bicycle tires market and force manufacturers to come up with new product and goods, which are more capable for ideal riding. The emergence of eco-friendly bicycle tires is one of the major trends being witnessed in the global bicycle tires market 2019-2023. The products used in manufacturing rubber compounds are polluting the environment. The increasing air pollution is pushing manufacturers to reduce the emission from the manufacturing process. Thus, such environmental concerns have paved the way for innovation in terms of eco-friendly tires that are manufactured using pure rubber compounds and low-aromatic oils. Low-aromatic oils have low levels of harmful compounds, which makes them highly durable and non-carcinogenic. The bicycle tires market has been majorly driven by increasing users of bicycles in the recent years. Various factors such as environmental concerns, health and fitness, among others have compelled pedestrians to make use of bicycles for their regular commute. Thereby, the market has witnessed an increasing demand for new bicycles for various applications such as regular on-road use, off-road biking and sports. As a result, the bicycle tire market has been witnessing an increased demand for various types of on-road and off-road tires. Moreover, with ongoing product innovation in the tubeless and airless tires segments, the market is expected to witness significant growth during the forecast period. The Growing popularity of premium bicycles around the world is attributable to the increasing acceptance of premium bicycle that provide better riding and safety features. These bicycles are built using advanced technologies and modern designs by incorporating high- end materials to offer comfort and durability. The major reason for the growth of premium bicycle is increasing average disposable income and increasing dual household income. The increasing demand for premium bicycles is increasing the demand for the high- quality components and uniqueness in the bicycle tire. Such factors increase the revenue of the bicycle tire manufactures. Therefore, the growing demand for premium bicycles is expected to drive the demand for the market. Indian Tyre Industry The Indian Tyre industry is expected to show a healthy growth rate of 9-10% over the next five years. The domestic tyre industry is expected to post volumes growth of 7-8 per cent to 1,805 lakh tyres during FY2018. Indian tyre industry has been reporting good growth figures over the past few years, spurred by the growing passenger vehicle and two-wheeler market. It has emerged as one of the most competitive markets in the world and with the emergence of new technology, ultra-modern production facilities and availability of raw materials, the sector is poised to grow further. Tyre Inner Tubes Tyre inner tubes are the internal components of the primary tyre which are designed to sustain air pressure. Majority of the tyres which are used in motorcycles, bicycle and large vehicles such as tractors, heavy trucks, cars, and buses are designed for their application with inner tubes. These are made from impermeable materials such as synthetic, elastic, soft rubber for the purpose of avoiding air leakge and are torus shaped in nature. In addition, inner tubes which are larger in size possess the ability to be re used for other applications such as rafting and swimming. These tubes are large inflatable toruses which are manufactured for these applications while also offering a choice of decks, handles, fabric covering, colors and other various accessories, eliminating the protruding valve stem. The global inner tube industry is dependent on raw materials such as rubber suppliers as well as the buyers which mainly include automotive manufacturers. More than half of the global rubber production goes into the manufacturing of automotive tyres. In addition, the inner tube and tyre industry serve as the largest application segment in the overall rubber industry. Tags #Bicycle_Tires, #How_are_Bicycle_Tires_made, #Tyre_Manufacturing_Process_Pdf, #Tyre_Manufacturing_Process_PPT, #Bicycle_Tires_Production, Tyre Manufacturing Process Flow Chart, #Bicycle_Tyres_&_Tubes_from_Natural_Rubber, How are Bicycle Tyres Made, Tyre Manufacturing, Tyres Manufacturing Plant, Bicycle Tube Production, Bicycle Natural Rubber Tube, Profile on Production of Inner Tubes and Tires, Inner Tube Manufacturing Process Pdf, Rubber Tube Manufacturing Process, Bicycle Tyre & Tubes Production, Cycle Tubes Manufacture, Natural Rubber Tube Manufacture, Manufacturing of Tyres and Tubes, How to Start a Bicycle Tyres Manufacturing Business, Bicycle Tyres Manufacturing Plant, Bicycle or Cycle Tyre and Tube Manufacturing Industry, #Project_Report_on_Bicycle_Tyre_&_Tubes_Production_Industry, Detailed Project Report on Bicycle Tyre & Tubes Production, Project Report on Bicycle Tires, #Pre_Investment_Feasibility_Study_on_Rubber_Tube_Manufacturing, Techno-Economic feasibility study on Bicycle Tyre & Tubes Production, #Feasibility_report_on_Bicycle_Tyre_&_Tubes_Production, #Free_Project_Profile_on_Bicycle_Tires, Project profile on Bicycle Tyre & Tubes Production, Download free project profile on Bicycle Tires, Production of Bicycle Tyre & Tubes
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Return: 1.00%Break even: N/A
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Bicycle Rim

A bicycle wheel is a wheel, most commonly a wire wheel, designed for a bicycle. A pair is often called a wheel set, especially in the context of ready built "off the shelf" performance-oriented wheels. Bicycle wheels are typically designed to fit into the frame and fork via dropouts, and hold bicycle tires. The first bicycle wheels followed the traditions of carriage building: a wooden hub, a fixed steel axle (the bearings were located in the fork ends), wooden spokes and a shrink fitted iron tire. A typical modern wheel has a metal hub, wire tension spokes and a metal or carbon fiber rim which holds a pneumatic rubber tire. The rim is the "outer edge of a wheel, holding the tire". It makes up the outer circular design of the wheel on which the inside edge of the tire is mounted on vehicles such as automobiles. For example, on a bicycle wheel the rim is a large hoop attached to the outer ends of the spokes of the wheel that holds the tire and tube. In cross-section, the rim is deep in the center and shallow at the outer edges, thus forming a "U" shape that supports for the bead of the tire casing. The regional demand dynamics of bicycle rims is directly correlated with the overall production and fleet of the bicycles. China is projected to dominate in terms of sales and is estimated to remain dominant in terms of demand for bicycle rims owing to increasing sales of bicycles. North America is expected to grow at significant CAGR during the forecast period in the bicycle rim market owing to increasing government regulations to support green transportation in the region.
Plant capacity: -Plant & machinery: -
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Return: 1.00%Break even: N/A
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Disposable Plastic Syringes with Needles

The hypodermic syringe, also known as the hypodermic needle, is a device used by medical professionals to transfer liquids into or out of the body.A syringe is one of three primary methods for introducing a drug into the body. The others are transepidermal (through the skin) and oral. Using a hypodermic needle as the method of drug administration has some significant advantages over oral ingestion.Disposable syringes are made of plastic material and are used in the field of medical and veterinary science. Due to their availability in sterilized condition, ready to use, and cost effectiveness, disposable syringes are fast replacing the age-old glass syringes. The global prefilled syringes market size is expected to reach a value of USD 22.5 billion by 2025, according to a by Grand View Research, Inc. The market is estimated to expand at a CAGR of 11.2% during the forecast years.Entrepreneurs who invest in this project will be successful. COST ESTIMATION CAPACITY Disposable Plastic Syringes with Needles 1 ml Size each Packed in Polypack : 82000 Th.Nos./annum Plant & Machinery : Rs2410 lakhs Cost of Project : Rs14240 lakhs Rate of Return : 21% Break Even Point : 17%
Plant capacity: Disposable Plastic Syringes with Needles 1 ml Size each Packed in Polypack: 82000 Th.Nos./annumPlant & machinery: Rs. 2410 lakhs
Working capital: -T.C.I: Cost of Project: Rs14240 lakhs
Return: 21.00%Break even: 17.00%
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Hybrid Electric Scooter Assembling Business

Hybrid Electric Scooter Assembling Business. Electric Vehicles (EVs) Industry. Business Opportunities in Electric Two-Wheelers Manufacturing Industry Hybrid electric vehicles (HEVs) combine the benefits of gasoline engines and electric motors and can be configured to meet different objectives such as improved fuel economy, increased power, or additional auxiliary power for electronic devices and power tools. This type of vehicle is considered to have better performance and fuel economy compared to a conventional one. The advantages of HEVs include: • Oil consumption is less than that of conventional vehicles. • Carbon-based emission is lower, which makes HEVs more eco-friendly. This also helps conserve non-renewable resources like petroleum products. • Maintenance costs are lower than those of conventional vehicles. • With the electric motor taking charge of the engine during long travels, more mileage can be achieved with HEVs compared to other types of vehicles. Electric scooters are two or three-wheeled vehicles powered by electricity. This power is stored in a rechargeable battery, which drives the functioning of electric motors. Market Outlook The global electric scooter and motorcycle market size was $12,961.8 million in 2016, and is expected to reach $22,192.0 million by 2025, growing at a CAGR of 6.9% during 2017-2025. The market is predominantly driven by tax concession on eco-friendly vehicles, growing concern for increasing carbon emissions, low maintenance cost of electric two-wheelers, and favorable regulatory environment. Electric scooters and motorcycles are emerging as the need of hour, as commuters are in demand for solutions that provide innovative travelling experience with long distance coverage backup. The electric scooters and motorcycles have been categorized into 48V, 24V, 36v and are available in even more voltages like 60V and 72V. The speed of the scooter and motorcycle range from 30 km/hr to 70 km/hr. All electric scooters and motorcycles are provided recharging by plugging into ordinary wall outlets, usually taking about eight hours to charge. On the basis of product, the electric scooter market has been categorized into scooter and motorcycle. In terms of value, electric scooter held larger market share, accounting for more than 95% share in 2017 and is poised to continue dominating the market in the coming years as well. Geographically, Asia-Pacific accounted for more than 90% of the global electric scooter and motorcycle shipments in 2016. The highest growth in shipment is expected in Europe, during the forecast period; however, the market in North America is also expected to grow at nearly the same rate. The growth of the electric scooters and motorcycles market in Asia-Pacific is due to rapid urbanization and increase in household incomes, which is attracting the consumers to replace their fuel-driven two-wheelers with the electric variant. China, India, Indonesia, Japan and S. Korea are the major electric two-wheeler markets in Asia-Pacific; other major markets in the region include Australia, and Vietnam. The global electric scooter and motorcycle market is highly fragmented, where top five players accounted for less than 35% revenue. All of the five major players -Yadea Technology Group Co. Ltd., Zhejiang Luyuan Electric Vehicle Co. Ltd., Aima Technology Co. Ltd., Sunra Group, and Dongguan Tailing Electric Vehicle Co. Ltd., are based in China. The other players having good regional presence include Govecs Group, Amper Vehicles, Vmoto Limited, Hero Electric, Energica Motor Company S.p.A., BMW, and Mahindra GeneZe. New product launches and joint ventures have been the key strategies of these major players to expand their presence in this market. India Electric Scooters and Motorcycles Market Overview The Indian electric scooters and motorcycles market is projected to reach 757,900 units by 2025, registering a CAGR of 42.9% during the forecast period. The market has witnessed significant growth in the recent past owing to strict norms and regulations pertaining to environmental, government incentives, and rising environmental awareness. Based on battery type, the electric scooters and motorcycles market has been categorized into sealed lead acid (SLA) and lithium-ion (Li-ion). Among these, the SLA battery has been accounting for higher volume sales. However, the Li-ion category is poised to grow at a faster rate during the forecast period, owing to its declining prices, and lower environmental risk and longer life span as compared to the SLA category. Government incentive schemes, growing distributor & dealership network, rising online sales, and increasing affordability of electric two wheelers being provided by leading automobile manufacturers are some of the other key factors that would boost demand for electric two wheelers in India. Moreover, growing research & development activities are likely to result in a wide product portfolio for electric two wheelers, thereby positively influencing the country’s electric two wheeler market during the forecast period. Some of the major companies operating in India electric two wheeler market are Hero Electric Vehicles Pvt. Ltd., Okinawa Autotech Pvt. Ltd., Electrotherm (India) Ltd., Lohia Auto Industries, Avon Cycles Ltd., Ampere Vehicles Pvt Ltd, Tunwal E-Bike India PVT. LTD, NDS Eco Motors Private Limited, Ather Energy Pvt. Ltd., Tork Motors Private Limited, etc. All these companies are well assisted by their key development teams and are strengthening their dealership network to boost their customer reach. Tags #Hybrid_Electric_Scooter_Assembling, #Hybrid_Electric_Scooter, #Electric_Scooter_Project_Report_Pdf, #Hybrid_Two_Wheeler_PPT, #Hybrid_Electric_Vehicle_(HEV), Two Wheeler Hybrid Vehicle, Hybrid & Electric Scooter, Hybrid Vehicle (Scooter), Electric Scooter Assembly, Electric Scooters in India, #Production_of_Hybrid_Scooter, #How_to_Start_an_Electric_Scooter_Business_in_India? Starting an Electric Scooter Industry, Electric Scooter in India, Electric Scooter Body Manufacture in India, #Production_of_Electric_Vehicles_(Evs), How to Make an Electric Scooter, Starting an Electric Scooter Business, Electric Scooters Industry, Project Report on Hybrid Electric Scooter Assembling Industry, Detailed Project Report on Hybrid Electric Scooter Assembling, #Project_Report_on_Hybrid_Electric_Scooter_Assembling, Pre-Investment Feasibility Study on Hybrid Electric Scooter Assembling, Techno-Economic feasibility study on Hybrid Electric Scooter Assembling, Feasibility report on Hybrid Electric Scooter Assembling, Free Project Profile on Hybrid Electric Scooter Assembling, Project profile on Hybrid Electric Scooter Assembling, Download free project profile on Hybrid Electric Scooter Assembling, Electric Two Wheelers Business Opportunity in India, Electric Scooter Business, Electric Vehicle Industry in India, Hybrid & Electric Vehicle Manufacturing Industry, Manufacturing of Electric Vehicles, Hybrid Electric Vehicles and Electric Vehicles, #Hybrid_Electric_Vehicles_Production, Electric Vehicles (E-Vehicles) Business Opportunity
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Return: 1.00%Break even: N/A
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  • T.C.I is Total Capital Investment
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