HI-TECH PROJECTS · 2020-01-25 · Hi-Tech Projects,Feb’20, # 04 Best Industries to Start and...

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Hi-Tech Projects,Feb’20, www.eiriindia.org # 03

PROFITABLE INDUSTRIES FOR YOUSTEEL DOORS AND FRAMES

MANUFACTURING [3356]Doors may be defined as an openablebarrier secured in a wall opening. It isprovided to give an access to inside of aroom. The door is the main part of thebuilding which provides safety andprivacy. Different varieties of doors areavai lable according to the material ,manufacturer, etc. There are differenttypes of doors like flush doors, slidingdoors, revolving doors, collapsible doors,rolling shutter doors, etc. A steel door allowus opening or passage into a house,bui lding, room, apartment or closet bywhich persons enter. It is more strongother than normal wood door or otherstype of doors. Steel Doors. Steel or othersuch metal construction has been usedfor years as they are efficient and are asturdy option for exterior and interior doorsalike. These doors can be either be solidor hollow. It has been found to be a goodsubstitute for wood and is being usedextensively for making frames. Theframes can be made out of angles, Tee,channels or pressed steel plates.Holdfasts and hinges are normally weldedto the frame in case of steel frames.Normal shutters made out of wood etccan be fixed on these steel frames. Steelframes are quite popular and are beingused extensively for houses and otherlocations as they are economical than theconventional wooden frames. Shutterscan also be made out of Mild Steel (MS)sheets, welded or riveted to a frame ofangle iron or channel section, properlybraced. Steel doors can also be made inhigh qual i ty in cold rolled mild steel,precision engineered. They are long lastingrequiring minimum maintenance. They areavailable in beautiful shades with variouswood grain texturing. These can invariablybe used where security is of a greaterconcern. Steel doors are widely used inhouses, apartments and in places wheredoor operating conditions require a higherresistance to loads, mechanical damagesand corrosion. The use of metal materialsdoes not preclude the creation of interestingand structurally advanced products. Wellintegrated doors may constitute anarchitectural detail that bonds the wholeinterior. The precision of performancecombined with a high-qual i ty powdercoating in any color, enablesmanufacturing of a product adapted toindividual needs.

COST ESTIMATIONPlant Capacity 75 Nos/DayLand & Building RentedPlant & Machinery Rs. 1.01 CrW.C. for 3 Months Rs. 2.07 CrTotal Capital Investment Rs. 3.37 CrRate of Return 37%Break Even Point 56%*********************************************

FOOTWEAR MANUFACTURING[3357]

Poly Urethane (PU) is a plastic material orpolymer consisting of organic units linkedby carbamate links. Main sources of itsformation include di-isocyanates, tri -isocyanates and polyols, along with theseamine catalyst, bio derived material ,hydroxyl and amine terminatedcompounds are used in i ts formation.Foam and non-foam PU are furthermodified by using surfactants. Hydrogenbonding also determines the properties offinal PU product. The product does notmelt when heated, which are known asthermosetting polymers. They are alsoavai lable as thermoplastic PU.TPU(Thermo Plastic Urethane), for highqualityfootwear, into the country. This materialhas better properties than PVC or TPR(conventional materials used forfootwear). Footwear is the product toprotect human feet from effects of al lbiological damages. Footwear industry isage old traditional industry in India and ithas been changed structurally intodifferent segments l ike casual-wears,dress-wears and sportswear. New segmentis emerging for medical purposes asmedical-wear like diabetic footwear. Manycompanies use to concentrate differentsegment like men’s-wear, women’s-wearand children’s-wear separately. Footwearindustry has been giving considerableamount of employment to the nationespecially weaker sections and minoritysections of society in India. Populationgrowth, exports, domestic markets are thefactors of expansion of footwear industryand creation of employment opportunitiesin this sector. This case study reveals theproduction capacities, structure of industry,exports growth, global imports, per capitaconsumption and estimates of futurerequirements of human resources infootwear industry in India. The majorproduction of footwear manufacturingconcentrated in these centers. • Tamil Nadu- Chennai, Ambur, Ranipet, Vaniyambadi,Trichy, Dindigul. • Maharashtra - Mumbai,• West Bengal - Kolkata, • Uttar Pradesh -Kanpur, Agra & Noida, • Punjab –Jallandhar, Ludhiana, • Karnataka -Bangalore, • Andhra Pradesh - Hyderabad,• Haryana - Ambala, Gurgaon, Panchkulaand Karnal, • Delhi and Surroundings. Theleft and right footwear were identical andhence could be worn on either foot. Onlyprolonged usage shaped them into rightand left boots. The right and left shoeswere invented by a fashionable bootmaker, William Young from Philadelphiain 1800. The first crafted footwear is theSandals, which are known to be thesuccessors to these wrappings. The IndianFootwear sector is a promising one withtremendous opportunity for growth both inthe international and domestic market. Withlow production cost, abundant supply of

raw material , evolving retai l system,buying patterns and huge consumptionmarket, this sector is posed to grow togreat heights. How the Polyurathane ismade:- A variety of raw materials are usedto produce polyurethanes.These includemonomers, prepolymers, stabilizers whichprotect the integrity of the polymer, andcolorants. One of the key reactivematerials required to producepolyurethanes are diisocyanates.Thesecompounds are characterized by a (NCO)group, which are highly reactive alcohols.The most widely used isocyanatesemployed in polyurethane production aretoluene diisocyanate (TDI) and polymericisocyanate (PMDI). TDI is produced bychemically adding nitrogen (/knowledge/Nitrogen.html) groups on toluene, reactingthese with hydrogen to produce a diamine,and separating the undesired isomers.PMDI is derived by a phosgenationreaction of ani l ine formaldehydepolyamines. In addition to theseisocyanates, higher end materials are alsoavailable. These include materials like 1,5-naphthalene diisocyanate andbitolylenedi isocyanate. These moreexpensive materials can provide highermelting, harder segments in polyurethaneelastomers. The other reacting speciesrequired to produce polyurethanes arecompounds that contain multiple alcoholgroups (OH), cal led polyols. Materialsoften used for this purpose are polyetherpolyols, which are polymers formed fromcyclic ethers. They are typically producedthrough an alkylene oxide polymerizationprocess. They are high molecular weightpolymers that have a wide range ofviscosity. Various polyether polyols thatare used include polyethylene (/knowledge/Polyethylene.html) glycol,polypropylene glycol, andpolytetramethylene glycol. Thesematerials are generally utilized when thedesired polyurethane is going to be usedto make flexible foams or thermosetelastomers. Polyester polyols may alsobe used as a reacting species in theproduction of polyurethanes.They can beobtained as a by-product of terephthalicacid production. They are typically basedon saturated aromatic carboxylic acidsand diols. Branched polyester polyols areused for polyurethane foams and coatings.Polyester polyols were the most usedreacting species for the production ofpolyurethanes. However, polyetherpolyols became significantly less expenseand have supplanted polyester polyols.

COST ESTIMATIONPlant Capacity 11,500 Pair/DayLand & Building (800sq.mt) Rs.63.37 LacsPlant & Machinery Rs. 39.20 LacsW.C. for 1 Month Rs. 5.95 CrTotal Capital Investment Rs. 7.12 CrRate of Return 70%Break Even Point 26%*********************************************


Best Industries to Start and GrowPU FOOTWEAR

MANUFACTURING [3358]Poly Urethane (PU) is a plastic material orpolymer consisting of organic units linkedby carbamate links. Main sources of itsformation include di-isocyanates, tri -isocyanates and polyols, along with theseamine catalyst, bio derived material ,hydroxyl and amine terminatedcompounds are used in i ts formation.Foam and non-foam PU are furthermodified by using surfactants. Hydrogenbonding also determines the properties offinal PU product. The product does notmelt when heated, which are known asthermosetting polymers. They are alsoavai lable as thermoplastic PU.TPU(Thermo Plastic Urethane), for highqualityfootwear, into the country. This materialhas better properties than PVC or TPR(conventional materials used forfootwear). Footwear is the product toprotect human feet from effects of al lbiological damages. Footwear industry isage old traditional industry in India and ithas been changed structurally intodifferent segments l ike casual-wears,dress-wears and sportswear. New segmentis emerging for medical purposes asmedical-wear like diabetic footwear. Manycompanies use to concentrate differentsegment like men’s-wear, women’s-wearand children’s-wear separately. Footwearindustry has been giving considerableamount of employment to the nationespecially weaker sections and minoritysections of society in India. Populationgrowth, exports, domestic markets are thefactors of expansion of footwear industryand creation of employment opportunitiesin this sector. This case study reveals theproduction capacities, structure of industry,exports growth, global imports, per capitaconsumption and estimates of futurerequirements of human resources infootwear industry in India. The majorproduction of footwear manufacturingconcentrated in these centers. • Tamil Nadu- Chennai, Ambur, Ranipet, Vaniyambadi,Trichy, Dindigul. • Maharashtra - Mumbai,• West Bengal - Kolkata, • Uttar Pradesh -Kanpur, Agra & Noida, • Punjab –Jallandhar, Ludhiana, • Karnataka -Bangalore, • Andhra Pradesh - Hyderabad,• Haryana - Ambala, Gurgaon, Panchkulaand Karnal, • Delhi and Surroundings. Theleft and right footwear were identical andhence could be worn on either foot. Onlyprolonged usage shaped them into rightand left boots. The right and left shoeswere invented by a fashionable bootmaker, William Young from Philadelphiain 1800. The first crafted footwear is theSandals, which are known to be thesuccessors to these wrappings. The IndianFootwear sector is a promising one withtremendous opportunity for growth both inthe international and domestic market. Withlow production cost, abundant supply of

raw material , evolving retai l system,buying patterns and huge consumptionmarket, this sector is posed to grow togreat heights. How the Polyurathane ismade:- A variety of raw materials are usedto produce polyurethanes.These includemonomers, prepolymers, stabilizers whichprotect the integrity of the polymer, andcolorants. One of the key reactive materialsrequired to produce polyurethanes arediisocyanates.These compounds arecharacterized by a (NCO) group, whichare highly reactive alcohols. The mostwidely used isocyanates employed inpolyurethane production are toluenediisocyanate (TDI) and polymericisocyanate (PMDI). TDI is produced bychemically adding nitrogen (/knowledge/Nitrogen.html) groups on toluene, reactingthese with hydrogen to produce a diamine,and separating the undesired isomers.PMDI is derived by a phosgenation reactionof aniline formaldehyde polyamines. Inaddition to these isocyanates, higher endmaterials are also available. These includematerials like 1,5-naphthalene diisocyanateand bitolylenediisocyanate. These moreexpensive materials can provide highermelting, harder segments in polyurethaneelastomers. The other reacting speciesrequired to produce polyurethanes arecompounds that contain multiple alcoholgroups (OH), called polyols. Materials oftenused for this purpose are polyether polyols,which are polymers formed from cyclicethers. They are typically producedthrough an alkylene oxide polymerizationprocess. They are high molecular weightpolymers that have a wide range ofviscosity. Various polyether polyols thatare used include polyethylene (/knowledge/Polyethylene.html) glycol,polypropylene glycol, andpolytetramethylene glycol. Thesematerials are generally utilized when thedesired polyurethane is going to be usedto make flexible foams or thermosetelastomers. Polyester polyols may alsobe used as a reacting species in theproduction of polyurethanes.They can beobtained as a by-product of terephthalicacid production. They are typically basedon saturated aromatic carboxylic acids anddiols. Branched polyester polyols are usedfor polyurethane foams and coatings.Polyester polyols were the most usedreacting species for the production ofpolyurethanes. However, polyetherpolyols became significantly less expenseand have supplanted polyester polyols.

COST ESTIMATIONPlant Capacity 11,500 Pair/DayLand & Building (6000 sq.mt) Rs. 4.15 CrPlant & Machinery Rs. 58.37 LacsW.C. for 1 Month Rs. 6.21 CrTotal Capital Investment Rs. 11.12 CrRate of Return 86%Break Even Point 23%**********************************************

SS FABRICATION INCLUDESMODULAR FURNITURE, KITCHEN

AND KITCHEN PLATES, GRILLGATE AND RAILING [3359]

Modular Kitchen is a term used for themodern kitchen furniture layout consistingof modules of cabinets made of diversifiedmaterials which hold accessories inside,which can facilitate the effective usageof the spaces in a kitchen. Normally theunits which are kept on the floor are called“floor units” or “floor cabinets” on which akitchen worktop made of granite, marble,tile or wood has been laid for creatingspaces for varied activities in a kitchen.The units which are held on the wall forstorage purposes are termed as “wall units”or “wall cabinets”. In small areas of kitchenin an apartment, even a “tall storage unit”is avai lable for effective storage. Amodular kitchen is a set of pre-madecabinets that can be easily assembledtogether to give the user a fully functionaldesign. It usually features a clean andcontemporary finish and comes in avariety of colours and finishes. The pre-made cabinets are available in two forms- lower and upper units. It not only offersyou a sense of freedom for customization,it also gives you plenty of storage in limitedspace. They are gaining populari tybecause they are much smoother tooperate and look smarter than the non-modular form of kitchens. The modularform of kitchens date back to more than125 years and are said to be used andconceptualized first in Germany. However,the designs became extremely popular inSweden and were known as SwedishKitchens for quite a long a time. Ascompared to the custom-made kitchens,a modular kitchen is less expensive aseverything is pre-made. Opting for it helpssave time as everything is alreadyconstructed and just requires installation.On the other hand, custom-made kitchenneeds to be built onsite, is time-consumingand sometimes may not give you asatisfactory result both in the looks &utility departments. • Aside of the highfunctionali ty because of wel l-definedstorage modules i t gives your cookingarea a well-defined, sleek, clean and trendylook. • It not only adds to the beauty ofthe house, it also offers enough storagespace for all big and small utensils. • Onecan choose from a variety of colours,patterns and finishes to make the kitchenstand out from the rest and match thelook of the house. • Not only it is easy torepair, the easy to assemble andreassemble feature allows you to carry italong when you change your home. • Onecan effortlessly clean i t without anyprofessional help. • If any of thecomponents of your modular kitchen gobad or get affected by the environment,they can easily be replaced/repaired. While


Start Your Own Industryreplacing or repairing the affected area,other parts of need not to be disturbed. •They are highly durable as the attachmentsare usual ly made using high-quali tymaterial . • A modular kitchen makesworking easier and convenient, courtesythe properly planned cabinets, drawers andracks. • You can also opt for one thatmatches the design of the furniture keptin your house. Stainless steel kitchenshave become extremely popular nowadayswith the its airy and light feel. But onething that might not appeal to experts withthis material used for kitchen cabinets isits issue or staining. Also, stainless steelacts as a conductor of electricity and mightrequire the repainting job in every fewmonths. But the appearance and feel ofthis material used for kitchen cabinets ina modular kitchen design is classy andpleasing to the eyes.

COST ESTIMATIONProject Name SS FabricationLand & Building (6000 sq.mt) Rs. 7.31 CrPlant & Machinery Rs. 4.92 CrW.C. for 2 Months Rs. 5.26 CrTotal Capital Investment Rs. 16.07 CrRate of Return 24%Break Even Point 55%********************************************

KRAFT PAPER FROM WASTEPAPER (40 TPD) [3360]

Paper form a commodity of primeimportance to day from the parts of viewof mass communication, education, andindustrial and economic growth. The art ofpaper making was first discovered inChina in and around 2nd century. B.C.pan where it travelled slowly west wardand reached the prantiens of Europe. Bythe end of 14th century, a member ofpaper mill existed in Europe, particularlyin Spain, Italy, France and Germany. theinvention of printing in 1956 brought avastly in creased demand for paper, andpaper-manufacturing was introduced toEngland. America fol lowed in 1690.Agricultural residues, such as bagasse,rice husk, wheat husk jute sticks, grasses,etc are fast becoming popular materialsfor paper making. considerable attentionis being given to the utilization of variousagricultural by products for preparingpulp for paper manufacture landableefforts are being make in this direction.Paper production requires a disintegrationof the bulky fibrous material to individualor small agglomerate fibres. This is calledpulping. The ideal fibre for high grade papershould be long, high in cellulose contentand low in ligrin content. Most ideal rawmaterial for paper products is bamboo.Other sources are bagasse and hardwoodslike jute stick must be developed and goodquality paper pulp make by blending withbamboo fibre. Over recent years, theemergencies of mini paper plants on areal i ty seems to hold the promise of

adding new horizons to the developmentand growth of Indian paper industry. Inmay be noted with concern that the largesector of this industry for quitesometime, has fai led to sustain anyappreciable growth due to various factorseg. The plant being highly capital intensivelow rates of return and the raw materialbottlenecks etc. mini paper plants areviewed as an effective remedy to thecurrent ailments of the paper industryas they involve much less capital costand are proved to be technically feasibleand economically viable these plants canbe erected on the basis of fully indigenousexpertise, knowhow and machinery.Moreover, they after an effective meansof lasing considerably the burden anconventional raw materials. The paperindustry of India is faced with numerousdifficulties, some of which are given below:1. Shortage of Fibrous Raw Material:- Thelack forest resources requires long rangeplanning for development of improvedbamboo has vesting utilization of bagasse,jute etc. 2. High process and Shortage ofChemicals:- Shortage of sulphur, salt cake(Na2So4) and chlorine with correspondinghigh prices place in the Indian paper industryto a great disadvantage in attempting toexport paper product to a regement offoreign exchange position. This forces agreat deal move attention an chemicalrecovery methods. Due to the aboveproblems, it become necessary to usesimple and more scientific methods forthe manufacture of paper products. Dueto the lack of the fibres material jute stickis now being started to be wed as thestarting material . the paper producedfrom jute is very hard and hascomparatively high tensi le strength.Move over, the chemicals used areavai lable indigenously without anydifficulty. There are move than 30 to 40paper industries producing in public andsmall scale sector. The other factors whichcan be kept in view in selecting the rawmaterials. 1. The fibres of the raw materialshould be of high strength. 2. Strengthmethods used for preparing the pulpshaved be easy and hot be complicated.3. Properties of the product shaved be ofquality by seeing the above problemsand jute sticks are quite suitable forthe production of paper. A good supplyof jute sticks should be ensured by thesuppliers. Mini paper plants are mainlydependent on supplies of waste paper andrafs. They also make pulp out of cerealstraw and other agricultural residues. Afurther important factor in favour of themini paper plants is that their consumptionof chemicals is far less than in the largescale units, and the power requirementsare also less. The qual ity of paperproduced in mini paper plants is, however,some what inferior to that obtainable inlarge scale units.

COST ESTIMATIONPlant Capacity 40 MT/DayLand & Building (16,000 sq.mt) Rs.12 CrPlant & Machinery Rs. 15.19 CrW.C. for 3 Months Rs. 9.61 CrTotal Capital Investment Rs. 37.74 CrRate of Return 32%Break Even Point 48%*******************************************

SMALL MILK PROCESSING UNITOF 200LPH MILK RECEPTION,PROCESSING AND (500ML)

POUCHING PLANT (TOTAL PERDAY CAPACITY 2000 LITRES)

[3361]The importance of milk in human dietespecially for children and expectant andnursing matters is vi tal . Unl ike richcountries l ike the U.K. and the U.S.dairying in India is a subsidiary occupationof almost all the farmers. More than 60per cent of the famil ies involved indairying belong to the small or marginalfarmers or even agricultural labourers. Inthe first half of the 1900 dairying in thecountry was largely unorganized, exceptfor military farm which were establishedand largely stocked with the Europeanbreeds. In the plantation areas, pure breedexotic bulls were randomly crossbled withlocal cows. Apart from the "poskets" ofimproved animals thus created, dairyingwas largely left in the hands oftraditional producers, middle man, productmakers and vendors. Some private dairieswere more or less modern processingfaci l i ties were encouraged to makepasteurized butter mainly for the BritishArmy. In the early 1940's one such firmalso become the prime supplies to thecountry's first official urban milk supplyscheme "The Bombay Milk Scheme".Under it chilled milk was transported incans by rails to Bombay from Anand inKheda District some 425 km fromBombay. When India became independentin 1947, are of earliest projects of its typeto be adopted was the creater BombayMilk Scheme which consisted of a marketmilk plant in Bombay, supplied with milkby the Khairs District Cooperative Milkproducers union. The union which had itsprocessing plant close to the town ofAnand, ultimately came to be known asthe Anand Milk Union Ltd abbreviatedto Amul, meaning "beyond price" orpriceless". The world’s largest duringdevelopment programme the operationflood is distinguished by its involvementof small holders and landless rural milkproducers. It aims to create a "flood" ofusual ly-produced Milk assuring thefarmer of remunerative price and readymarket and the urban consumer ofwholesome milk at stable and reasonableprices. The modern dairy sector was bestwith problems, the more important of which


Start Your Own Industrywere as follows. State Government foundit di fficult to effectively against milkproduction, procurement processing andmarketing. The urban dairies were unableto obtain more than a 30 per cent share oftheir l iquid-milk markets. "Dairydevelopment" had after been treated asif-it were synonymous with building dairyprocessing plants and there plantsfrequently got built in the towns wherethe consumers were, rather than in themilk-sheds where milk was produced andso they had found if difficult to organizerural milk procurement.

COST ESTIMATIONPlant Capacity 2000 Ltr/DayLand & Building (400 sq.ft) ExistingPlant & Machinery Rs. 25 LacsW.C. for 2 Months Rs. 52 LacsTotal Capital Investment Rs. 87.87 LacsRate of Return 66%Break Even Point 47%**********************************************

AGRICULTURE COLLEGE [3362]Agriculture has been the mainstay ofIndian economy since ages. The scienceand art of agriculture has many referencesin the Vedic li terature and the ancienthistory of the mankind. The agriculturesector in India provides livelihood to about52% of the population of the country andcontributes about 15% to the GrossDomestic Product Trained human resourcehas been the key factor behind the GreenRevolution, White Revolution, Yel lowRevolution, that has led India to becomeself reliant in food and becoming a fastdeveloping economy. Knowledge based,input-use efficient, eco-friendly, and hightech precision agriculture has been thenext stage for which efforts have beendirected by Indian Council of AgriculturalResearch (ICAR) and AgriculturalUniversities (Aus) in planning, designingand executing the national agriculturaleducational programmes. Considering theimportance of Agricultural establishmentof independent Rural Universities in thecountry in the year 1948. As a result ofthis recommendation, fi rst StateAgricultural University (SAU) wasestablished in 1960 at Pantnagar (Nainital)on the pattern of the Land Grant Collegesof the United States. The UniversityGrants Commision accorded the statusof Deemed-to-be-University (DU) to IndianAgricultural Research Institute, New Delhiin 1958 which became the fi rst ICARInstitute as Deemed University conductingpostgraduate teaching and research.Today, the country has a large ICAR-AUsystem with a total of 66 AgriculturalUniversities (Aus) comprising of 56 StateAgricultural, Veterinary, Horticulture andFisheries Universities, 1 CentralAgricultural University, Imphal, 4 ICAR-DUs (IARI, IVRI, NDRI and CIFE), 4Central Universities having agriculturalfaculty (BHU, AMU, Viswa Bharati and

Nagaland University) and 1 SamHigginbottom Insti tute of Agriculture,Technology & Sciences (SHIATS),Allahabad (formerly Allahabad AgriculturalInsti tute) awarding various kinds ofdegrees in different disciplines ofagricultural, veterinary and allied sciences.Agricultural education is also imparted insome traditional universities of thecountry. Agricultural education system isproducing invaluable human resource andevery year about 15,000 graduates,11,000 Masters and 2,500 Ph.D.s areadmitted. The Under Graduate degree in11 subjects of agriculture and al liedsciences and Master’s degree in about 93subjects, awarded by the Universitiesassociated with the ICAR are wel lrecognized and accepted for highereducation globally. Some of the graduatesalso start their own business units includingthe Agri. Clinics and Agro Service Centres.Fol lowing are some of the sectorsproviding placement to the agriculturalgraduates.

COST ESTIMATIONProject Name Agricultural CollegeLand (80,000sq.mt) Rs. 16.13 CrPlant & Machinery Rs. 3.00 CrW.C. for 2 Months Rs. 1.44 CrTotal Capital Investment Rs. 21.73 CrRate of Return 15%Break Even Point 69%********************************************

CABLE TRAY MANUFACTURING[3363]

A cable tray is a metal l ic frame arraywhich is used to support or lay cablesonto it. The cables will be tied onto thetray and will not be hidden. A cable trunkis an enclosure where cables are placed infor purposes of distribution. The cablesmay be tied or not tied is use for arrangingpower supply cable with the use of cabletie to look neat and for easy tracing ifthere is fault on the cable. (1) Ladder CableTray:- * Generally used in applications withintermediate to long support spans 12 to30 feet. * Ladder cable tray is used forabout 75 percent of the cable tray wiringsystem installations. It is the predominatecable tray type due to its many desirablefeatures: * A ladder cable tray withoutcovers permits the maximum free flow ofair across the cables. This allows the heatproduced in the cable’s conductors toeffectively dissipate. Under suchconditions, the conductor insulation in thecables of a properly designed cable traywiring system will not exceed its maximumoperating temperature. The cables will notprematurely age due to excessiveoperating temperatures. * The rungs ofthe ladder cable trays provide convenientanchors for tying down the cables in thenon-horizontal cable tray runs or wherethe positions of the cables must bemaintained in the horizontal cable tray runs.

This capabi l i ty is a must for singleconductor cable installations. Under faultconditions (short circuit), the magneticforces produced by the fault current willforce the single conductor cables fromthe cable tray if they are not securelyanchored to the cable tray. * Cables mayexit or enter the ladder cable trays throughthe top or the bottom of the cable tray.Where the cables enter or exit conduit,the conduit to cable tray clamps may beinstalled upright or inverted to terminateconduits on the top or bottom of the cabletray side rail. * Moisture can’t accumulatein ladder cable trays. * If cable trays arebeing installed where working space is aproblem, hand access through the cabletray bottom may help to faci l i tate theinstal lation of small diameter cables:control instrumentation, signal, etc. * Themost common rung spacing for laddercable tray is 9 inches. This spacing maybe used to support all sizes of cables.This spacing is desirable for the smalldiameter Type PLTC and TC cables asthe support distance is such that there isno visible drooping of the small cablesbetween rungs. 12 or 18 inch rung spacingprovides adequate cable support but thesl ight amount of small diameter cabledrooping between rungs may beaesthetical ly objectionable for someinstallations. The maximum al lowabledistance between supports for 1/0 through4/0 AWG single conductor cables is 9inches.

COST ESTIMATIONPlant Capacity 2500 Mtr/DayLand & Building (4000 sq.mt) Rs. 4.22 CrPlant & Machinery Rs. 98.90 LacsW.C. for 2 Months Rs. 5.74 CrTotal Capital Investment Rs. 11.18 CrRate of Return 74%Break Even Point 30%********************************************

HDPE PIPE MANUFACTURINGUNIT [3364]

High-density polyethylene (HDPE) is apolyethylene thermoplastic made frompetroleum. It is known for i ts largestrength-to-density ratio. The density ofHDPE can range from 0.93 to 0.97g/cm3or 970Kg/m3. The difference in strengthexceeds the difference in density, givingHDPE a higher specific strength. It isalso harder and more opaque and canwithstand much higher temperatures(120°C for short periods, 110°Ccontinuously). High-density polyethylene,unlike polypropylene, cannot withstandnormally required autoclaving conditions.The lack of branching is ensured by anappropriate choice of catalyst (e.g.,Ziegler-Natta catalysts) and reactionconditions. HDPE pipes are importantplastic products which have wide rangeof applications. These have more tensilestrength in comparison to other plastic

Top Industries to Start


pipes. These are being used for SprinklerIrrigation System, potable water supplyand sewerage purpose. Their low cost,easily instal lation and better durabil itymake them ideal for the purpose. Theyalso offer very good resistance to mostof the chemicals and have excel lentelectrical insulation properties. These pipesare also used for circulation of acids invarious chemical industries due to theiracid resistant qual i ty. The demand ofHDPE Pipes are likely to increase due totheir wide use in various sectors in India.Apart from its regular uses, such as forirrigation system, water supply, sewerage,i t is being used by Department ofTelecommunication for conduit for opticalfiber cables. Looking to i ts increaseddemand, it appears to be good scope forsetting up new small scale industries.Hence the product has good marketpotential.

COST ESTIMATIONPlant Capacity 8 MT/DayLand & Building (10,000 sq.mt) Rs. 3.24CrPlant & Machinery Rs. 3.38 CrW.C. for 1 Month Rs. 1.74 CrTotal Capital Investment Rs. 8.54 CrRate of Return 27%Break Even Point 59%********************************************

MILK CHILLING PLANT [3365]The importance of milk in human dietespecially for children and expectant andnursing matters is vi tal . Unl ike richcountries l ike the U.K. and the U.S.dairying in India is a subsidiary occupationof almost all the farmers. More than 60per cent of the famil ies involved indairying belong to the small or marginalfarmers or even agricultural labourers.In the first half of the 1900 dairying in thecountry was largely unorganized, exceptfor military farm which were establishedand largely stocked with the Europeanbreeds. In the plantation areas, pure breedexotic bulls were randomly crossbled withlocal cows. Apart from the "poskets" ofimproved animals thus created, dairyingwas largely left in the hands oftraditional producers, middle man, productmakers and vendors. Some private dairieswere more or less modern processingfaci l i ties were encouraged to makepasteurized butter mainly for the BritishArmy. In the early 1940's one such firmalso become the prime supplies to thecountry's first official urban milk supplyscheme "The Bombay Milk Scheme".Under it chilled milk was transported incans by rails to Bombay from Anand inKheda District some 425 km fromBombay. When India became independentin 1947, are of earliest projects of itstype to be adopted was the createrBombay Milk Scheme which consisted ofa market milk plant in Bombay, suppliedwith milk by the Khairs DistrictCooperative Milk producers union. The

union which had its processing plant closeto the town of Anand, ultimately came tobe known as the Anand Milk Union Ltdabbreviated to Amul, meaning "beyondprice" or priceless". The world’s largestduring development programme theoperation flood is distinguished by i tsinvolvement of small holders and landlessrural milk producers. It aims to create a"flood" of usually-produced Milk assuringthe farmer of remunerative price andready market and the urban consumer ofwholesome milk at stable and reasonableprices. The modern dairy sector was bestwith problems, the more important of whichwere as follows. State Government foundit di fficult to effectively against milkproduction, procurement processing andmarketing. The urban dairies were unableto obtain more than a 30 per cent share oftheir l iquid-milk markets. "Dairydevelopment" had after been treated asif-it were synonymous with building dairyprocessing plants and there plantsfrequently got built in the towns wherethe consumers were, rather than in themilk-sheds where milk was produced andso they had found if difficult to organizerural milk procurement.

COST ESTIMATIONPlant Capacity 2000 Ltr./DayLand & Building (400 sq.ft) Rs. 4.80 LacsPlant & Machinery Rs. 25 LacsW.C. for 2 Months Rs. 52 LacsTotal Capital Investment Rs. 87.87 LacsRate of Return 66%Break Even Point 47%*********************************************

MICROCRYSTALLINECELLULOSE (PHARMA, FOOD &

NON PHARMA GRADE) [3366]Microcrystalline cellulose, also known asMCC or cellulose gel, is commonly usedas a binder and disintegrant inpharmaceutical tablets, as a suspendingagent in liquid pharmaceutical formulations,and as a binder and stabil izer in foodapplications including beverages and asstabi l izers, binders, disintegrants andprocessing aids in industrial applications,household products such as detergentand/or bleach tablets, agriculturalformulations, and personal care productssuch as denti frices and cosmetics. Infoods, MCC is used alone or in coprocessedmodifications as a fat replacer. The classicprocess for MCC production is acidhydrolysis of purified cellulose. In effortsto reduce the cost while maintaining orimproving the quali ty of MCC, variousalternative processes have been proposed.Among these are steam explosion, reactiveextrusion, one-step hydrolysis andbleaching, and partial hydrolysis of a semi-crystalline cellulose and water reactionliquor in a reactor pressurized with oxygenand/or carbon dioxide gas and operating at

100 to 200°C. In the steam explosionprocess of Ha et al, a cellulose sourcematerial, such as wood chips, is contactedin a pressure reactor vessel withpressurized steam at a temperature of atleast about 170°C for a brief period,concluding with a rapid release of the steampressure (the "steam explosion" effect).Under these conditions the fibrous,amorphous, portions of the cellulosepolymer chains are hydrolyzed, leavingthe crystall ine segments of the chainswhich characterize the product as MCC.The hydrolysis can be fol lowed bydetermination of the extent ofdepolymerization of the cellulose, to asteady state known as "level off degreeof polymerization" (LODP). Typically,according to Ha et al, starting cellulosewill have a degree of polymerization ("DP")in excess of 1000 and the average DPcharacteristic of the steam exploded MCCproduct preferably will be in the range ofabout 100 to 400. The rapid decompressionin the steam explosion process,particularly when effected through a smallopening or die, faci l itates physicalseparation of cellulose, hemicellulose andlignin in the source cellulose material. Suchseparation enables more efficientsubsequent extraction of the hemicelluloseand l ignin. Another advantage of thesteam explosion process is that i teliminates need for an acid hydrolysis toachieve the requisite depolymerization. Adisadvantage is difficulty in controllingprocess conditions for optimization ofMCC yield and quality. Ha et al disclosethat the MCC product may subsequentlybe bleached with hydrogen peroxide orother reagent. Cellulose is the principalfiber cell-wall material of green terrestialand merine plants, produced also by afew bacteria, animals and fungi, andthus the most abundant natural material(40% in wood, over 70% in best and leaffibres, 95% in the ceou wall of the greenalga valonia ventricosa; Ca 5 x 10"metrictions biosynthesized yearly).Cel lulose is a long l inear polymer ofanhydroglucose units, and this is reflectedin the thread like structures of cellulosefound in the plant cell walls elementaryfibrils approximately 3.5 m in width andindefinite length) which are further laterallyassociated to provide strength (asmicrofibri ls, general ly 10-30 mm inbreadth).

COST ESTIMATIONPlant Capacity 5 MT/DayLand & Building (2000 sq.ft) Rs. 2.97 CrPlant & Machinery Rs. 4 CrW.C. for 2 Months Rs. 2.03 CrTotal Capital Investment Rs. 9.41 CrRate of Return 31%Break Even Point 49%*********************************************


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PVC COMPOUNDING PLANT FORCABLE GRADES [3367]

Indian plastics industry is one of the largestin the Asian Region. It had a modestbeginning in the late twenties when articleslike combs, soap boxes, ash trays etc.began to be manufactured in the countryfrom imported raw materials. Three areabout fifty materials identified as plasticsand the list is being extended continuously.Plastics are classified as thermoplasticsand thermo sets on the basic of thepolymerization method adopted to producethe basic plastic material as on the basicof the primary raw materials source.Polyvinyl chloride comes underthermoplastics. Polyvinyl chloride (PVC)polymers or resins are the most importantconstituents of PVC compounds and areclassified into bulic or mass polymers,emulsion polymers, suspension polymersand paste-forming polymers. There is afifth type known as solution polymerswhich is used for coating appl ications.Compounding of PVC resin is done in threesteps, namely 1. Premixing, 2. Fusion orgelation, 3. Pelletizing or granulation. Mixingof the ingredients to a high degree ofhomogenization is called (premixing). Thepremixed material is homogenized duringFusion or Gelation. In the third step namelypelletization or granulation the homogenousmass is produced in a suitable form forsmooth processing. Hence it is possibleto avoid one or more of the steps with thehelp of modern processing equipment.Although plastic industry in Indiaexperienced many ups and downs in the70's it has made considerable progressnot only in the output and range of plasticsraw materials produced and consumed butalso in learning and absorbing betterprocessing technology as wel l as themanufacture of more and better machine.

COST ESTIMATIONPlant Capacity 5 MT/DayLand & Building (600 sq.mt) Rs. 90 LacsPlant & Machinery Rs. 25 LacsW.C. for 2 Months Rs. 2.05 CrTotal Capital Investment Rs. 3.29 CrRate of Return 40%Break Even Point 45%*********************************************

BANANA FIBER CLOTHMANUFACTURING & ITS

BY-PRODUCTS UNIT [3368]Banana is a globally important fruit cropwith 97.5 million tones of production. InIndia it supports livelihood of mill ion ofpeople. With total annual production of16.91 million tones from 490.70 thousandha., with national average of 33.5 T/ha.Maharashtra ranks first in production with60 T/ha. Banana contributes 37% to totalfruit production in India. Banana is one ofthe major and economically important fruitcrop of Maharashtra. Banana occupy 20%area among the total area under crop in

India. Maharashtra ranks second in areaand first in productivity in India. Jalgaonis a major Banana growing district inMaharashtra which occupies 50,000hectares area under Banana. But most ofBanana is grown by planting suckers. Thetechnology development in agriculture isvery fast, it results in developing TissueCulture Technique. Banana is basically atropical crop, grows well in temperaturerange of 13ºC – 38ºC with RH regime of75-85%. In India this crop is beingcultivated in climate ranging from humidtropical to dry mild subtropics throughselection of appropriate varieties likeGrandnaine. Chi l l ing injury occurs attemperatures below 12ºC. The normalgrowth of the banana begins at 18ºC,reaches optimum at 27ºC, then declinesand comes to a halt at 38ºC. Highertemperature causes sun scorching. Highvelocity wind which exceeds 80 km phrsdamages the crop. Soil for banana shouldhave good drainage, adequate fertility andmoisture. Deep, rich loamy soil with pHbetween 6-7.5 are most preferred forbanana cultivation. Il l drained, poorlyaerated and nutritionally deficient soils arenot suitable for banana. Sal ine solid,calcareous soil are not suitable for Bananacultivation. Avoided soil of low layingareas, very sandy & heavy black cottonwith ill drainage. A soil that is not too acidic& not too alkaline, rich in organic materialwith high nitrogen content, adequatephosphorus level and plenty of potashare good for banana. In India banana isgrown under diverse conditions andproduction systems. Selection ofvarieties, therefore is based on a largenumber of varieties catering to variouskinds of needs and situations. However,around 20 cultivars viz. Dwarf Cavendish,Robusta, Monthan, Poovan, Nendran, Redbanana, Nyal i , Safed Velchi, Basarai,Ardhapuri, Rasthali, Karpurvalli, Karthaliand Grandnaine etc. Grandnaine is gainingpopulari ty and may soon be the mostpreferred variety due to its tolerance tobiotic stresses and good quality bunches.Bunches have well spaced hands withstraight orientation of figures, bigger insize. Fruit develops attractive uniformyellow colour with better self life & qualitythan other cultivars. Prior to plantingbanana, grow the green manuring crop likedaincha, cowpea etc. and burry it in thesoil. The land can be ploughed 2-4 timesand leveled. Use ratovator or harrow tobreak the clod and bring the soil to a finetilt. During soil preparation basal dose ofFYM is added and thoroughly mixed intothe soil. The furrows to be open with helptractor for planting or prepared raised bedin heavy soil. Apply 20 kg of FYM (welldecomposed), 250 gm of Neem cake and20 gm of conbofuron per plant. Preparedpits are left to solar radiation helps in killingthe harmful insects, is effective against


Start Your Own Industrysoil borne diseases and aids aeration. Insaline alkali soil where PH is above 8 Pitmixture is to be modified to incorporateorganic matter. Addition of organic matterhelps in reducing salinity while addition ofpurlite improves, porosity and aeration.Alternative to planting in pits is planting infurrows. Depnding on soil strata one canchoose appropriate method as wel l asspacing and depth at which plant is requiredto be planted. The banana plant is cultivatedmostly in the tropical but situated withinthe 60oF is others north and south of theequator. In certain parts of India, in manypacific islands and in tropical of the people.Fresh fruit is eaten as dessert, while unripefruit and fruit from cooking types are eatenas vegetable. Fruit pulp is dried andprocessed into flour or preserved in manyforms for subsequent use. Banana is afair source of calcium and iron and a richsource of potassium, magnesium, sodiumand phosphorus. Bananas containcomparatively large amounts of twophysiological ly important compoundsnamely serotonin and norepinephrine inaddition to dopamiae, 3,4, dihydroxyphenylalamine and an unidenti fiedcatecholamine. Banana peel is a potentialsource of pectin. Peels of green, yellowand brown bananas are reported to containrespectively 0.51, 0.38, and 0.46% solublepectic substances and 1.28, 1.02, and0.81% total pectic substances. The skinand pulp of green banana contain antifungalsubstances, while the skin and the pulpof the ripe banana contain both antifungaland antibacterial substances.

COST ESTIMATIONPlant Capacity 10,000 Mtr/DayLand & Building (1,00,000 sq.mt) Rs.16 CrPlant & Machinery Rs. 72 CrW.C. for 2 Months Rs. 11.92 CrTotal Capital Investment Rs. 100 CrRate of Return 50%Break Even Point 38%*********************************************

ALUMINIUM NOTCH BAR/CUBES/SHOTS MANUFACTURING UNIT

FROM SCRAP CAP: 20 TPD[3369]

Aluminum recycling is the process throughwhich scrap aluminum is reprocessed tobe used in products after i ts ini tialproduction. Aluminum producers andrecyclers in the aluminum industry workwith individuals, businesses, andcommunities to enable both curbside andindustrial recycling programs. For mostaluminum products, the metal is notconsumed during the products lifetime, butit is simply used making it easy to recyclewithout losing its intrinsic properties. Usedbeverage container (UBC) recycling is themost recognized of the aluminum recyclingprograms. However, end of life recyclingof certain products like building parts andcars allows for the production of recycled

materials like Aluminium knotch bar, shotsand cubes. Advantages of AluminumRecycl ing. Aluminum recycl ing is acommon practice that has been aroundsince the early 1900s. It is a veryimportant process because of thenumerous advantages as can be seenbelow: 1. Saves Energy: Used beveragecontainers are among the largestcomponents of aluminum scrap. Most ofthe scrap metal is recycled back into cans.The other largest user of the recycledaluminum is the automotive industry.According to the Aluminum AssociationPresident, Mr. Steve Larkin, recycling ofold aluminum cans into new ones requiresless energy (95%) than producing new onesfrom the scratch. He states that therecycl ing process also produces 95%reduced greenhouse gas emissions thanentirely making new cans. 2. PreventsDepletion of a Valuable Commodity:Aluminum is a metal that is mined fromthe earth’s crust as Bauxite ore. Thistherefore means that, recycling preventscontinuous mining and depletion of thisvaluable commodity. Each year, recyclingprevents approximately five percent ofthe total Bauxite ore mining in the world.3. Reduction of the Carbon Footprint:Increased environmental awareness andthe need for social responsibility have ledto the increased aluminum recyclingamong many countries and companiestoday. Did you know that recyclingaluminum helps in preventing more thanapproximately 90,000,000 tons of toxiccarbon dioxide from being let free into theair every year? Yes, recycling a singledrink can made of aluminum preventscarbon dioxide emission that equals asingle mile car ride and it saves adequateenergy to power a typical television setfor about two to three hours. Today, everycountry has the responsibil i ty to dowhatever it can to reduce carbon emission.This means that if all countries focus onthe reduction of carbon dioxide emissionsthere will be little concern about globalwarming. 4. Helps in Satisfying theIncreasing Demand: As the populationincreases so does the need for aluminumproducts. Today, aluminum has more usesand applications other metals. This meansthat there should be a continuous productionof this metal so as to meet the increasingdemand. Mining alone is not sufficientenough to meet this demand. Recyclingtherefore comes in to bridge the gap. Infact half of the aluminum cans arerecycled.

COST ESTIMATIONPlant Capacity 20 MT/DayLand & Building (8000 sq.mt) Rs. 7.68 CrPlant & Machinery Rs. 1.40 CrW.C. for 2 Months Rs. 11.54 CrTotal Capital Investment Rs. 20.90 CrRate of Return 28%Break Even Point 49%*********************************************

AEROSOL - DEODORANT [3370]Deodorant perfume spray is a innovatedconcept and is used =o remove bad odourfrom the body and is mild in perfumerynodes and sometimes it called aerosoldeodorant body spray. The product iseasily spreadable over the surrounding andvolatile in nature. Deodorant perfumespray is now very familiar and appreciableby people at large due to easy accessibilityand bactericide in nature. Now at presentthere are less manufacturers in organizedsector in India and the demand isincreasing day by day there is also exportdemand prevails in India. There is a goodscope of the product and a new entrantcan well venture in this field.

COST ESTIMATIONPlant Capacity 2400 BTL/DayLand & Building (500 sq.mt) Rs. 41.25LacPlant & Machinery Rs. 24.00 LacsW.C. for 2 Months Rs. 24.52 LacsTotal Capital Investment Rs. 93.77 LacsRate of Return 108%Break Even Point 32%********************************************

STEEL GRATING (GALVANISINGELECTRO FORGED STEEL

GRATING) [3371]Grating is open grid assembly of metalbars, in which the bearing bars, running inone direction, are spaced by rigidattachment to cross bars runningperpendicular to them or by bentconnecting bars extending between them.Grating is a structural element that has ahigh load-bearing capacity with a low deadweight and a high level of transparency.The positive-fitting connection of thebearing bars and cross bars with thesurround make the grating not only a verystable, but also visually attractive product.The appl ications are very diverse, asgrating is used everywhere in industry andarchitecture. As an extremely robust, safeyet light platform flooring, the grating isindispensable in al l areas of heavyindustry. Grating is installed in refineries,power stations, steel mills, mines and onoil platforms. Grating is being usedincreasingly more in the logistics industryas platform flooring and shelves.Architects and building owners appreciatethe grating as a product which is bothaesthetically pleasing and functional, beit used as a decorative facade cladding, asuspended cei ling or sun shield. Steelgrating is a kind of open steel memberwith its bearing bars & cross bars jointingat their intersections either by welding orby locking. Electroforged Steel Gratingsare made using the electroforging process.In this process, the sqaure twisted rods(Cross Members) are fused into the mainload bearing members at using a specialwelding machine at very high current andtonnage. The Cross Members are properlyset-in the Load Members such that i t


Best Industries to Start and Growprojects out of the grating top member byonly a little more than 1 mm. This improvesthe sl ip resistance during walking.Electroforged Grating Panels are generallymanufactured to 6000 mm lengths.

COST ESTIMATIONPlant Capacity 9 MT/DayPlant & Machinery Rs. 1.37 CrW.C. for 2 Months Rs. 1.29 CrTotal Capital Investment Rs. 2.94 CrRate of Return 71%Break Even Point 50%*********************************************

ACETIC ANHYDRIDE [3372]Acetic Anhydride is a clear, colorless liquidwith a very pungent, penetrating, vinegar-like odor. It is completely miscible withdiethyl ether and can be easily dissolvedin the usual organic solvents; it reactswith alcohols. Acetic Anhydride is anexcellent solvent for numerous organicand inorganic products. Acetic Anhydrideis made from Acetic Acid. In the presenceof water, Acetic Anhydride reacts slowlyat room temperature to form acetic acid.At moderate and elevated temperatures,however, this reaction can be extremelyexothermic and violent. It is acceleratedby catalytic quantities of sulfuric acid orother mineral acids and may even beexplosive.

COST ESTIMATIONPlant Capacity 1000 Ltr/DayLand & Building (1500 sq.mt) Rs.1.93 CrPlant & Machinery Rs. 80 LacsW.C. for 2 Months Rs. 44.83 LacsTotal Capital Investment Rs. 3.39 CrRate of Return 18%Break Even Point 66%**********************************************

BENEFICIATION PLANT FORGLAUCONITE [3374]

‘Beneficiation’ is the processing of rawminerals to yield marketable products bymeans of physical and mechanicalmethods without destroying their physicaland chemical identity. Glauconite is agreenish mineral of the mica group, ahydrous sil icate of potassium, iron,aluminum, and magnesium,(K,Na)(Al,Fe,Mg)2(Al,Si)4O10(OH)2, foundin sedimentary rocks as an accessorymineral. When in quantities over about50%, the rock is no longer a glauconiticsandstone or mudstone, i t is cal led agreensand. These rocks have been usedhistorically as fertilizers, water softeners,and artist's pigments. Greensand,greensand marl, and green earth arenames given to sediments rich (>50%) inthe bluish green to greenish black mineralknown as glauconite. The word glauconiteis derived from the Greek word glaukos,meaning bluish green. The term"greensand" as a rock name for aglauconite-bearing sediment is moreappropriate than "greensand marl," a termthat has been doggedly perpetuated in thel iterature. Because of i ts potash and

phosphate content, greensand was minedand marketed as a natural fertil izer andsoil conditioner for more than 100 years.The advent of manufactured fertilizers withadjustable nutrient ratios led to a decline inthe use of greensand in agriculture. Thematerial has since been recognized asuseful in water treatment. Unfortunately,despite large reserves and world-widedistribution, glauconite has not been utilizedto any significant commercial extentbecause no major application has beenfound for a substance with its chemicalcomposition and properties. This is probablydue mostly to a paucity of research on itspotential commercial uses. Extraction ofpotash received considerable attentionduring and just after World War I. Becauseof relatively high extraction costs andgenerally low potash content (viz., lessthan 8%), glauconite lost its appeal as asource of this commodity.

COST ESTIMATIONPlant Capacity 100 MT/DayLand & Building (10,000 sq.ft) Rs. 2.82 CrPlant & Machinery Rs. 3.30 CrW.C. for 2 Months Rs. 51.37 CrTotal Capital Investment Rs. 57.82 CrRate of Return 22%Break Even Point 46%*********************************************

PAPAYA GROWING AND PAPAINPRODUCTION [3375]

Papaya (Carica papaya) is a tropical fruithaving commercial importance because ofi ts high nutri tive and medicinal value.Papaya cultivation had its origin in SouthMexico and Costa Rica. Papaya is apopular fruit famous for its high nutritiveand medicinal values. It comes early inbearing than any other fruit crop, producesfruits in less than a year and the productionof fruits is quite high per unit area. Papayais cultivated more or less on a commercialscale in the foothills and plain valleys.Papaya is a native crop of Mexico, andwas introduced in India in the 16th century.Now it has become popular all over Indiaand is the fi fth most commercial lyimportant fruit of the country.

COST ESTIMATIONPlant Capacity 300 KGS/DayLand & Building (48 Acres) Rs. 4.01 CrPlant & Machinery Rs. 76 LacsW.C. for 3 Months Rs. 75.28 LacsTotal Capital Investment Rs. 5.68 CrRate of Return 23%Break Even Point 51%********************************************

ZINC CHLORIDE (ZnCl2) [3376]Zinc is in Group II B of the periodic tableand exhibits a valence of +2 in all itscompounds. Being high on theelectromotive series, Zinc form quitestable compounds. Bonding in Zinccompounds tends to be covalent, withstrongly electropositive elements, egchlorine, the bond is more ionic. Zincchloride is one of the important zinc

componds. It is stable in the vapour phaseupto 900oC. It is very hygroscopic,extremely water soluble, and soluble inorganic liquids such as alcohols, esters,ketones,ethers, amides and mitrictes.Hydrates with 1, 1.5, 2.5, 3, and 4molecules of water have been identifiedand great care must be expressed to avoidhydration of the anhydrous form. Aqueoussolution of zinc chloride are acidic (pH=1.Ofor 6 m ),and when partially neutralizedform slighly soluble basic chlorides eg.Zncl2 and 4 Zn( ch)2 and Zn(ch)cl manyother basic chlorides have been reported.Zinc Chloride (Zn Cl2) is available as white,crystalline powder, odourless, moulded inpencils or porcelains like mass. It is oneof the most soluble inorganic substances432gm dissolving in 100 ml of water at25o, and 635 gm at 100oC. It is also quitesoluble in organic solvents containingoxygen or nitrogen. It is difficult to removethe last traces of water from the solid forit is highly hygroscopic. It is surprisingthat the degree of hydrolysis of aqueoussolution of Zinc Chloride at moderatedilution is very small. Its aqueous solutionis acidic. It has been called "butter ofzinc" because of its formation of a whitesemi sol id mass on evaporation. ZincChloride is obtained by heating zinc withdry chlorine gas, by the action ofhydrochloric acid on Zinc Oxide, or byheating a mixture of Zinc Sulphate andSodium Chloride. It is economical tomanufacture zinc chloride from secondaryZinc sources as Zinc dross, sal skimming,etc. The zinc dross is treated with somewhat less than required quantity ofhydrochloric acid and the clear liquid isfiltered off. The oxides dross residue isthen treated with chlorine and theresultant zinc chloride is leached off andadded to the first filtrate. The clear liquidis evaporated to the desired stage. Zincchloride is an industrial ly importantcompound of Zinc. In aqueous solution, itmay be used alone or in combination withphenol or sodium chromate as a woodpreservative for railway sleepers polesfor communication lines, etc. and forfire proofing timber. In the textileindustry,Zinc chloride is used for crimpingwool,cotton and silk. It is used ascarbonizing agent in treating wool and forfire proofing woolen goods. In the rayonindustry, Zinc Chloride is used as catalystor process material for miscellaneouspurposes.

COST ESTIMATIONPlant Capacity 13.33 MT/DayLand & Building (3000 sq.mt.) Rs. 2.25 CrPlant & Machinery Rs. 1.25 CrW.C. for 2 Months Rs. 3.14 CrTotal Capital Investment Rs. 6.84 CrRate of Return 26%Break Even Point 54%*********************************************

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Market Overview Cum Detailed Techno Economic Feasibility Reports

Lead tetra oxideLeather pigment pasteLemon oil from lemonLime & precipitated calciumcarbonateLime calcination plantLime stone powderLinear alkyl benzenesulphonateLiquid calcium and mineralmixture for cattle feedLiquid bromineLiquid bromineLiquid chlorine by electrolysisof brineLiquid chlorine by electrolysisof brineLiquid floor polishLiquid glucose & its byproductsLiquid glucose from maizeLiquid goldLiquid gold (in paste form)Liquid oxygen bottling plantLiquid shoe polishLiquid sulfur trioxide (so3)

Chemical & Allied industries Liquid sulphur black dyeLiquid toilet cleaner (harpictype)Lithium based greaseLithoponeLow carbon ferro manganeseon alumino thermic processLpg cylinder testing centreLpg gas agencyLube oil viscosity improvedfor p.p.g./p.e.g.Lubricants ashless 100%combustionM.s.barrel and drumsMagnesium carbonate andmagnesium bicarbonateMagnesium carbonate,magnesium metal & calciumcarbonate from dolomiteMagnesium hydroxide fromdolomiteMagnesium hydroxide powderMagnesium oxideMagnesium silicateMagnesium stearateMagnesium sulphateMaize oil

Maize starch, liquid glucose,dextrose (maize and its alliedproducts)Malachite greenMalachite greenMalathionMaleic acidMaleic anhydrideMancozeb technicalManganese dioxideManganese glycinateManganese ore benificationManganese ore jigging plantManganese picolinateManganese sulphateManganese sulphateManufacturing process of acidslurry


Highly Profitable Projects for New Entrepreneurs “EIRI Market Overview Cum Detailed Techno

Economic Feasibility Reports” Melamine formaldehydepowderMenthol based projectMenthol bold crystals fromflakesMenthol bold crystals frommenthol flakesMenthol crystal & mentha oilMenthol crystal & menthol oilMenthol crystals and mentholoilMercuric oxideMetal polish soapMetal pre treatment chemicalsMetallic stearate byprecipitation & fusion processMetallic steerate byprecipitation and fusionprocessMethane gas by sodiumacetate & soda limeMethanol (hplc grade)Methyl acetyl ricinolateMethyl chlorideMethyl cinnamateMethyl stearateMethyl vinyl etherMethylene blueMetolMetol from hydroquinone &methylamineMetronidazoleMicaniteMicro nutrient mixtureMineral waterMineral water and pet bottlingplantMineral water in bottles, glassand pouchesMini cement plant (by rotarykiln process)Mixed fertilizerMono calcium phosphate(animal feed grade and ipgrade)Mono chloro benzeneMono ethylene glycol frommolassesMonocalcium phosphatge(mcp) and dicalcium phosphate(dcp)Monochloro acetic acidMonochloro acetic acid fromethanol and chlorineMonochlorobenzeneMonocrotophos (technical)Monosodium glutamateMosquito & flies repellentagarbatti (incense sticks)Mosquito coilMosquito coil & matMosquito matMosquito repellent vaporiser(liquid mosquito destroyer)Mother tincture & bio chemicmedicinesN-acetyl thiozolidine-4carboxylic acid (natca)N-acetyl thiozolidine-4-

carboxylie acid (natca)Naphthalene ballsNaphthalene balls & phenyl(integrated unit)Natural mineral water byreverse osmosis processNeoprene based adhesiveNickel plating brightner(primary or carrier brightner &secondary brightner)Nickel sulphateNicotine from tobacco wasteNicotine sulphate fromtobacco wasteNitro benzeneNitro cellulose sanding sealer/laquerNitro muskNitrogen & oxygen gas plantNitrous oxideNo-carb pasteNon-ionic surfactant (wettingagent)Npk fertilizerNpk mixed fertilizer (molassesbased)Octanol (octyl alcohol) frommolassesOleoresin from chilly andginger (extraction)Omega threeOrtho nitro phenolOssein from animal boneOxalic acid from molassesOxalic acid from rice huskOxalic acid from sugarcaneOxalic acid from tree barkOxalic acid from wastevegetablesOxygen and nitrogen (liquid)plantOxygen and nitrogen gas plantOxygen and nitrogen plantOxygen carbon dioxide andargon gasOxygen gasOxygen gas plantOxygen gas plant (airseparation method)Oxygen gas producing plantOxygen lancing pipeOxygen/carbon dioxide gascylinderPackaged drinking water(packed in 330 ml cup, 500 mlpet bottle, 1500 ml pet bottleand 20 ltr. jar)Para amino benzoic acidPara amino phenolPara chloro nitro benzenePara toluene sulphonic acidPara-octyl phenolPara-octyl phenolPectin from apple pomacePectin from citrus/lemonPectin from mango peelPectin from orange peelsPectin from raw papayaPeracetic acid from glacial

acetic acid and hydrogen(35%) using sulphuric acidas a cytalystPerfume (lemon & others)Perfume spray deodorantPest control liquid used forwhite ants termitePesticide and insecticidePesticide preparation usingneem fruit & seeds(margosa)Pet bottles from preformPet preform from resin forpet bottlesPetroleum jellyPhenolPhenyl (black) in liquid formPhenyl acetic acidPhosphate and mixedfertilizer (npk)Phosphating solutionPhosphoric acid(purification) from crudePhosphoric acid(purification) from spentacidPhosphoric acid(purification) from spentacidPhosphoric acid from rockphosphatePhosphoric acidmanufacturing andpurification (manualprocess)Phosphorus by chemicalprocessPhoto emulsion for rotaryscreen printingPhthalic anhydridePhthalic anhydridePhthalocyanine bluePhthalocyanine pigmentsPhyto chemicalsPigment emulsion for textilePigment gumPlant growth reagen basedchlorothyltrimethylammonium chloridePlant harmones based on2,4-dichlorphenoxyPlaster of paris bandagesPlastic waste reprocessingPlasticine (modelling clay)Poly propylene oxidePoly vinyl acetatePoly vinyl acetate emulsionPolyaluminium chloridePolyaluminium chloride(liquid and Powder)Polyester resin (g.p.grade,laminate grade, electricalgrade)Polyol from propylene oxidePolyol used forpolyurethanePolystyrenePolyurethane releasingagent

Polyurethene foamPolyvinyl acetatePolyvinyl acetate basedadhesivePotassium carbonate (solid)from potassium chloride solutionPotassium chloride from muriateof potash (mop)Potassium dichromate/bichromatePotassium hydroxide causticpotash from potassium chloridesolution 18%Potassium iodatePotassium iodate (byelectrolysis process)Potassium iodide (i.p.)Potassium nitratePotassium nitratePotassium per oxy di sulphidePotassium permagnatePotassium permanganetePotassium persulphatePotassium silicatePotassium silicate by ionexchange processPotassium stearatePotassium sulphatePotassium sulphate (cap:200tpd)Potassium sulphate (fertilizergrade)Potassium sulphate Cap: 200tpdPower alcoholPower alcohol & imfl frommolassesPrecipitated silicaPrinting inks (various types)Processing of daturastramonium into hyosyamina &atrominProduction of ena,rectified spiritand ethanol (cap: 60,000 ltr/day)Production of lime andprecipated calcium carbonateProduction of lime putty (onhydrated lime base and on whitecement base)Propylene glycolPsa based nitrogen,generatorPvc resin from ethyl alcoholPyridine & its derivativesQuartz based industries (quartzpowder, silica sand, silicaramming mass & fused silica)Rapid fast dyes (only process)Reactive dyes & printing pasteReactor (chemical)Reclamation of nickel spentcatalyst from vanaspati industryReclamation of spent bleachingearthReclamation of used engine oil(by clay & vacuum distillationprocess)Recovery of lead from disposedlead acid batteryRectified spirit from mahua


Market Overview Cum Detailed Techno Economic Faeasibility Report on all Projects are available contact:

ENGINEERS INDIA RESEARCH INSTITUTE4449, Nai Sarak, Main Road, Delhi - 110 006 (India) * Ph. : +91 9811437895, 9289151047, 91-11-23918117, 43658117, 45120361

Email: [email protected], [email protected] Website: www.eiriindia.org, www.eiribooksandprojectreports.com

flowersRectified spirit from molasses& mahua flowersRectified spirit from rice strawRed oxide paint/primer (anticorrosive) based organic redpigmentsRemoval of antimony fromlead scrapRepacking of chemicalsRepacking of laboratorychemicalsResorcinolRhodium plating on goldjewelleryRock phosphate upgradationand process plantRosin sizing agentSafety seal for lpg cylindersSagolSalicylic acidSaline and injection waterSantoninSennosides from senno leafShoe polishSilica gel (blue self indicatingprocess)Silica ramming massSilicon from rice huskSilicon from silica (semiconductor grade)Silicone compoundSilicone emulsionSilicone resinsSilicone spray silver brazingfoilSilver extraction from wastehypo solution (x ray film andcinema film)Silver extraction from x-rayf i lmSilver nitrateSilver parts for ceramiccapacitor single superSilver refining by electrolysisSingle super phosphateSingle super phosphate &mixed fertilizer (npk)Single super phosphate &sulphuric acidSingle super phosphate (s.s.p)& sulphuric acidSoda ashSoda ash (sodium carbonate)Soda ash from natronSoda ash plant (from solutionbrine)Soda water bottling plant(carbonated beverage)Sodium alginateSodium alginateSodium aluminateSodium aluminium sulphateSodium benzoateSodium bicarbonate (bakingsoda) from soda ashSodium bisulfiteSodium carbonate & silica

Sodium chlorideSodium chromateSodium cyclamateSodium dichromateSodium dichromate & sodiumsulphate as by productsSodium fluorideSodium formaldehydesul foxylteSodium formateSodium hexa meta phosphateSodium hydro sulfiteSodium hydrogen sulphide30% solutionSodium hydrosulfiteSodium hydrosulfite (bysodium formate process)Sodium hypo chloride (bleachliquor)Sodium iso propyl xanthateSodium lauryl ether sulphateSodium lauryl sulphateSodium lauryl sulphate &sodium lauryl ether sulphateSodium meta silicateSodium nitrateSodium petroleum sulphonateSodium petroleum sulphonate(emulsifier)Sodium sesqui carbonatefrom soda ashSodium silicateSodium silicate by hydrothermic process using quartzand caustic lyeSodium silicate from (1)paddy silk husk, (2) silicaSodium silicate from quartzand caustic lyeSodium silicate from quartzand caustic lyeSodium silicate from silica &soda ashSodium silicate from silicaand soda ashSodium silicate from silicasand & soda ashSodium stannateSodium sulphateSodium sulphide by bariumsulphate processSodium sulphide fromammonia & sodium chlorideSodium sulphide from sodiumsulphateSodium sulphide from sodiumsulphateSodium sulphide from sulphurand caustic sodaSodium sulphiteSodium tripoly phosphateSoftener (cationic, anionic &non ionic)Solvent extraction method forcurcuminSpirit from pine appleStannous chlorideStannous oxalate

Starch & allied products frommaizeStearates manufactureStearates manufacture(calcum, Aluminium,Magnesium, Zinc)Stearic acidSubmerged arc welding flux(fused and agglomeratedtype)SUCCINIC ACIDPRODUCTIONSugarcane wax from pressmudSulfamic acid pure crystaland other grade (gp,sr & tmgrade)Sulfanilic acid in powder formSulphamic acid (descalant &technical grade, s.r.gradeSulpher dusting powderSulphur 80% wdgSulphur 80wdg powder andsulphur 90 wdg powder (both)Sulphur black dyeSulphur blue dye (colour index7)Sulphur crystals/lumpsSulphur dioxide (liquefied)from sulphur lumpsSulphur from pyrites & slagSulphur powder from sulphurcrystal/lumpsSulphuric acidSulphuric acid from dcdaprocessSuper phosphate (s.s.p)Superabsorbent polymer (polyacrylic acid based)Surface floor and car polishSynthetic iron oxide (yellow)Synthetic red & yellow ironoxide from iron filling & pickleliquorSynthetic red iron oxideSynthetic zeoliteTamarind kernel powderTannic acidTannic acidTartaric acidTartaric acid from tamarindleavesTextile marker pen/tubeTgpc (tetra gold potassiumcyanide, 57%)Titanium dioxideToilet cleanerToluene and sbp from crudenaphthaTooth pasteTransformer oilTri calcium phosphateTri ethylene glycol (teg)Tri sodium phosphateTrichloro ethyleneTrimethyl ammonium chlorideTriphenyl phosphite (t.p.p)Ultramarine blue

Undecenoic acidUndecyeinic acidUnsaturated polyester forrexineUrea fertilizer plantUrea formaldehydes &melamine formaldehydepowderVat dyesVinyl acetate monomerVitamin cVitamin eWashing soap and powderWaste water treatment plantfor industrial sector in india(only market survey)Water chilling plantWater chilling plantWater proofing chemicalWater treatment chemicalsWater treatment plantWax emulsionWax emulsion forconstructionWax emulsion for paperindustryWax floor polishWeedicideWettable sulphurWhite oilWire drawing lubricantWire enamelsXanthatesYellow dextrinZeoliteZeolite-a (for detergent)Zinc oxide by french processZinc and copper sulphatefrom brass ashZinc borateZinc chlorideZinc oxideZinc oxideZinc oxide by french processZinc phosphateZinc phosphating by coldprocessZinc silicateZinc stearateZinc stearate production line(direct methed) cap: 500 ton/yearZinc sulphateZinc sulphate (micronutrientsfrom crops)Zinc sulphate for agriculturalgrageZinc sulphate heptahydratedZinc sulphate micronutrientfor fertilizersZinc sulphate monohydrateZinc sulphate monohydrateZinc sulphate monohydrate(2% crystal & 33% powder)


Market Overview Cum Detailed Techno Economic Faeasibility Report on all Projects are available contact:

ENGINEERS INDIA RESEARCH INSTITUTE4449, Nai Sarak, Main Road, Delhi - 110 006 (India) * Ph. : +91 9811437895, 9289151047, 91-11-23918117, 43658117, 45120361

Email: [email protected], [email protected] Website: www.eiriindia.org, www.eiribooksandprojectreports.com

Highly Profitable Projects for New Entrepreneurs “EIRI Market Overview Cum Detailed Techno

Economic Feasibility Reports”

Aac & acsr aluminiumconductorsAluminium alloy plantAluminium foilAluminium & aluminium alloysfrom aluminium scrap tomake utensils (inductionfurnace melted)Aluminium & pvc curtainwalls/windows/doors/partitions/external cladding (acp) &s.s.hand railsAluminium alloyAluminium alloy conductorAluminium alloy ingotsAluminium alloy wheel rimsAluminium alloy wheelsAluminium and aluminiumalloy from scrapAluminium beverage cansAluminium bottlemanufacturing (cold extrusionof aluminium)Aluminium brass, copperscraps sheets tradingAluminium cableAluminium cans for beerpackagingAluminium cans for capacitorsAluminium caps for injectionvialsAluminium chlorideAluminium chloride fromaluminium oreAluminium coil coating for acpand roofing industryAluminium coil coating for acpand roofing industryAluminium cold rolling mill forsheets & circlesAluminium composite panels(acp)Aluminium composite panels(acp) without coil coatingAluminium conductorsAluminium door, windows &fi ttingsAluminium door, windows,railings and fitting (withanodizing and powder coating)Aluminium doors & windows(aluminium fabrication)

Aluminium Industry andAluminium Extrusion, WireDrawing, Aluminum Ingot,Aluminum Products, Cans,Sheet, Extruded Products,Profiles, Doors, Powder, Foil,Cone, Slug, Tubes, Bars,Conductor, Alloys, Coils,Extruded Rods, Sheets

Aluminium doors and windowsAluminium doors, windows,railing and fittings (withanodizing & powder coating)Aluminium electrolyticcapacitorsAluminium end caps forelectric fluorescent bulbs/tubesAluminium extrusionAluminium extrusion fromscrapAluminium extrusion plantcapacity:10 ton/dayAluminium fabrication (door,windows, slider etc.) glassplant and anodizingAluminium fabrication (door,windows, slider etc.), glassplant and anodizingAluminium fluorideAluminium foilAluminium foil (ultra thin softgrade)Aluminium foil container (afc)of different sizesAluminium foil cutting & rollmakingAluminium foilsAluminium furniture &hardwareAluminium gravity castingAluminium hot & cold rollingmillAluminium hydroxide gelAluminium ingot by bauxiteAluminium ingots fromaluminium scrapAluminium ingots frombauxiteAluminium ingots frombauxite ore using aluminiummelting furnace & rolling millAluminium ingots of variousgrades from aluminiumscrapsAluminium label printingAluminium notch bar/cubes/shots manufacturing unitfrom scrap cap:20 tpdAluminium oxide (activatedalumina balls)Aluminium power cableAluminium printing plate foroffset machineAluminium rolling mill formanufacturing aluminiumcircles required for pressurecookers, non stick cookware& circlesAluminium sheet rolling millAluminium shots and knochedbars

Aluminium silicate(precipitated) chemicalprocess (not natural)Aluminium sulphate (nonferric)Aluminium sulphate (nonferrous) (17%-18% aluminacontent) in granules (2 mm to4 mm) and flakesAluminium trihydrate frombauxite in atmosphericdigesters, at-110 deg celciuscap-50 tpdAluminium utensilsAluminium utensils & schoolboxesAluminium utensils and circlesAluminium window and doorfabrication unit capacity35,000 sq.mtr window per yearAluminium wire drawingAluminium wire drawing andsuper enameling for windingAluminium wire drawing andsuper enamellingAluminium/copper cable lugsBus body fabricationDoor hinges (mild steel andstainless steel)Door hinges (miled steel &stainless steel)Door lock/pad lockFerro silicon by smeltingprocessG.i.wire and binding wireMig wireSheet manufacturingSheet metal componentsSheet metal parts/componentsSheet metal products (ferrous/non ferrous)Upvc windows from upvcprofilesWire drawing and galvanizing(by cold proess) with nuts &boltsWire drawing and galvanizingby cold processWire drawing lubricantWire drawing powderWire enamelsWire mesh (netting) & wiredrawingWire mesh and gaugeWire mesh from steel wirerollsWire nailsWire nails & wire drawingWire rope slings

Bakery and Baking Products,Biscuits, Cakes, Pies,Pastries, Cookies, Breads,Baking Powder, Rusk, Buns,Toasts, Cheese Cake,Lecithin, Eggless Cake andDesserts

Automatic biscuit making plantexport oriented unitAutomatic bread and biscuitunt (modern bakery plant)Baker's yeastBakers yeastBakery and biscuitsequipments fabricationBakery gel (translucent semisolid paste)Bakery industryBakery unit (pastries, bread,buns and cake, etc)Bakery unit (pastries, bread,buns,cake, toffee etc.)Bakery unit (rusk,

Alcoholic drinks from ethylalcohol by mixing of variousflavours (flavoured alcohole

Beer and Wine Industry

beverages)Beer & wineBeer from potatoBeer from potatoesBeer industryBeer industry (withgovernment facility)Beer plantBeer Plant (Export OrientedUnit)Bottling of whiskyBottling plant (whisky, brandy,rum, vodka, gin) fromrectified spirit/enaFatliquor for leatherapplications using (chlorinatedparaffin wax)Gluten free beerImfl & country liquorImfl (whisky) & country liquorImfl (whisky) from potatoesImfl wine, brandy, whisky,shampagneIndian made foreign liquor(imfl)Kinnow WineryLiquor bottling plantPaper labels for beer bottlescoated by high speed fullyautomatic machineSodawater bottling plant(carbonated beverage)Whisky (hard drink)Whisky (imfl)Wine from bananaWine from datesWine from mahua flowersWine, brandy, whisky &champagne

TERMS AND CONDITIONS

Ask for the quotation for the required project report [email protected] or [email protected]

Mob: +91 9811437895 or +91 9289151047

Regd. Off : 4449, Nai Sarak, Main Road, Delhi - 110 006 (India)* Ph: +91 9811437895, 9289151047, 91-11-43658117, 23918117, 45120361,

* E-Mail : [email protected], [email protected]* Website: www.eiriindia.org, www.eiribooksandprojectreports.com

Deposit the amount in “EIRI “Account with HDFC BANK CA-05532020001279 (RTGS/NEFT/IFSC CODE: HDFC00001981) OR ICICIBANK CA - 038705000994 (RTGS/IFSC CODE: ICIC0000387) OR AXIS

Bank Ltd. CA- 054010200006248 (RTGS/IFSC CODE:UTIB0000054) ORUNION BAK OF INDIA CA-307201010015149 (RTGS/NEFT/IFSC CODE:UBIN0530727) OR STATE BANK OF INDIA CA-30408535340 (RTGS/IFSC

CODE: SBIN0001273) & SMS ON PH. 09811437895

pastries,bread, buns cake,toffee, etc.Bakery unit (rusk,pastries,bread, buns cake,bread,bunscake, toffee etc.)1.2 tons/dayBakery, namkeen andconfectioneriesBaking powderBaking sodaBiscuit industryBiscuit manufacturing cap:20ton/dayBreadBread & biscuit plantBread & biscuitsBread and biscuit plant(bakery industry)Bread boardsBread plantBread rusksCookies making (bakeryindustry)Egg powder

Beverages, Non CarbonatedDrinks, Tea, Coffee, NonAlcoholic, Cold Drink, SoftDrinks, Juices like apple,litchi, orange, pineapple,banana, mango, cashew,guava, kinnow, grape andallied

Aeropress coffee makerAlcohol and vodka frompotatoAlcohol drinks from ethylalcohol by mixing of variousflavoursAlcohol from broken riceAlcohol from molassesAlcohol from potatoAlcohol, beer, starch, liquidglucose, dextrose, sorbitol,vi tamin-cAlcoholic beverages &venegar from coconut waterAlcoholic drinks from ethylalcohol by mixing of variousflavours (flavoured alcoholebeverages)Banana, apple & other fruitchipsBottling plant country liquorfrom rectified spiritCalcium carbonate fillermasterbatchCashew fruit juice from

cashew fruit appleCoffee roasting of greencoffee beansCold drinkCold drinks (soft drinks)Food grade lubricant orgreaseGrape juiceGrape wineInstant coffeeInstant teaInstant tea & coffee(premixed with sugar andmilk) with organic coffeepremix and sugar free coffeepremix compositionMango juiceMango juice bottling plantMango processing & canning(mango pulp)Mango processing (mangopulp, juice & slicies)Manufacture of juiceconcentrate of dried mahuaflowerOrange juicePectin from citrus,lemon andorangePhyto teaPineapple juice canningPineapple juice preparation &packagingPineapple pulp and juicePineapple, tomato fruit juiceand other productsRts juice plantSoft drink concentrateSoft drinks (non carbonated)Soft drinks (non carbonated)mango, litchi, pineappleflavours frooti type intetrapackSoft drinks essencesSoft drinks in tetra pack &pouchesSoft Drinks ManufacturingSugarcane juice in tetrapackTea & coffee processing andpackagingTea & coffee processing andpackagingTea boutiqueTea industryTea packagingTea packaging & distribution(marketting)Tea packaging industryTea plantation and processing

Tea processing and packaging

Cables viz Cable Industry,Cable Manufacturing,Aluminium Cable, CopperCable, PVC Cables, ArmouredCable, Electrical Cable, CableTray, Power Cable, MetalCable Tray, Teflon Cables,Optical Fibre Cable etc

Abc cable factoryAbc cable factory (acsraluminium conductor andcable factory)Cable tray manufacturingCable tray manufacturingCopper and aluminium wireand cable manufacturing unitCopper sulphate from copperash/scrapCopper wire and pvc cableCopper wire manufacturing forhouse and industrialapplications (pvc wire andcables)G.i.wire and barbed wireHospital disposable productslike surgical gown, drape,apron, shoe cover etc.Manufacturing double glazedupvc windows with argon fillMaster batches (coloured,pvc,ldpe,hdpe)Pvc compounding plant forcable gradesPvc solvent cements (upvc &cpvc)Wpc pvc foam board linecap:350 kg/hr

Chillies viz. Red ChilliPowder, Modern ChilyPowder, Chilly Oil, ChilliSauce, Tomato Chillies,Green Chilli, Drying of RedChillies, Spice (Chilli)Oleoresin

Chilli oilDextrose saline (i.v.fluid)(40000 bottles/day)Menthol oil from leaves andmenthol crystals (peppermint)Mini Oil Plant Suitable ForGroundnut Oil And CottonSeed OilNatural oil based soaps &shampoos (bars and liquids)

made by cold processsaponification)Recycle waste black oil usingacid and claySpices grindingSpray drying of menthol andpeppermint oilTomato paste,ketchup, tomatopuree and tomato powderTomato processing unit

Coconut & Coconut Products,Coconut Shell Products,Coconut Plantation, CoconutWater, Coconut Sweets,Coconut Oil, Coconut Cream,Coconut Milk, Mattresses,Desiccated Coconut (DC),Coconut Milk Powder, ShellCharcoal, Shell Powder etc.

Activated carbon fromcoconut sheel/wood/coal &ligniteCoconut & its productsCoconut fibreCoconut milk powder(dehydrated)Coconut oil from copraCoconut plantationCoconut processing complex(coco oil, coco flour, cococream, coco water, decinatedcoconut etc.)Coconut products & byproducts process complexCoconut shell powderCoconut squash & jamCoconut sweet (watery)Coconut water (coco jal)packedFruit juice (mango, guava,banana, grape, orange, apple)& pulp, jams, jellies,squashes, chutney, sauces,ketchup, coconut water etc.Processing & utilisation ofcoconutProject Reports To Start NewIndustry on CoconutRasgulla Manufacturing AndCanningTeak plantationTender coconut waterTender coconut water andsugar cane juice preservationin pet bottlesVirgin coconut oil



LIST OF PUBLICATIONS/BOOKS PUBLISHED BY: ENGINEERS INDIARESEARCH INSTITUTE 4449, NAI SARAK, MAIN ROAD, DELHI - 6 (INDIA)

Name of Books Rs. US$ Name of Books Rs. US$

* Poultry Farm & Feed Formula575/-58* Hand Book of Pig Farming 400/- 40* Agro Based H.B. of Plantation,

Cultivation & Farming 500/- 75* Agro-Based Plantation

Cultivation & Farming 475/- 50* Agro Chemical Industries

(Insecticide & Pesticides) 900/- 90* Technology of Modern Rice

Milling and Basmati Rice 600/- 60* Hand Book of Goat Farming450/- 50* Floriculture Hand Book

(Flowers Growing Technlgy)1000/- 100* Aloe Vera Cultivation,

Processings, Formulations andManufacturing Technology 2500/-250

* Dairy Formulations, Processes &Milk Processing Industries 750/- 75

* Milk Processing and DairyProducts Industries 950/- 95

* Dairy Farming to Produce Milkwith Packaging 475/- 50

* Hand Book of Ice CreamTechnology and Formulae 750/- 75

* Hand Book of Milk Processing,Dairy Products and PackagingTechnology 1675/-165

* Dairy Farming for MilkProduction Technology 975/- 100

* Commercial Dairy Farmingwith Project Profiles 750/- 75

* Herbs, Medicinal & AromaticPlants Cultivation 650/- 65

* Aushidhi and SungndhitPaudho Ka Vaysayik (Hindi)800/- 80

* Aromatic & Medicinal Plantsand Biodiesel (Jatropha) 1100/- 110

* Hand Book of Medicinal &Aromatic Plants 875/- 90

* Fruits & Vegetable ProcessingHand Book (2nd Edn.) 900/- 75

* Fruit Beverage & Processingwith Mango 750/- 75

* Food Processing & AgroBased Industries (2nd Edn.)975/-100

* Preservation & Canning ofFruits and Vegetables 1200/- 120

* Hand Book of FoodDehydration & Drying 1100/- 110

* Meat Processing & MeatProducts Hand Book 1275/- 127

N Name of Books Rs. US$

AGRO CULTIVATION, ANIMALFARMING, AGRO PLANTATION &AGRO CHEMICAL/PESTICIDES/

FLORICULTURE/ALOEVERA

HERBS CULTIVATION/MEDICINES

FOOD & AGRO PROCESS, TOMATOPROCESSING, PRESERVATION,

DEHYDRATION, FRUIT BEVERAGE,POTATO, MAIZE, MEAT, BANANA

* Technology of FoodPreservation & Processing1250/-125

* Food Packaging Tech 900/- 90* Agro Based & Processed

Food Products 1100/- 110* Potato & Potato Process 750/- 75* Technology of Maize

& Allied Corn Products 650/- 65* Technology of Food

Processing Industries 975/- 100* Complete Book on Banana

Cultivation, DehydrationRipening, Processing,Products & Packaging Tech975/- 100

* Agro Food Processingand Packaging Technology1100/-110

* Modern Tech. of TomatoProcessing/Dehydration 1100/- 110

* Technology of FoodChemicals, Pigments& Food Aroma Compd. 1100/- 110

* Modern Technology of AgroProcessing & Food PackagingProducts with ProjectProfiles 1100/- 110

* Technology of Chicken Meatand Poultry Products 1750/-175

* Poultry Farming, Hatchery &Broiler Production 975/- 100

* Fresh processed meat & coatedpoultry products withmanufacturing of dried meatemulsions and curing ofpoultry products 1100/- 110

* Poultry Farm/Feed Formulae 575/- 60

* Modern Technology of Wood,Veneer, Plywood, ParticleBoard, Fibreboard, Bamboo& Forest Products 1600/- 160

* Household Soap,ToiletSoap & Other Soap 750/- 75

* Soaps & Detergents 750/- 75* Synthetic Detergents 975/- 90* Acid Slurry, Surfactants, Soap

& Detergents/Formulae 850/- 85* Complete Tech Book on

Detergents with Formula 950/- 95* Manufacture of Washing

Soap, Toilet Soap, DetergentPowders, Liquid Soap & HerbalDetergents & Perfumes 1100/- 110

* Mfg Tech of Surfactants,Washing Powders, OpticalBrighteners &Chelating 1275 125

* Complete Tec. Book on Soaps,Detergents, Cleaners &Fragrance with Formulae 1100/ 110

POULTRY FARM, HATCHERY &CHICKEN MEAT TECHNOLOGY

WOOD, PLYWOOD, PARTICLE,BOARD, BAMBOO & FOREST

SOAP, DETERGENT & ACID SLURRY

COSMETICS TECHNOLOGY(SYNTHETIC & HERBAL)

* Cosmetics Processes &Formulations HandBook 1475/- 140

* Herbal Cosmetics & BeautyProducts withFormulations 950/- 95

* Profitable Small ScaleManufacture of Cosmetics 950/- 95

* Synthetic&Herbal Cosmetic 975/- 98* Tech of Herbal Cosmetics &

ToiletriesProducts/Formulae1100/-* Start Your Own Hair Shampoos

and Conditioners withManufacturing Processes 900/- 90

* Manufacturing Processes AndFormulations Of CleansingCreams, Baby Products, FacePowders.... 975/- 98

* Formulations & Mfg. Processesof Vanishing all Purpose.....900/- 90

* Hand Book of Oils, Fats andDerivatives with Refining &Packaging Technology 950/- 95

* Technology of OilseedsProcessing, Oils & Fatsand Refining 1400/- 140

* Essential Oils Manufacturing& Aromatic Plants 650/- 65

* Modern Technology ofEssential Oils 850/- 85

* Technology of Perfumes,Flavours & Essential Oils 1175/- 120

* Essential Oils Processes& Formulations 650/- 65

* Hand Book of Flavours &Food Colourants Technoly1400/-140

* H. B. of Perfume & Flavours 975/-98* Hand Book of Perfumes

with Formulations (2ndEdn.)900/-75* Technology of Perfumes,

Flavours & Essential Oils 1175/- 120* Complete Technology Book on

Perfumes, Agarbatti, Dhoopbatti,Attar and other ProductsManufacturing & Formulationswith Project Profiles 950 95

* H.B. of Flavours Tech. 750/- 75* Manufacture Of Perfumes,

Fragrances, Scents, EssencesAnd Incense Sticks (Agarbatti)With Formulations 975/- 98

* Tech Of Solar Pv Panels,Energy,Cells, Lantern, Cooler, LightSystem, Photovoltaic System,Power Plant, Water Heater,Collector, Solar Cooling,Refrigeration, Solar Drying,Home System, Dish Engine &Other Solar Products Mfg.1250/- 125

OILSEEDS AND FATS

ESSENTIAL OILS & AROMATIC

PERFUMES AND FLAVOURS

SOLAR PV PANELS, ENERGY

DAIRY FARM, MILK PROCESSINGAND ICE CREAM


Name of Books Rs.US$

Name of Books Rs. US$N Name of Books Rs.US$CHEMICALS, DYES, LUBRICATING

OILS, PETRO CHEMICALSELECTROPLATING

AVAILABLE PROCESS TECHNOLOGY BOOKS AT www.eiriindia.org

* Small Medium & LargeChemical Industries 375/- 40

* Industrial ChemicalsTechnology Hand Book 1100/-110

* Modern Technology ofOrganic & InorganicChemicals 1400/-140

* Electroplating, Anodizing &Surface Finishing Tech. 1100/-110

* Hand Book of Agro ChemicalIndust.(Insecticide/Pesticide)900/- 90

* Technology of Synthetic Dyes,Pigments Intermediates 1100/-110

* Petrochemicals, Lubricants,Greases & Petroleum Refining900/-90

* H.B.of Lubricants, Greases &Petrochemicals Technology 750/- 75

* Technology of Gums, Adhesives& Sealants with Formulations950/-95

* Hand Book of Adhesiveswith their Formulae (2ndEdn.)900/-65

* Adhesives Technology &Formulations Hand Book 975/- 98

* Technology of Glue &Adhesives with AdhesivesBonding & Formulations 1100/-110

* Complete Hand Book onAdhesives and AdhesionTech. with Project Profiles 900/- 90

* Start Your Own ExportBusiness (How To Export) 450/- 45

* Start Your Own SmallBusiness and Industry 350/- 35

* Candle Making Processes &Formulations Hand-Book 750/- 75

* Stationery, Paper Converting& Packaging Industries 400/- 40

* Modern Inks Formulaes &Manufacturing Industries 325/- 35

* Profitable Businesses toStart for Entrepreneurs 400/- 40

* Modern Small & CottageScale Industries 650/- 65

* Profitable Small Cottage Tiny& Home Industries (2nd Edn.)900/-90

* Technology of Bio-Fuel(Ethanol & Biodiesel) 975/-100

* Mod.Tech.of Bioprocessing1475/-150* ModTech.of BioGas Production1975/-200

GUMS, ADHESIVES & SEALANTS

BIO FUEL, BIO GAS &BIOPROCESSING

* Tech of Sweets (Mithai) 1050/-110* Technology of Sweets (Mithai),

Namkeen and Snacks Foodwith Formulae 1750/- 175

* Mfr. of Snacks Food, Namkeen,Pappad & Potato Products 900/- 90

* Technology of Water andPackaged Drinking Water 1100/- 110

PACKAGED DRINKING WATER

PRINTING & PACKAGING * Complete Hand Book on Packaging

Technology & Industries 1100/-110* Printing Process Tech&Indt. 375/- 40* Hand Book of Printing Technology

(Offset, Screen, Flexo, Gravure,Inkjet & Digital) 975/-100

* Hand Book of Offset PrintingTechnology 500/- 50

* Screen Printing withProcesses & Technology 350/- 35

* Hand Book of Prepress 800/- 80* H. Bookof Packaging Ind. 1300/-130* Modern Packaging Technology

for Processing Food, Bakery,Snack Foods, Spices andAllied Food Products 900/- 90

* Food Packaging Tech. 900/- 90* Tech. of Printing Inks 1150/-115* Packaging Technoloy 1150/-115* Corrugated Boxes 1100/-110

* Paint Pigment Varnish &Lacquer Manufacturing 450/- 45

* Paint Varnish Solvents& Coating Technology 800/- 80

* Paint, Pigment, Solvent,Coating, Emulsion, PaintAdditives & Formulations 950/- 95

* Technology of Coatings, Resins,Pigments & Inks Industries 975/-100

* Mfg. Tech. & Formulations H.B.on Thinners, Putty, Wall & Indu.Finishes & Synthetic Resins 900/- 90

* Technology of SyntheticResins &Emulsion Polymers 975/-100

* Technology of Paints andCoating with Formulations 1750/-175

* Powder Coating Technology 750/- 75* Paint Technology Hand Book

with Formulations (AcrylicEmulsion, Powder Coating, Levelling Agents, PU Ink Binders,Dispersing Agents,Formaldehyde,Polyester Resin, Acrylic Bindersand PU Coatings) 1100/- 110

* Complete Hand Book on Paints,Varnish, Resins, Copolymers andCoatings with ManufacturingProcess, Formulations/Tech 900/-90/-

* Manufacture Of NitrocelluloseLacquers, Pu Lacquer, VacuumMetallizing Lacquers And OtherLacquers With FormulationsAnd Project Profiles 750/- 75/-

* Moulds Design & ProcessingHand Book 495/- 50

* Hand Book of Plastic Materials& Processing Technology 750/- 75

* Injection Moulding of Plastics750/-75* Plastic Processing &

Packaging Industries 975/-100* Plastic Waste Recycling Tech.750/-75* Technology of Plastic Films 650/- 65* Rotational Moulding Technology

HandBook 750/- 75* Plastic Compounding, Master

Batches, PET & Other Plastics750/-75* Synthetic Resins Technology

with Formulations 800/- 80* Technology of PVC Compounding

& Its Applications 900/- 90* Polymer & Plastic Technology950/-90* H.B. of Fibre Glass Moulding450/-45* Techn. of Reinforced Plastics750/- 75* Plastic Additives Technology 950/- 95* Technology of PET Bottles,

Preform and PET Recycling 850/- 85* Modern Technology of

Extrusion & Extruded Prod. 800/- 80* Technology of Synthetic

Resins & Emulsion Polymers975/-100* Technology of Plastic Additives

with Processes & Packaging 900/- 90* Complete Technology Book On

Identification Of Plastics AndPlastic Products Materials 975/-100

* Identification Of Plastics & OtherPlastic Process Industries 950/- 95

* Complete Technology BookOf Plastic Processing AndRecycling Of Plastics WithProject Profiles 1250/-125

* Complete Hand Book Of BlowMoulding Plastics TechnologyWith Project Profiles 975/- 98/-

* Modern Technology Of InjectionMoulding, Blow Moulding,PlasticExtrusion,Pet & Other 975/-100

* Tech Book On Beekeeping AndHoney Products WithProject Profiles 975/- 98

* Complete Technology Book onHoney Processing andFormulations (Harvesting,Extraction, Adulteration,Chemistry, Crystallization,Fermentation, Dried Honey,Uses, Applications andProperties) 1100/- 110

* Modern Bee Keeping &Honey Processing 375/- 40

* Technology of StarchManufacturing (Applications,Properties and Composition)with Project Profiles 1100/- 110

PAINT, VARNISH, SOLVENTS,POWDER COATING & LACQUERS

PLASTIC/POLYMER PROCESSING,COMPOUNDING, INJECTION

MOULDING, ROTATIONALMOULDING, PLASTIC FILM, FIBRE

GLASS, PLASTIC WASTERECYCLING, MOULDS, PET &

RESINS, ADDITIVES INDUSTRIES

SMALL SCALE INDUSTRIES,STATIONERY, PAPER, INKS,

CANDLES & EXPORT BUSINESS

SWEETS, NAMKEEN & SNACKFOOD

BEE-KEEPING & HONEYPROCESSING

STARCH MANUFACTURING


* Technology of Spices andSeasoning of Spices withFormulae 975/- 98

* Technology Of Spices (Masala)And Condiments With ProjectProfiles (Cultivation, Uses,Extrn, Composition etc) 1100/-110

* Spices &Packaging withFormula 900/- 90

* Start Your Own Cold Storage Unit 900/- 90

* Complete Tech. of NonwovensFabrics, CarryBags, Composite,Geotextiles, Medical Textiles,Fibres, Felts, Apparels, Spunlaceand Absorbent Nonwoven1175/- 120

* Tablets, capsules, Injectables,Dry Strups, Oral & ExternalPreparations, Eye, Ear ....1575/- 155

Topical...... 950/- 95

* Hand Book of Leather &Leather ProductsTechnology 850/-85

* Hand Book of Biotechnology900/-90

* H.B.of Ceramics & CeramicsProcessing Technology 1975/- 200

* Modern Tech Of Ceramic Products With Composition 1100/- 110

* Hand Book of Tree Farming 800/- 80

* Hand Book of MushroomCultivation, Processing& Packaging 975/- 98

* Biofertilizers & Vermiculture 900/-100

* Modern Technology ofBiodegradable Plastics andPolymers With Processes(Bio-Plastic, Starch Plastics,Cellulose Polymers & other) 975/- 100

* Production of BiodegradablePlastics & Bioplastics Tech 1500/-150

* Frozen Food Processing &Freeze Drying Technology 1000/- 100

* Frozen Food Products 900/- 90

* Hand Book of Organic Farmingand Organic Foods with Vermi-Composting & Neem Product 1100/-

110

* Hand Book of Fish Farmingand Fishery Products 650/- 65

* Textile Auxiliaries & Chemicalswith Processes/Formula 1050/- 105

* Tech of Textile Chemicalswith Formulations 1450/- 145

* Modern Technology of TextileAuxiliary and chemicalswith formulations 1100/- 110

* Textile Processing Chemicals,Enzymes, Dye Fixing Agentsand Other Finishes withProject Profiles 1275/- 125

* Manufacture of Disinfectants,Cleaners, Phenly, Repellents,Deodorants, DishwashingDetergents with Formulae 900/- 90

* Coffee & Coffee Processing 525/- 53

* OnionCultivation, Dehydration,Flakes, Powder, Processing& Packaging Technology 975/- 98

* Hand Book of Minerals andMinerals Based Industries 975/- 100

* Rubber Chemicals &Processing Industries 400/- 40

* Modern Rubber Chemicals,Compounds & RubberGoods Technology 1500/- 150

* Technology of Rubber &Rubber Goods Industries 900/- 90

* Ayurvedic & HerbalMedicines with Formulaes 750/- 75

* Hand Book of AyurvedicMedicines with Formulations 900/-90

* Modern Technology of NonFerrous Metals and MetalExtraction 1100/-110

* Processing Technology ofSteels and Stainless Steels 1900/-190

* Modern Technology ofRolling Mill, Billets, SteelWire, Galvanized Sheet,Forging & Castings 2500/-250

* Mfg Tech of Non-FerrousMetal Products 1750/- 175

* Modern Technology of FoodAdditives, Sweeteners andFood Emulsifiers 1575/- 156

* Technology of FoodChemicals, Pigments andFood Aroma Compounds 1100/- 110

* Technology of DisposableMedical Products 1750/-175

* Technology of Soya Milk, Tofu,Hydrolyzate, Allied SoyabeanProducts with project Profile 975/- 100

* Technology of SOYBEANProducts with Formulae 1100/- 100

* Technology of Products fromWastes (Industrial, Agriculture,Medical, Municipality, Organic& Biological) By Panda 900/- 90

* Products from WasteTechnology Hand Book 1100/- 110

* Technology of WineProduction and Packaging 1750/- 175

* Casting Technology H.Book750/- 75CASTING TECHNOLOGY

WINE PRODUCTION

SOLAR PV PANELS, ENERGY

* Technology of Building Materials& Chemicals with Processes950/- 95

* Mod. Tech. of Bleaching, Dyeing,Printing & Finishing of Textiles 750/- 75

* Technology of Textiles (Spinning& Weaving, Dyeing, Scouring,Drying, Printing and Bleaching) 900/- 90

* Garments Manufacturing Tech. 900/- 90

* Technology of Biscuits, Rusks,Crackers & Cookies withFormulations 975/- 98

* Hand Book of Confectionerywith Formulations 900/- 90

* Breakfast, Dietary Food, Pasta& Cereal Products Tech 1150/-120

* Modern Bakery Products 900/- 90* Modern Bakery Technology &

Fermented Cereal Productswith Formulae 1250/-125

* Confectionery,Chocolates, Toffee,Candy, Chewing & Bubble Gums,Lollipop & Jelly Products 1750/-175

* H.Book of Bakery Industries 950/-95

* Fibres With Manufacturing Processes & Properties With Project Profiles 975/- 100

BUILDING MATERIAL & CHEMICALS

TEXTILE, GARMENTS, DYEING...

PHARMACEUTICALS & DRUGS

NON WOVEN TECHNOLOGY

LEATHER &LEATHER PRODUCTS

TREE FARMING

SPICE, SEASONING, CONDIMENTS& COLD STORAGE

BIOTECHNOLOGY

CERAMICS & CERAMIC PROCESS

MUSHROOM PROCESSING

BIOFERTILIZERS & VERMICULTURE

BIODEGRADABLE PLASTICSAND POLYMERS

FROZEN FOOD/FREEZE DRYING

MINERAL AND MINERALS

RUBBER CHEMICALS,COMPOUNDS

& RUBBER INDUSTRIES

AYURVEDIC/HERBAL MEDICINES

STAINLESS STEEL, NON FERROUSMETALS, BILLETS & ROLLING MILL

FOOD ADDITIVES/CHEMICALS ANDSWEETENERS & FOOD EMULSIFIERS

DISPOSABLE MEDICAL PRODUCTS

SOYA MILK, TOFU & SOY PRODUCTS

PRODUCTS FROM WASTE

ORGANIC FARMING & FOOD/NEEM

FISH FARMING & FISHERY PRODUCTS

TEXTILE AUXILIARY & CHEMICALS

DISINFECTANTS, CLEANERS,PHENYL, DEODORANTS,

DISHWASHING DETERGENTS ETC.

COFFEE & COFFEE PROCESSING

ONION CULTIVATION/PROCESSING

* H.B.of Pulp & Paper, PaperBoard & Paper Based Tech. 1150/- 120

PULP & PAPER TECHNOLOGY

BAKERY, CONFECTIONERY,BISCUITS, COOKIES, BREAKFAST,

PASTA & CEREALS

TECHNOLOGY OF FIBRES

* Beer,Cereal Based Beverages, SoyBeverages, Fruit Wine, Vodka, TeaBeverages & Beverages 1100/- 110

* Mfg Tech Hand Book Of Gin, Rum, Whisky, Distillery Spirits, Brandy, Fruit Spirits, Flavours, Maturation & Blending With Other Alcoholic Beverage 1250/- 125

BEER, VODKA, BEVERAGE, WHISKY

FLOUR MILL (ATTA MAIDA, SUJI)

* Start Your Own Wheat Flour Mill(Atta, Maida, Suji, Bran& Besan) 900/- 90

HI-TECH PROJECTS · 2020-01-25 · Hi-Tech Projects,Feb’20, # 04 Best Industries to Start and...

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Transcript of HI-TECH PROJECTS · 2020-01-25 · Hi-Tech Projects,Feb’20, # 04 Best Industries to Start and...