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

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Oxygen and Nitrogen Gas Plant - 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

Liquid oxygen must be handled with all the precaution required for safety with any cryogenic fluid. Gaseous Oxygen is authorized for shipment in cylinders tank and car and tube trailers. Liquid Oxygen is shipped as a cryogenic fluid in insulated cylinders insulated tank trucks and insulated tank cars. Gaseous Nitrogen is non corrosive and inert and may consequently contained in system constructed of any common metals and designed to withstand safely the pressure involved. At the temperature of liquid nitrogen ordinary carbon steels and most alloy steels lose their ductility and are considered unsatisfactory for liquid nitrogen service. Uses and Applications Applications of Oxygen include: It is used extensively in medicine for therapeutic purposes for suscitation in asphyxia and with other gases in anaesthesia. It is also used in high altitude flying deep sea diving, and as both an inhalant and power source in U.S apaces program. Industrial applications include its very wide utilization with acetylene, hydrogen and other fuel gases for such purposes as metal cutting welding hardening scaring cleaning and dehydrating. Oxygen helps increase the capacity of steel and iron furnaces on growing scale in the steel industry. One of its major uses is in the production of synthesis gas from coal natural gas or liquid fuel. Synthesis gas is in turn use to make gasoline methanol and ammonia. Oxygen is similarly employed in manufacturing some acetylene through partial oxidation of the hydrocarbons in methane. It is also used in the production of nitric acid, ethylene and other compounds in the chemical industry. Applications of Nitrogen include: Agitation of colour film solution in photographic processing, blanketing of oxygen sensitive liquids and of volatile liquid chemicals The deaeration of oxygen sensitive liquids The degassing of non ferrous metals It is used in food processing and packing, Inhibition of aerobic bacteria growth Magnesium reduction of aluminium scrap Pressurization of air craft tires and emergency bottles to open landing gear Purging and filling of electronic devices The purging and fillings of pipelines and related instruments and the treatment of alkyd resins in the paint industry etc. Market Survey The industrial gases industry covers several products oxygen nitrogen dissolved acety lene argon carbon dioxide helium and hydrogen. These find applications in various industries such as steel light and heavy engineering, petrochemicals and fertilisers chemicals and pharma ceuticals and food processing besides metal cutting and welding. Oxygen is a vital requirement in medicare. Steel and downstream industries use nearly three fourths of the output.Unlike western countries, where the industrial gases are mostly produced by gas companies and supplied to large industrial consumers in India most of the large consumers of gases have set up their own captive plants. With the expansion in steel petrochemicals automobiles and glass Industries, the demand for merchant gas market is on the rise. Accordingly, the industry is structured into two broad segments (a) the captive units set up by the users or by a gas producing company at the site of the user and (b) the independent market producers supplying gas in bulk or in cylinders to the users. Present Manufacturer Aarti Steels Ltd. Ahmedabad Gases Ltd. Akola Oil Inds. Ltd. Allied Steels Ltd. Arrow Oxygen Ltd. Arvin Liquid Gases Ltd. Asiatic Gases Ltd. Bhagawati Oxygen Ltd. Bhilai Engineering Corpn. Ltd. Bhilai Oxygen Ltd. Bhuruka Gases Ltd. Bombay Oxygen Corpn. Ltd. Corporate Ispat Alloys Ltd. Ellenbarrie Industrial Gases Ltd. Fertilisers & Chemicals, Travancore Ltd. General Foods Ltd. [Merged] Godavari Fertilisers & Chemicals Ltd. [Merged] Godawari Power & Ispat Ltd. Govind Poy Oxygen Ltd. Gujarat Ministeel Ltd. Hilltone Software & Gases Ltd. Hindustan Oxygen Gas Co. Ltd. Hindustan Wires Ltd. I L A C Ltd. India Glycols Ltd. Indian Oil Corpn. Ltd. Inox Air Products Ltd. Ispat Metallics India Ltd. [Merged] K A P Steel Ltd. Linde India Ltd. Madhav Industries Ltd. Maharshi Commerce Ltd. Mapro Industries Ltd. Modi Industries Ltd. Mohan Steels Ltd. National Oxygen Ltd. P V P Ltd. [Merged] Paushak Ltd. [Merged] Premier Cryogenics Ltd. Pushya Industrial Gases Ltd. Rukmani Metals & Gaseous Ltd. Saraogi Oxygen Ltd. Shyam Ferro Alloys Ltd. Southern Gas Ltd. Sudha Agro Oil & Chemical Inds. Ltd. Superior Air Products Ltd. [Merged] Swarup Vegetable Products Inds. Ltd. Travancore Oxygen Ltd. Vijaya Oxygen Co. Ltd. Vikas Industrial Gases Ltd. West Coast Industrial Gases Ltd.
Plant capacity: 4152 cum/Day Plant & machinery: Rs.105 Lakhs
Working capital: -T.C.I: Cost Of Project : Rs. 286 Lakhs
Return: 23.00%Break even: 58.00%
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Ferro Alloys (Ferro Silicon, Ferro Manganese & Silico Manganese) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study

Ferro manganese are alloys composed of iron and one or two more metals like Mn, Si, Ti, W etc. The ferro alloys have usually lower melting points than their respective alloying metals in pure stable form and thus, can be readily incorporated to obtain the metals as ferro alloys than in their pure terms starting from their ores. It is a principle alloying agent used in steel production steel/iron casting etc, where it also acts as a strengthener and deoxidiser. It imparts corrosion resistance to the products. Ferro manganese along with Fe-Si, Fe-Cr, is a bulk ferro-alloy, Manganese is also added in steels in the form of silico manganese. It dissolves in iron in all proportions, Iron for Farm implements uses upto 1.75% Mn and also in automobile parts. Ship construction industry uses steels with even higher content; riffle barrels and heat treated forgings necessarily use ferro manganese as an alloying additive.Ferro Alloys Plays major role in Steel Production and industrial development. Ferro-alloys are iron based alloys with varied elements introduced in steel making to cater to the specific needs. These are specified additions to the production of steel for various applications. Generally ferro-alloys are designated by base metal indicated as under such as: Ferro – silicon, Ferro – manganese, Silico – manganese, Ferro – chrome etc. Uses and Applications Ferro alloys are iron bearing alloys with additives which are passed on to steel to meet specific needs. The Ferro alloys are brittle and can be crushed to any size to be added to the molten steel as additives. Generally the additives as in steel are invariably added in the form of Ferro alloys. These are established additives in the steel production to obtain specific needs. Market Survey The demand for ferro alloys has been increasing with that of alloy and special steels. At the beginning of the previous decade, it was about half a million tonnes, increased to over 700,000 tonnes by 1997-98 and reached the level of 1.20 mn tonnes in 2006-07. There are six leading players and over 30 small producers. The industry has tied up with companies in Europe for technology inputs. The major users of alloy steel are: auto industry, railways, forgings, tubes, springs and other engineering industries.The leading players are Alloy Steel (SAIL), Mukand (Advanced Design Materials Corp., USA), Mahindra Ugine, Sunflag Irons & Steel, Vishveshvarya Steel, Kalyani Steel, Panchmahal, Indian Seamless, Shah Alloy Kalyani Carpenter.
Plant capacity: Ferro Silicon:59.0 MT/Day.,Ferro Manganese:167.0 MT/Day.,Silico Manganese:130.5 MT/Day.Plant & machinery: Rs.2493 Lakhs.
Working capital: -T.C.I: Cost of Project :Rs4280 Lakhs.
Return: 28.00%Break even: 41.00%
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Disposable Plastic Syringes with Needles - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

Disposable Syringes made of plastic Material have been successfully used in medical and pharmaceutical practice for many years. The constantly increasing use of this type Syringe indicates its importance which is based mainly on the advantages it offers regarding cost and hygienic applications. 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. At the same time they offer the best possible technique of application to the physician and the highest possible degree of safety to the patient. Due to their availability in sterilized condition, ready to use, and cost effectiveness, disposable syringes are fast replacing the age-old glass syringes. Disposable syringes are mostly injection moulded from polypropylene. Syringes are available in sizes of 1 ml, 2 ml, 5 ml and 10 ml, 50ml in a variety of designs and consist of either two or three components construction i.e barrel, plunger and needle The barrel of a syringe is made of plastic or glass, and usually has graduated marks indicating the volume of fluid in the syringe, and is nearly always transparent. However, most modern medical syringes are polymeric with a polymeric piston.The syringe has many non-medical applications like Laboratory applications for injection of highly reactive chemicals into reactor, cooking, to refill ink cartridges, injecting glue into closed tight surfaces, injecting lubricants onto working surfaces without spilling. One of the most outstanding features of plastics is the ease with which they can be processed. In some cases semi-finished articles such as sheets or rods are produced and subsequently fabricated into shape using conventional methods such as welding or machining Uses and Applications Disposable syringes commonly are used in modern medicine for the injection of drugs and vaccines or for the extraction of blood. The often are used instead of reusable syringes in an effort to avoid spreading a disease. Among the common uses of disposable syringes are the injecting of insulin by a diabetic person and the administering of a local anesthesia by a dentist. A medical syringe that is used to give shots to more than one person without being properly sterilized is a potential source of disease. This can be an especially pressing concern in poor or undeveloped areas, where an injection often cannot be given under ideal medical conditions. Therefore, disposable syringes often are favored over reusable syringes for vaccines, in order to avoid the risk of transmitting blood borne diseases such as human immunodeficiency virus (HIV) and hepatitis from one person to another. is one of the principal ways HIV is transmitted in the developed world. Market Survey Needles and syringes are amongst the most extensively used medical disposables. Healthcare professionals represent the largest end-use market for syringes, followed by diabetics The Present demand of Disposable Syringe is being adequately met by indigenous production. In increasing awareness in health care, AIDs and like diseases Expenditure on healthcare services, including diagnostics, hospital occupancy and outpatient consulting, the largest component of this spend is expected to grow more than 125% to Rs 1560 bn in nearby future. The Indian domestic Medicare devices industry is expected to grow from Rs 60 bn to Rs 76.5 bnas well. The overall market is estimated at Rs 150 bn. In India, the emergence of private Medicare services, especially through commercialization and corporatization, has contributed to the transformation With the healthcare sector being opened up to private players, India is now emerging as a lucrative market for global firms dealing in hi-tech diagnostic and imaging equipment. Larsen & Toubro operates in the market for monitors for medical equipment, ultrasound machines and surgical diathermies. It is making a strong foray into exports of medical equipment and is exporting to the European markets. It expects international sales to contribute around 50% of the total revenue from the medical equipment division. Hindustan Syringes and Medical Devices (HMD) enjoys a 65% market share. Imports constitute 10% of this market. In the single use needles market, HMD has a 70% market share, followed by imported brands with a 25% market share. The size of the local needles market is 2.5 bn units per annum. The Indian market is expanding in all directions as a result of better affordability and expanding medical service institutions Few Indian Major Players are as under: Albert David Ltd. Disposable Medi-Aids Ltd. H L L Lifecare Ltd. Hindustan Syringes & Medical Devices Ltd. Iscon Surgicals Ltd. La Medical Devices Ltd. Lifeline Injects Ltd. Lifelong Meditech Ltd. Nirma Ltd. Raaj Medisafe India Ltd. Sangam Health Care Products Ltd. Surgiplast Ltd.
Plant capacity: Syringes (1 ml) :14,000.0 Nos./Day.,Syringes (3 ml):14,000.0 Nos./Day.,Syringes (5 ml):14,000.0 Nos./Day.,Syringes (10 ml):14,000.0 Nos./Day.Plant & machinery: Rs.174 Lakhs.
Working capital: -T.C.I: Cost of Project :Rs.515 Lakhs.
Return: 30.00%Break even: 40.00%
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Low Carbon Ferro Manganese (Medium Grade) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

In igneous rocks, which comprise 95% of the earth’s crust the average percentage concentration of manganous oxide is 0.124. This is small in compared with the alumina (15.34), FeO + Fe2O3(6.88) and titania but very much higher than the incidence of the well known metals copper (0.010), zinc ( 0.004), and lead (0.002). In igneous rocks, which comprise 95% of the earth’s crust the average percentage concentration of manganous oxide is 0.124. Manganese is used in metallurgical industries in the form of ferro-manganese. Ferro-manganese contains about 80% Mn and 20% Fe. Generally ferro-manganese is produced in blast furnace or an electric furnace. Low silica ores are preferred as they reduce the slag volume. Secondly, the phosphorous content in the ore should also be low. A high purity ferro-manganese is produced by fused salt electrolysis method. The ore is roasted to produce MnO, followed by leaching with H2SO4 acid to form manganese sulphate. This solution is then neutralised to precipitate iron & aluminium. Other impurities are separated as sulphides. Finally the solution is used for electrolysis to produce ferro-manganese of metallurgical grade. The modern electric furnace route of ferro-manganese production gives 85 - 90% manganese recovery, MnO dust recycling is possible and a high degree of homogenisation, slag control and furnace scrabbing is practised. Further, smelting of high-grade Mn-ore with high-cabon ferro-manganese gives medium carbon ferro-manganese. A silicothermic reduction of manganese ore in an electric furnace yields low-carbon ferromanganese. Uses and Applications Low Carbon Ferro- Manganese is a Ferro alloy with high content of manganese. It gives strength to steel and is used in making of high tension steel; it is widely used in the manufacturing of tool steels, alloys steel & structural steels. Its property causes it to have a high affinity with sulphur in the steel and on combining produces Manganese Sulphide (MnS) which floats up to the metal surface. It is also used as a de-oxidizer and hence finds its usage in the manufacture of 18-8 Austenitic non magnetic stainless steel. In cast iron, manganese is used mainly to counteract the bad effects of sulfur. In steel, manganese acts as a deoxidizer and combines with sulfur, thereby improving the hot-working properties of the steel. Also improves the strength, toughness. Manganese ferroalloys, consisting of various grades of ferromanganese and silicomanganese, are used to provide a key ingredient for steelmaking. Market Survey According to industry experts, the Indian manganese alloy industry has the potential to meet the global challenges despite various constraints. With the necessary supportive measures from the government, the industry can make fast towards the path of sustainable growth and meet the higher requirement of the Indian steel industry. The estimated reserve of chrome ore in India is approx.178 MT. In the longer term, the direction of manganese prices will depend on a combination of economic growth in the industrialised world, and continued expansion of industrialising and emerging economies in Asia and South America. Over the next five years, the rise in steel production will lead to an increase in manganese consumption, with an annual average growth rate of 6% over the next five years, with China and India providing the main impetus for this growth. Global demand for manganese in batteries has been relatively stable at about 300ktpy. This has mainly been accounted for by zinc and alkaline primary batteries, but demand for manganese in rechargeable batteries has risen in recent years. Overall, total demand for manganese is expected to increase by around 6% per year over the next five years. The current scenario of Indian ferro alloys industry has changed due to rapid industrialisation with global steel demand on a high growth trajectory. The estimated production capacity of ferro alloys in India is more than double of the domestic demand, making the industry partially dependent on domestic market and more on export market. The future of industry will depend on international demand and export market against the wider industry impact of energy, ore shortages, production cost volatility and lower profit margin.
Plant capacity: 10 MT/Day.Plant & machinery: 256 Lakhs.
Working capital: -T.C.I: Cost of Project:691 Lakhs.
Return: 26.00%Break even: 65.00%
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IRON ORE MINING - 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, Plant Layout

An ‘Ore’ may be defined as the aggregate of minerals from which a desired constituent mineral can be extracted with profit. The most used of all metals “Iron” is believed to be the ninth most abundant element in the Universe. The tough stuff “Iron” makes up the earth’s core and is considered to be the base of civilization. The concentration of iron in the structure of the earth ranges from almost 80% in the inner core to about 5% in the outer crust. Iron is not found in the free elemental state. As technology advanced during the middle Ages, the trench was replaced by a small shaft furnace, and from this the present day blast furnace has developed. The use of waterpower to operate the blast was introduced during the 14th century. The consequent considerable increase in furnace temperature resulted in the production of iron with a much higher carbon content than formerly, namely cast iron. This was not malleable but it was soon discovered how this might be converted into malleable iron by a second heating in an ample supply of air (refining). The iron industry received a great impetus at the end of the 18th century, when the demand for iron began to increase as a result of the invention of the steam engine and the railway. The shortage of wood charcoal led to the introduction of coke, as fuel and as reducing agent. Coke was first used in the blast furnace by Abraham Darby, in 1732. The refining process underwent fundamental improvements during the 19th century, through the introduction of the blast refining method (Bessemer Process, 1855; Thomas-Gilchrist process, 1878) and of regenerative heating (Siemens-Martin process 1865). Later, smelting in the electric furnace has been introduced for the production of certain high-grade steel. Iron is the cheapest and most widely used metal. Its annual production exceeds by far that of all other metals combined. It comprises approximately 93% of the tonnage of all the metals used. Iron makes 5% of the earth’s crust, and is not found in its elementary form, but in the form of chemical compounds with other elements in hundreds of minerals of importance. It is the most wanted ferrous metal having wide application in several industries. Iron plays a vital role in development of any country. Iron and its alloys specially steel are mainly used in civil and engineering industries without which the entire mankind could not have come to the modern age of high quality living. Iron ore is the most important raw material for making pig iron, sponge iron and steel too. To cater to different product needs, many steel plants and ferro-alloys industries have been set up in India. Iron ore in different form is also used in other industries like cement, foundries, paint and glass. USES & APPLICATION Iron ore is used mainly for making pig iron, sponge iron and steel. Iron and steel together form the largest manufactured products in the world and each of them enters into each branch of industry and is a necessary factor in every phase of our modern civilization. Pure iron has relatively few and quite special uses. Ingot iron is galvanized for roofing, siding and tanks. In the form of corrugated pipe, it is used for culverts. Because of its relatively high purity, it is suited to oxyacetylene welding, both as material to be welded and as welding rod. It is used in vitreous enameling. Its good ductibility makes it suitable for deep drawing operations as in the manufacture of appliance part, e.g. washing machine tube; relatively low electrical resistance and high magnetic permeability lead to its use in many types of electrical equipment, generator fields, magnetic parts of relays, magnetic brakes and clutches. Iron ore is also used in ferro- alloy, cement, foundry, vanaspati and glass factories. MARKET SURVEY The Global Iron Ore Mining industry's financial performance has been highly volatile over the past five years. The industry weathered through triple-digit revenue spikes and double-digit declines. After two years of extraordinary growth in 2010 and, to a lesser extent, 2011, revenue contracted in 2012 due to plummeting prices of iron ore. However, according to IBIS World industry analyst Agiimaa Kruchkin, “In 2013, industry performance is expected to recover on the back of rebounding iron ore prices.” Consequently, industry revenue is expected to grow 4.7% to total $264.3 billion over the year. Profit has been similarly unstable, though it has increased overall at an annualized rate of 5.5% to about 43.2% of revenue in 2013. Despite a volatile performance, tremendous growth over the period has ultimately offset any declines, leading to estimated average annual revenue growth of 14.6% in the five years to 2013. Growth for the Global Iron Ore Mining industry has primarily occurred on the back of higher iron ore output and prices. Strong growth in large emerging nations, such as China and India, has driven the demand for iron ore and underpinned higher prices during most of the five-year period; as a result, industry revenue and profit have expanded rapidly. “The industry’s major players, such as Vale and Rio Tinto, have all benefited from these positive conditions, which have allow these companies to acquire several smaller companies over the period and increase market share,” says Kruchkin. Nonetheless, the industry retains its low-to-moderate market share concentration. Total iron ore production worldwide is expected to reach about 2.87 billion metric tons in 2013 (compared with 2.10 billion metric tons in 2008). More than half of this total will be traded internationally. Trade occurs primarily between regions rather than within regions, although there is some intraregional trade in Europe and North America. The major importing regions are North Asia and Europe, while the major exporting regions are South America and Oceania. Following the recession, most iron ore supply contracts shifted from annual pricing (which has been the norm since the 1960s) to more flexible quarterly or even monthly pricing. PRESENT MANUFACTURERS A Narrain Mines Ltd. B G H Exim Ltd. Chowgule & Co. (Salt) Ltd. Concast Steel & Power Ltd. East India Minerals Ltd. Electrosteel Castings Ltd. Essel Mining & Inds. Ltd. Femnor Mineral (India) Ltd. Frontline Corporation Ltd. Gimpex Ltd. Godawari Power & Ispat Ltd. Grace Industries Ltd. H L L Lifecare Ltd. I B C Ltd. Indian Potash Ltd. Jain Granites & Projects India Ltd. K I O C L Ltd. K N R Infrastructure Projects Pvt. Ltd. Kalyani Steels Ltd. Kohinoor Steel Pvt. Ltd. M G M Minerals Ltd. M M T C Ltd. M S P L Ltd. M S P Steel & Power Ltd. Maharashtra State Mining Corpn. Ltd. Mangal Steel Enterprises Ltd. Mark Steels Ltd. Metrochem Industries Ltd. Metroglobal Ltd. Monnet Ispat & Energy Ltd. Mysore Minerals Ltd. Mysore Sales International Ltd. Orissa Manganese & Minerals Ltd. Orissa Minerals Development Co. Ltd. Orissa Mining Corpn. Ltd. P K S Ltd. Rameshwara Jute Mills Ltd. Resurgere Mines & Minerals India Ltd. S P S Metal Cast & Alloys Ltd. S P S Steels Rolling Mills Ltd. S T C L Ltd. Sandur Manganese & Iron Ores Ltd. Sanjana Cryogenic Storages Ltd. Sesa Goa Ltd. Sesa Mining Corpn. Ltd. Sesa Resources Ltd. Shri Ramrupai Balaji Steels Ltd. Soneko India Ltd. Sunil Ispat & Power Ltd. Trimex Industries Ltd. Umil Share & Stock Broking Services Ltd. Usha Ispat Ltd.
Plant capacity: 140 MT/DayPlant & machinery: Rs. 358 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 635 Lakhs
Return: 28.18%Break even: 57.96%
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E–WASTE RECYCLING PLANT - 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

E-waste is a popular, informal name for electronic products nearing the end of their useful life. Computers, televisions, VCRs, stereos, copiers, and fax machines are common electronic products. While there is no generally accepted definition of e-waste, in most cases, e-waste comprises of relatively expensive and essentially durable products used for data processing, telecommunications or entertainment in private households and businesses. According to the recent survey, electronic discards are one of the fastest growing segments of our nation's waste stream. Electronic wastes, e-waste , e-scrap , or Waste Electrical and Electronic Equipment ( WEEE ) is a description of surplus, obsolete, broken or discarded electrical or electronic devices. According to the OECD, any appliance using an electric power supply that has reached its end-of-life would come under WEEE. Technically, electronic waste is the component which is dumped or disposed or discarded rather than recycled, including residue from reuse and recycling operations. Because loads of surplus electronics are frequently coming led (good, recyclable, and non-recyclable), several public policy advocates apply the term e-waste broadly to all surplus electronics. WEEE has been identified as one of the fastest growing sources of waste in the EU, and is estimated to be increasing by 16-28 per cent every five years. Within each sector a complex set of heterogeneous secondary wastes is created. However, there exist huge variations in the nature of electronic wastes between sectors, and treatment regimes appropriate for one cannot be readily transferred to another. There is also a lack of definition around the specific details of the treatment requirements of WEEE. It is therefore, the process of recycling of components containing hazardous compounds such as halogenated chlorides and bromides used as flame-retardants in plastics, Copper, PVC sheathing of wires etc., has emerged as a life threatening process, as recycling of such materials produces harmful dioxins. Land filling e-waste, one of the most widely used methods of disposal, is prone to hazards because of leachate which often contains heavy water resources. Older landfill sites and uncontrolled dumps pose a much greater danger of releasing hazardous emissions. Mercury, Cadmium and Lead are among the most toxic leachates. Market survey WEEE has been identified as one of the fastest growing sources of waste in the India, and is estimated to be increasing by 16-28 per cent every five years. Within each sector a complex set of heterogeneous secondary wastes is created. Although treatment requirements are complicated, the sources from any one sector possess many common characteristics. However, there exist huge variations in the nature of electronic wastes between sectors, and treatment regimes appropriate for one cannot be readily transferred to another. The first comprehensive study to estimate the annual generation of e-waste in India and answer the questions above is being undertaken up by the National WEEE Taskforce. So far the preliminary estimates suggest that total WEEE generation in India is approximately 1, 46,000 tons per year. The top states in order of highest contribution to WEEE include Maharashtra, Andhra Pradesh, Tamil Nadu, Uttar Pradesh, West Bengal, Delhi, Karnataka, Gujarat, Madhya Pradesh and Punjab. The city wise ranking of largest WEEE generators is Mumbai, Delhi, Bangalore, Chennai, Kolkata, Ahmadabad, Hyderabad, Pune, Surat and Nagpur. Almost 50% of the PC's sold in India are products from the secondary market and are re-assembled on old components. The remaining market share is covered by multinational manufacturers (30%) and Indian brands (22%).
Plant capacity: 2164500 kgs. /annumPlant & machinery: Rs. 233 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 500 Lakhs
Return: 22.00%Break even: 49.00%
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Packaged Drinking Water - 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

Water is the necessity of our daily life, it’s so important for us that we need clean, safe and sanitary water every day, and usually there’s a more strict inspection standard in the more advanced country. Potable spring waters containing, sulphur, iron, magnesium and other mineral salts occurring in certain regions are claimed to be beneficial to human metabolism. There are two kinds of drinking water in the market. One is the natural water, which is called mineral water. The other is processed water coming from underground or from the pipe of water plant, which is called R.O. water, space water or pure water. Mineral water comes from natural springs. It contains a lot of various kinds of chemical goods such as potassium, magnesium and calcium, which are healthy to our body. After the water is filtered and sterilized properly, it’s our first choice to use it. However, the shortcoming is that the source of mineral water is limited. On the other side, pure water doesn’t contain any nutrition, but it’s easy to be obtained and very clean after being processed. It tastes good with PH value 5-7?that’s the reason why people like it very much. Pure water is processed through different stages of a filter system such as sand, carbon, and Reversed Osmosis System. The water is passed from 5 micron through 1 to 0.2 micron filter. After that, pure water can be filtered to remove harmful materials with an efficiency of 96%. Uses Mineral water is bottled under very hygienic conditions under strict quality control before being marketed. Its major use is in five star Hotels and Hospitals where good quality pure water is required for potable purposes. It is marketed at places and regions where hygienic drinking water is not freely available. Market Survey Bottled Water Bottled water industry, colloquially called, the mineral water industry, is a symbol of a new lifestyle and health-consciousness emerging in India. While a large segment of the population is struggling to get access to potable water supply, a new generation - especially in the urban areas - is getting accustomed to bottled water paying handsome prices. The total size of the bottled water market in India is estimated at Rs 20 bn. What is amazing is that people are prepared to pay Rs 10 or more for a litre of 'simple' water - especially when the cost of material input is negligible. The cost of packaging can be as high as 15% to 35% of the price of the product. In bottled water market, the cost of entry and the cost of exit is low. One does not require much equipment to make bottled water. The bottled water market is growing at a rapid rate of around 20% a year (down from 50 to 60%). At this growth rate, the market is estimated to overtake the soft drinks market soon. Multi-nationals Coca-Cola, Pepsi, Nestle and others are trying to grab a significant share of the market. There are more than 1800 brands in the unorganized sector. The small players account for nearly 19% of the total market. Nevertheless, per capita consumption of bottled water in India is less than half a litre per year, compared to 111 litres in France and 45 litres in the US. The consumption of smaller packs (500 ml) has increased perceptibly by around 140%. Even school children are carrying the 500-ml packs in their school-bags. The 20 litre jars have found phenomenal acceptance in households and in work places. The growth trends in packaged drinking water and a growing demand is indicative of the fact that water and its variants will be the single largest beverage category, growing and becoming at least 20 times of the current market size within the next 10-12 years. The BIS certification was made mandatory for the segment from April 2001. The bottled water was classified as food and has been brought under the Prevention of Food Adulteration Act. The producers have to adhere to rules pertaining to colour, odour, taste, turbidity, total dissolved solids and aerobic microbial count. Few Major Players are as under:- Ajay Enterprises Ltd. Akash Housing Ltd. [Merged] Aradhana Snack Foods Co. Bikaji Marketing Ltd. Bisleri International Pvt. Ltd. Durgapur Projects Ltd. G E I Foods Ltd. Golden Anchor Pvt. Ltd. Jagatjit Industries Ltd. Keventer Agro Ltd. Mohan Meakin Ltd. Mount Everest Mineral Water Ltd. N E P C Agro Foods Ltd. Nuway Organic Naturals India Ltd. Orient Beverages Ltd. Parle Bisleri Pvt. Ltd. [Merged] Parle International Pvt. Ltd. Pepsico India Holdings Pvt. Ltd. Pondicherry Agro Service & Inds. Corp. Ltd. Rose Valley Inds. Ltd. Sparkle Foods Ltd. Sri Sarvaraya Sugars Ltd. Surat Beverages Ltd. Vaarad Ventures Ltd. Vijay Shanthi Builders Ltd.
Plant capacity: 210 Lakhs Nos. /annumPlant & machinery: Rs. 719 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 1736 Lakhs
Return: 25.00%Break even: 56.00%
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Copper Sulphate - 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, Plant Layout

Copper (II) Sulfate is a chemical compound with the formula CuSO4. It occurs in nature as mineral hydrocyanite. It is gray to white and has rhombic crystal morphology. It decomposes to green basic copper (II) sulphate at 340 deg C and at 600-650 deg C it decomposes to copper oxide. It is generally prepared by controlled heating of Copper Sulphate Pent-hydrate, CuSO4.5H2O. Copper sulphate term is generally used to describe pent hydrate compound of copper sulphate which is also known as blue stone, blue vitriol etc. It is best known and the most widely used of the copper salts. Indeed it is often the starting raw material for the production of many of the other copper salts. Today the world's consumption is around 250,000 tons per annum of which it is estimated that approximately three-quarters are used in agriculture, principally as a fungicide. Uses & Application Anhydrous Copper sulphate has limited commercial use. • It is used as a desiccant for removing water from organic solvents. • It acts as a sensitive indicator of the presence of moisture in organic solvents. Copper sulphate pentahydrate is a very versatile chemical with as extensive a range of uses in industry. • It is used as an algaecide, an herbicide in irrigation and municipal water treatment systems, and as a molluscicide, a material used to repel and kill slugs and snails. • The metal industry uses large quantities of copper sulphate as an electrolyte in copper refining, for copper coating steel wire prior to wire drawing and in various copper plating processes. • The mining industry employs it as an activator in the concentration by froth flotation of lead, zinc, cobalt and gold ores. • The printing trade takes it as an electrolyte in the production of electrotype and as an etching agent for process engraving. • The paint industry uses it in anti-fouling paints and it plays a part in the coloring of glass. • Copper sulphate is a fungicide used to control bacterial and fungal diseases of fruit, vegetable, nut and field crops. It is used in combination with lime and water as a protective fungicide, referred to as Bordeaux mixture, for leaf application and seed treatment. • Copper deficiency in plants or animals can be corrected very simply either by applying 50 kg copper sulphate per hectare in the form of a fertilizer before sowing or by spraying the foliage of the young cereal plants. Market Survey The Market Survey on Copper Sulphate is of topical interest in the sense that copper is important metal used in India from ancient times. In fact, one age of human civilization is named after copper. Copper is also used in the alloy form as brass and bronze because of the added advantages. Copper was a scarce metal with respect to India but recent setting up of copper smelters has entirely changed the scenario of copper production/availability in the country. However, these copper smelters, except that of HCL, are producing copper based on the imported concentrates. This has opened a new path for the chemical manufacturing companies for producing copper based chemicals in the country. With numerous copper mines in the country, Copper compounds manufacturing has taken a good shot in last few years. Many Companies are setting their projects at different places in India. They produce environment friendly copper sulphate fertilizer, Copper Sulphate Electroplating Grade, Copper Sulphate Feed grade having 98% Copper content. Copper sulphate is widely used as fungicide in agricultural field. Therefore demand of copper sulphate directly depends upon the usage and development of agriculture in a country. In India, the total installed annual capacity of 43 technical grades of pesticides and fungicide is estimated at 148,000 tonnes of which only four grades (Mancozab 20,700 tonnes, Monocrotophos 14,000 tonnes, Malathion 11,800 tonnes and Endo-sulphan 10,100 tonnes) account for over 38% of the aggregate installed capacities. ? India is one among the most dynamic generic pesticides & fungicides manufacturing countries. And yet, India's own average consumption of it is low, below 500 gms per ha. Crop protection has assumed special importance since the food grains demand in the country is supposed to reach an estimated 343 mn tonnes by 2020. The agrochemical industry allocates an average of about 10% of its total sales turnover for research and development. This amounts to Rs 3.5-4.0 bn. The agrochemical industry is spread over around 200 large and medium sized manufacturers and 600 formulators producing about 60 technical grades of pesticides. Other important players in the sector include 10 multinational companies operating for quite some time. While the organized sector contributes 55% to the industry's output, the small scale sector makes up for the balance. The Indian industry has been focusing on integrated crop management (ICM), increasing exports of genuine pesticides & fungicide and concentrating on farmer-friendly activities. With the global market rising, there are encouraging prospects for the Indian industry. The pesticide industry is targeting a 10% share of global pesticides market and has been working on the ICM program to introduce safer applications, spray devices and crop protection through balanced use of biological and chemical pesticides. The exports cover pesticide intermediates. Pesticides and fungicide exports from India were growing at the rate of 15% and are expected to witness a more accelerated growth. Demand of copper sulphate is increasing rapidly for its use as a natural growth stimulant in animals, as well as in prevention of E.coli and listeria. The food-grade Copper Sulfate industry is a $1.2 billion industry growing at approximately 15% per year.
Plant capacity: 600 Nos. /annumPlant & machinery: 43 Lakhs
Working capital: -T.C.I: Cost of Project: 238 Lakhs
Return: 24.00%Break even: 60.00%
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Disposable Plastic Syringes - 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

It is an instrument which is used for injecting any liquid into the body of human beings or of animals. These syringes are used for injecting the medicine into the body or into the nerve of the body which are not possible to take in through mouth or takes much time in mixing with blood. A syringe is a simple piston pump consisting of a plunger that fits tightly in a tube. The plunger can be pulled and pushed along inside a cylindrical tube (the barrel), allowing the syringe to take in and expel a liquid or gas through an orifice at the open end of the tube. The open end of the syringe may be fitted with a hypodermic needle, a nozzle, or tubing to help direct the flow into and out of the barrel. The constantly increasing use of Disposable Syringes made of plastic Material indicates its importance, which is based mainly on the advantages it offers regarding cost and hygienic applications. Due to their availability is sterilized condition, ready to use and cost effectiveness, disposable syringes are fast replacing the age-old glass syringes. Disposable syringes are mostly injection moulded from polypropylene. Syringes are available in sizes of 1ml, 2ml, and 10ml, in a variety of designs and consist of either two or three components in their material of construction. The number and size of injection moulding machines required depends upon syringe construction, number of mould cavities and annual production. Uses & Applications Disposable syringes commonly are used in modern medicine for the injection of drugs and vaccines or for the extraction of blood. Among the common uses of disposable syringes are the injecting of insulin by a diabetic person and the administering of a local anesthesia by a dentist. Disposable syringes are favored over reusable syringes for vaccines, in order to avoid the risk of transmitting blood-borne diseases such as human immunodeficiency virus (HIV) and hepatitis from one person to another. Disposable syringes also are used to inject anesthetics for medical procedures. They can be used either alone or in combination with anesthetic gas for general anesthesia. They can be used in combination with anesthetic spray or cream for local anesthesia. The syringes used by dentists to administer local anesthesia before drilling or pulling teeth are a common example. Disposable syringes sometimes are used for drawing blood samples. They allow greater precision than evacuated tube systems, so syringes used together with butterfly needles often are favored when drawing blood. Market Survey The Indian healthcare sector, including pharmaceutical, diagnostics and hospital services, is expected to more than double its revenues to Rs 2500 bn by 2014. Expenditure on healthcare services, including diagnostics, hospital occupancy and outpatient consulting, the largest component of this spend is expected to grow more than 125% to Rs 1560 bn. The Indian domestic Medicare devices industry is expected to grow from Rs 60 bn to Rs 76.5 bn in four years. The overall market is estimated at Rs 150 bn. A major part of the demand is met through imports. Devices, such as catheters and stents represent nearly two-fifth of the entire range of diagnostic devices and most critical as per international classification. Presently medical devices are treated like drugs and regulated by state drug regulators under the drug law - Drugs and Cosmetics Act. Guidelines would make it mandatory for producers to get their products certified by notified bodies like ISO and BIS. The market for non-premium equipments, appliances and disposables is, however, dominated by the domestic manufacturers, while foreign suppliers and Indian companies with foreign alliances dominate the high-end hi-tech medical equipment and appliances. With the healthcare sector being opened up to private players, India is now emerging as a lucrative market for global firms dealing in hi-tech diagnostic and imaging equipment. In the Indian single uses syringes market, which is nearly 1.5 bn units strong, Hindustan Syringes and Medical Devices (HMD) enjoys a 65% market share. Imports constitute 10% of this market. In the single use needles market, HMD has a 70% market share, followed by imported brands with a 25% market share. The size of the local needles market is 2.5 bn units per annum. With the opening of healthcare sector, the market for medical equipment and accessories has become more vibrant. A large number of new medical facilities have been created by a large numbers of service providers, which is indicative of the great potential for medical equipment in India. The Indian market is expanding in all directions as a result of better affordability, greater health consciousness and expanding medical service institutions. With a population of 1.15 bn, India will need to at least 2 mn beds in the next 10 years in order to attain a modest target of 2 per 1000 of population. With a total healthcare value of USD 400 bn, the potential for Medicare equipment is, indeed large. Although there is a large untapped potential, the industry is confronted with problems of low volumes, high cost of production/operation, and rapid obsolescence as a result of accelerated, almost continuous, technological breakthroughs. The fragmentation of production facilities forestalls any worthwhile effort at R&D. This leads to industry's dependence on imported technology. Nonetheless, it is crystal clear that with the fast commercialization process of the sector and upgradation of medical facilities, the potential is sky-high. Few Major Players are listed below: Albert David Ltd. Disposable Medi-Aids Ltd. H L L Lifecare Ltd. Hindustan Syringes & Medical Devices Ltd. Iscon Surgicals Ltd. La Medical Devices Ltd. Lifeline Injects Ltd. Lifelong Meditech Ltd. Nirma Ltd. Raaj Medisafe India Ltd. Sangam Health Care Products Ltd. Surgiplast Ltd.
Plant capacity: 180 Lakh Nos. /annumPlant & machinery: 245 Lakhs
Working capital: -T.C.I: Cost of Project: 455 Lakhs
Return: 26.00%Break even: 46.00%
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Copper Sulphate - 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, Plant Layout

Copper (II) Sulfate is a chemical compound with the formula CuSO4. It occurs in nature as mineral hydrocyanite. It is gray to white and has rhombic crystal morphology. It decomposes to green basic copper (II) sulphate at 340 deg C and at 600-650 deg C it decomposes to copper oxide. It is generally prepared by controlled heating of Copper Sulphate Pent-hydrate, CuSO4.5H2O. Copper sulphate term is generally used to describe pent hydrate compound of copper sulphate which is also known as blue stone, blue vitriol etc. It is best known and the most widely used of the copper salts. Indeed it is often the starting raw material for the production of many of the other copper salts. Today the world's consumption is around 250,000 tons per annum of which it is estimated that approximately three-quarters are used in agriculture, principally as a fungicide. Uses & Application Anhydrous Copper sulphate has limited commercial use. • It is used as a desiccant for removing water from organic solvents. • It acts as a sensitive indicator of the presence of moisture in organic solvents. Copper sulphate pentahydrate is a very versatile chemical with as extensive a range of uses in industry. • It is used as an algaecide, an herbicide in irrigation and municipal water treatment systems, and as a molluscicide, a material used to repel and kill slugs and snails. • The metal industry uses large quantities of copper sulphate as an electrolyte in copper refining, for copper coating steel wire prior to wire drawing and in various copper plating processes. • The mining industry employs it as an activator in the concentration by froth flotation of lead, zinc, cobalt and gold ores. • The printing trade takes it as an electrolyte in the production of electrotype and as an etching agent for process engraving. • The paint industry uses it in anti-fouling paints and it plays a part in the coloring of glass. • Copper sulphate is a fungicide used to control bacterial and fungal diseases of fruit, vegetable, nut and field crops. It is used in combination with lime and water as a protective fungicide, referred to as Bordeaux mixture, for leaf application and seed treatment. • Copper deficiency in plants or animals can be corrected very simply either by applying 50 kg copper sulphate per hectare in the form of a fertilizer before sowing or by spraying the foliage of the young cereal plants. Market Survey The Market Survey on Copper Sulphate is of topical interest in the sense that copper is important metal used in India from ancient times. In fact, one age of human civilization is named after copper. Copper is also used in the alloy form as brass and bronze because of the added advantages. Copper was a scarce metal with respect to India but recent setting up of copper smelters has entirely changed the scenario of copper production/availability in the country. However, these copper smelters, except that of HCL, are producing copper based on the imported concentrates. This has opened a new path for the chemical manufacturing companies for producing copper based chemicals in the country. With numerous copper mines in the country, Copper compounds manufacturing has taken a good shot in last few years. Many Companies are setting their projects at different places in India. They produce environment friendly copper sulphate fertilizer, Copper Sulphate Electroplating Grade, Copper Sulphate Feed grade having 98% Copper content. Copper sulphate is widely used as fungicide in agricultural field. Therefore demand of copper sulphate directly depends upon the usage and development of agriculture in a country. In India, the total installed annual capacity of 43 technical grades of pesticides and fungicide is estimated at 148,000 tonnes of which only four grades (Mancozab 20,700 tonnes, Monocrotophos 14,000 tonnes, Malathion 11,800 tonnes and Endo-sulphan 10,100 tonnes) account for over 38% of the aggregate installed capacities. ? India is one among the most dynamic generic pesticides & fungicides manufacturing countries. And yet, India's own average consumption of it is low, below 500 gms per ha. Crop protection has assumed special importance since the food grains demand in the country is supposed to reach an estimated 343 mn tonnes by 2020. The agrochemical industry allocates an average of about 10% of its total sales turnover for research and development. This amounts to Rs 3.5-4.0 bn. The agrochemical industry is spread over around 200 large and medium sized manufacturers and 600 formulators producing about 60 technical grades of pesticides. Other important players in the sector include 10 multinational companies operating for quite some time. While the organized sector contributes 55% to the industry's output, the small scale sector makes up for the balance. The Indian industry has been focusing on integrated crop management (ICM), increasing exports of genuine pesticides & fungicide and concentrating on farmer-friendly activities. With the global market rising, there are encouraging prospects for the Indian industry. The pesticide industry is targeting a 10% share of global pesticides market and has been working on the ICM program to introduce safer applications, spray devices and crop protection through balanced use of biological and chemical pesticides. The exports cover pesticide intermediates. Pesticides and fungicide exports from India were growing at the rate of 15% and are expected to witness a more accelerated growth. Demand of copper sulphate is increasing rapidly for its use as a natural growth stimulant in animals, as well as in prevention of E.coli and listeria. The food-grade Copper Sulfate industry is a $1.2 billion industry growing at approximately 15% per year.
Plant capacity: 600 Nos. /annumPlant & machinery: 43 Lakhs
Working capital: -T.C.I: Cost of Project: 238 Lakhs
Return: 24.00%Break even: 60.00%
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