The document summarizes the key steps in the pulp and paper making process. It begins with harvesting raw materials like trees, bamboo, and recycled fibers. These materials are broken down into pulp via mechanical or chemical pulping processes. The pulp is bleached, processed, and formed into a paper sheet on a paper machine using a wire mesh. The wet sheet is pressed and dried into paper through subsequent processes before being calendered into its final form. The Indian paper industry produces about 3% of the world's paper from over 750 mills across the country.
Sachpazis Costas: Geotechnical Engineering: A student's Perspective Introduction
Pulp and Paper Making Process Explained
1. Pulp and Paper Making Process
Presented by,
C.Mathan
Department of EIE
2. Overview of Indian paper industry
• The Indian paper industry accounts for about 3% of the
world’s production of paper.
• The estimated turnover of the industry is INR 50,000 crore
approximately.
• Total number of mills 750
6. What does GSM mean?
• GSM is an acronym standing for 'Grams per Square Meter‘
• GSM of paper means the density of paper or weight of the
paper.
• Effectively, this is the thickness of the paper
• Most printing paper has a gsm between 60 and 120.
• 80gsm is standard.
7. Introduction
• Paper is a dried, compressed mat of plant fibers.
• Paper plays a key role in our daily life and papers have been
used for many years from now.
• Papers are made with the pulp of the woods, which is an Eco-
friendly product.
• 90% of the raw material for papermaking comes from trees.
8. Raw Material
• The variety of raw material used wood, bamboo, recycled
fibre, bagasse, wheat straw, rice husk, etc.
Different kinds of trees produce a different texture of paper.
• Soft woods like pine have longer fibers and give paper more
strength.
• Hardwood fibers are shorter but tend to work better in printing
and writing papers.
• Most paper pulp is made from trees (mainly fast-growing,
evergreen conifers), though it can also be made from bamboo,
cotton, hemp, jute, and a wide range of other plant materials.
• Smooth papers used for magazines or packaging often have
materials such as china clay added so they print with a more
colourful, glossy finish.
12. • Lignin is a class of complex organic polymers that form important
structural materials in the support tissues of vascular plants.
• Cellulose is an insoluble substance which is the main constituent of
plant cell walls and of vegetable fibres such as cotton.
13. Step 1:Pulp Production
• Pulp is a commercial fibrous material obtained from bamboo,
wood, bagasse, etc.
• The primary goals of pulping are to free fibers in wood from the
lignin that binds these fibers together and then to suspend the
fibers in water into a slurry suitable for paper making.
• In the Pulp process which breaks the cellulose fibers that are
strong in tension and embedded in a matrix of lignin(complex
organic polymers) bonds.
14. • There are several different methods of pulp production to make
different strengths and grades of paper.
• The most common classifications are
Chemical Pulping
Mechanical Pulping
Semi-chemical pulping techniques.
15. Chemical Pulping
• Chemical pulping uses various chemicals to separate lignin
from the cellulose fibers.
• There are two main types of chemical pulping performed:
Kraft (sulphate) pulping
sulfite pulping
17. • The sulphate or kraft process is the world's most
common pulping process, since it yields higher pulp
strengths and can be used with all types of wood.
• In the kraft pulp process the active cooking with hot
mixture of water with chemicals (white liquor) are
sodium hydroxide (NaOH) and sodium sulphate
(Na2S) that breaks the bonds that link lignin and
cellulose.
19. • Mechanical pulping utilizes steam, pressure, and
high temperatures instead of chemicals to tear the
fibers.
• As the oldest form of pulping, mechanical pulping
uses mechanical energy to weaken and separate
fibers from wood via a grinding action.
• The advantage to mechanical pulping is that it
produces much higher yields than chemical
pulping processes.
• The fiber quality is greatly reduced because
mechanical pulping creates short, weak fibers that
still contain the lignin that bonds the fibers
together.
20. Semi-Chemical Pulping
• Semi-chemical pulping techniques use weak chemical
solutions composed of sodium sulfite (Na2SO3) and sodium
carbonate (Na2CO3) to help digest the lignin in the pulp.
• In addition to the chemical solutions, mechanical refining is
used to separate the fibers.
21. Step2:Pulp Processing and Chemical
Recovery
• To further remove impurities of black liquor (black liquor is
the waste water from the kraft process).
• The removal of the black liquor takes place in washers and is
necessary to reduce the chemical costs of the liquor.
• In addition, by recycling the cooking liquor back into the
pulping process, environmental issues and costs are negated.
22. Step3:Pulp Bleaching
• Bleaching of wood pulp is the chemical
processing carried out on various types of wood pulp to
decrease the color of the pulp, so that it becomes whiter.
• chlorine dioxide, sodium hydroxide and hydrogen
peroxide.
• Chlorine dioxide bleaching is used in single or multi-
stages process. Unlike chlorine, it does not react with
water.
• It remains as a dissolved gas in water. It selectively
attacks the phenolic groups of lignin without degrading
cellulose fiber, allowing for increased yield and higher
strength bleached pulp.
23.
24. Step 4:Stock Preparation
• Cellulose fiber must be subjected to
mechanical treatment before they can be made
in to paper and board.
• Beating and refining is done to develop good
fiber bonding and high paper strength.
25. • Papermills do not always make their own pulp
they are so called “non integrated mills”
• those who produce their own pulp are
integrated mills
26. Step 5:Paper Making
• The pulp from stock preparation section after beating/
refing enters the to manifold and then to head box of
Fourdrinier Machine and distribute it uniformly
across the width of wire at constant head.
.
28. Wet End Process
• When stock enters on the wire the consistency
of stock remains 0.5-0.6percent, i.e., 99.5 gm
water and 0.5 gm pulp in 100 gm of pulp stock
• Such a huge amount of water is removed on
the wire part(97%), press section(1.5%) and
dryer section(1%).
30. Dry-End Operations
• Following the pressing of the wet-end
operations, the continuous sheet is compressed
by steam-heated rollers to allow the fibers to
begin bonding together
31. Calendering
• After the sheet is dried, it is passed through a
stack of heavy metal rolls, where it is
calenderised under high pressure.
• The purpose of calendaring is to smooth down
the felt and wire marks, to remove cockle and
to level off lumpy formation and to make sheet
of uniform caliper.