PRECIPITATED SILICA (CAP: 10 TPD)
[CODE NO.3076]
Rice husk or paddy husk - an agricultural residue is available abundantly in rice producing countries. India alone produces
approximately 12 million tons of rice husk annually. Rice husk is generally not advocated as cattle feed because of low
cellulose and other sugar contents in it. Furfural and rice bran oil are extracted from rice husk. Rice husk is used by
industries as fuel in boilers and for power generation. Rick husk has a high ash content varying from 18-20%. Silica is the
major constituent of rice husk ash. High silica (SiO2) content in rice husk ash is economically feasible to extract silica,
which has wide market.
Rice is the seed of the monocot plants Oryza sativa (Asian rice) or Oryza glaberrima (African rice). It is normally grown as
an annual plant, although in tropical areas it can survive as a perennial and can produce aratoon crop for up to 30 years.
Since a large portion of maize crops are grown for purposes other than human consumption, rice is the most important grain
with regard to human nutrition and caloric intake, providing more than one fifth of the calories consumed worldwide by the
human species. The rice plant can grow to 1–1.8 m (3.3–5.9 ft) tall, occasionally more depending on the variety and soil
fertility. It has long, slender leaves 50–100 cm (20–39 in) long and 2–2.5 cm (0.79–0.98 in) broad. The small
wind-pollinated flowers are produced in a branched arching to pendulous inflorescence 30–50 cm (12–20 in) long. The edible
seed is a grain (caryopsis) 5–12 mm (0.20–0.47 in) long and 2–3 mm (0.079–0.12 in) thick. Rice is the staple food of over
half the world's population. It is the predominant dietary energy source for 17 countries in Asia and the Pacific, 9
countries in North and South America and 8 countries in Africa. Rice provides 20% of the world’s dietary energy supply,
while wheat supplies 19% and maize 5%. 1-3
Rice Husk
Rice husks are the hard protecting covering of grains of rice. Rice hulls are the coating for the seeds, or grains, of the
rice plant. To protect the seed during the growing season, the hull forms from hard materials, including opaline silica and
lignin.
One practice, started in the seventeenth century, to separate the rice from hulls, it to put the whole rice into a pan and
throw it into the air while the wind blows. The hulls are blown away while the rice fell back into the pan. This happens
because the hull isn't nearly as dense as the rice. These steps are known as winnowing. Later pestles and a simple machine
called a rice pounder were developed to remove hulls. In 1885 the modern rice hulling machine was invented in Brazil. During
the milling processes, the hulls are removed from the raw grain to reveal whole brown rice, which may then sometimes be
milled further to remove the bran layer, resulting in white rice. Rice husk is a by-product of the rice milling industry. It
is a unique crop residue with uniform size and high content of ash (14–25%). The silica content of the rice husk ash (RHA)
can be as high as 90–98% . This husk can be used as a fertilizer in agriculture or as an additive for cement and concrete
fabrication. Due to its high silicon content, rice husk has become a source for preparation of elementary silicon and a
number of silicon compounds especially silica silicon carbide and silicon nitride . India is a major producer of rice and
finding ways to put the husk to use is imminent. The high silica content in the rice husk ash has attracted interest in
discovering ways to use it commercially. Although silica occurs as a component of cells or cell walls in virtually all arial
parts of the rice plant, it is most abundant in the husk. Owing to their small diameter, many technological applications,
such as thermal insulators, composite fillers, etc., use ultrafine silica powders .We have investigated the possibility of
producing high purity silicon from rice husk by purifying the rice husk silica followed by pelletizing and reduction in a
modified electric arc furnace. The pelletizing was carried using carbon black as a reductant and sucrose as a binder.
COST ESTIMATION
Plant Capacity : 10.00 Ton/day
Land & Building (8000 Sq.MT) : Rs. 3.17 Cr
Plant & Machinery : Rs. 1.89 Cr
Working Capital for 2 Months : Rs. 2.95 Cr
Total Capital Investment : Rs. 8.23 Cr
Rate of Return : 21%
Break Even Point : 58%
INTRODUCTION
USES AND APPLICATION OF PRECIPITATED SILICA
ADVANTAGE OF RICE HUSK FOR PRECIPITATED SILICA
SILICA IN RICE HUSK
SPECIFICATION OF PRECIPITATED SILICA
MARKET SURVEY
INDIAN INSTALLED CAPACITY OF PRECIPITATED SILICA
INDIAN DEMAND FOR PRECIPITATED SILICA
GLOBAL MARKET POSITION OF PRECIPITATED SILICA
MANUFACTURERS/SUPPLIERS OF PRECIPITATED SILICA
MANUFACTURING PROCESS
NOVEL PROCESS FOR SILICA PRECIPITATION
ALTERNATIVE PROCESS TO MANUFACTURE PRECIPITATED SILICA
A REVIEW STUDY OF PRECIPITATED SILICA
SUPPLIERS OF PLANT AND MACHINERIES
HORIZONTAL PLATE FILTER PRESS (SPARKLER FILTERS)
SUPPLIERS OF RAW MATERIALS
APPENDIX – A:
1. COST OF PLANT ECONOMICS
2. LAND & BUILDING
3. PLANT AND MACHINERY
4. FIXED CAPITAL INVESTMENT
5. RAW MATERIAL
6. SALARY AND WAGES
7. UTILITIES AND OVERHEADS
8. TOTAL WORKING CAPITAL
9. COST OF PRODUCTION
10. PROFITABILITY ANALYSIS
11. BREAK EVEN POINT
12. RESOURCES OF FINANCE
13. INTEREST CHART
14. DEPRECIATION CHART
15. CASH FLOW STATEMENT
16. PROJECTED BALANCE SHEET
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