Title of Invention	"A PROCESS FOR LEATHER MAKING USING SALINE WATER"
Abstract	The invention relates to a process for leather making using saline water. The process has enormous application potential in leather processing industry to utilize sources of water having high salinity including sea water. In the process raw hides/skins are treated with salts of alkali metals / alkali earth metals using saline water. The process is simple and affords use of sea water for leather processing.

Title of Invention

"A PROCESS FOR LEATHER MAKING USING SALINE WATER"

Abstract

The invention relates to a process for leather making using saline water. The process has enormous application potential in leather processing industry to utilize sources of water having high salinity including sea water. In the process raw hides/skins are treated with salts of alkali metals / alkali earth metals using saline water. The process is simple and affords use of sea water for leather processing.

Full Text	The present invention relates to a process for leather making using saline water. More particularly the invention relates to a process for making limed pelt using water having salinity of more than 25000 ppm. The process has enormous application potential in leather processing industry to utilize sources of water having high salinity including sea water. It is also envisaged to have abundant application in other similar processing industries. Leather processing involves removal of non-collagenous materials present in hides/skins and converting the remaining collagenous substance into leathers of different functional as well as aesthetic properties using different combinations of chemical treatment and mechanical operations. Raw hides and skins are) first subjected to soaking operation whereby they are treated with water optionally in presence of other auxiliaries like surface active agents to remove adhering dirt, dung etc and also to ensure ample rehydration to facilitate the subsequent removal of non-collagenous materials followed by tanning of the collagenous substance. The soaked stock in most of the cases of leather processing is subjected to dehairng using chemical, enzymatic or even a combination system, unless the process is intended for hair-on tannage. It is however required to remove the flesh layer of the rehydrated hides/skins at this stage. The operation is known as liming, whereby the rehydrated hides/skins, both dehaired or otherwise, are treated with alkali like lime or sodium hydroxide in order to swell the protein, that facilitates easy removal of the non-collagenous layer by mechanical means called fleshing. The extent of swelling plays a major role in shaping the ultimate characteristics of the final leathers. All these operations are commonly referred to as beam house operations, which ultimately decide the quality of the final leather. The defleshed hide/skin is usually referred to as pelt, which is subsequently subjected to several pretanning, tanning and different post tanning operations to manufacture finished leather. As reported in a communication from M/s Clariant (Hide Lines ,Vol.6, ppl, December 2001), leather is made in the beam house itself. Conventionally, water has been the basic medium for leather processing. It is estimated that about 35- 40 litres of water per kilo of rawhide or skin is used for processing. As reported by John Sundar et al.( Journal of Scientific And Industrial Research ,pp 443-450,June,2001.), the current annual requirement of water for leather industry is about 30 billion litres. But the water, that is conventionally used for leather processing, satisfies certain quality requirements. It is a common practice in leather industry to use salt as a deswelling agent. It implies that saline water results in repression of swelling of the hides/skins. On the other hand, with growing population and increase in per capita consumption of water, the water availability for industrial application is bound to face depletion. World bank has recently estimated that the demand of water would be expected to grow by over 650% in next three decades. The sustainability of processing industries like leather tanning, that consumes major share of water, is thus threatened by growing water resource crunch. Attempts are therefore being made to ensure economy of water by exploring the possibility of adopting water less/less water system or even reusing the same. Several attempts are also being made to explore alternate sources of water. 80% of earth's crust is estimated to be covered by water of which 97.5% is represented by seawater. The major limitation associated with the sea water is that it contains significant quantities of salts and minerals. Salinity of typical sea water ranges between 22000-35000 ppm. This high level of salinity is bound to affect the leather processing adversely. Use of untreated seawater results in poor opening up of fibre structure as evidenced by fallen (non-swollen) condition of the substrate and non loosening of flesh adhered in the raw material, resulting in inadequate defleshing. This is why this vast potential source of water has so far been untapped in leather processing industry due to its self limiting effects on the leather quality. No prior art is available on the use of sea water or other similar water with salinity more than 10000 ppm for making pelt. The main objective of the present invention is to provide a novel process for leather making using saline water, which obviates the limitations cited above. Accordingly the present invention provides a process for leather making using saline water , which comprises; (i) treating raw hides/skins obtained from slaughter house, characterised by the step of using not less 300% w/v, of saline water having more than 25000 ppm of chlorides in presence of not less than 0.04%w/v of salt of alkali metal or an alkali earth metal as herein described either individually or in combination thereof, for a period of not less than 12 hrs to obtain soaked hides/skins, (ii) treating soaked hides / skins, as obtained in step (i), with not less than 2% w/w, of salts of alkali metal such as sodium sulfide and sodium carbonate and alkali earth metal such as calcium hydroxide with not more than 200% w/v, of saline water for a period of not less than 36 hrs, followed by fleshing by known mechanical method to get fleshed pelt, that is conventionally converted into finished leather. In an embodiment of the present invention, the salt of alkali metals used may be selected from sodium hydroxide, sodium sulfide, sodium carbonate, sodium bicarbonate either individually or in combinations thereof. In another embodiment of the present invention, the salt of alkali earth metals may be selected from calcium hydroxide, magnesium hydroxide either individually or in combinations. The process of the present invention is described below in detail. Raw hides/ skins are treated with 300% w/v, of saline water having more than 25000ppm of chlorides in presence of not less than 0.04%w/v of a salt of alkali metal or an earth metal, either individually or in any combination, for a period of not less than 12hrs. to get soaked hides / skins. These soaked hides / skins are then treated with not less than 2% w/w, of alkali metal in combination with not more than 200% w/v, of saline water for a period of not less than 6 hrs. The resulting stock is mechanically fleshed to get fleshed pelt, which is subjected to conventional tanning and other post tanning operations to get finished leather. The inventive step of the present invention lies in the treatment of raw hides/skins with salts of alkali metals/alkali earth metals to facilitate, using saline water having more than 25000ppm of salinity for leather processing, thereby suggesting not only an option to utilize the vast source of sea water and other water sources having high salinity, that otherwise poses environmental problems, for useful industrial applications, but also a step towards solving the problem of enormous water requirement by such processing industries as leather industry. The following are furnished by way of illustration only and therefore, should not be construed to limit the scope of the present invention. Example 1 5 Goat skins weighing 6 kgs were taken in a pit, which was flooded with 18 litres of water containing 30,000 ppm of chlorides. 8 gms of Ca(OH)2 were added to the pit with stirring. After a period of 12 hrs, the skins were found to be well-soaked. The water was drained. The soaked skins were then treated with 12 litres of saline water along with 600g of lime (calcium oxide) 60 g of sodium sulfide 120 g of sodium bicarbonate for a period of 48 hours with intermittent stirring. The skins were then fleshed using fleshing machine to produce fleshed pelts. These fleshed pelts were chrome tanned to produce chrome tanned leathers. Example 2 4 sheep skins weighing 5 kilos were soaked using 15 litres of water containing salinity of 28000 ppm . 10 g Mg(OH)2, 10 g Na2CO3and10 g NaOH were added to the pit with stirring. After a period of 14 hrs, the skins were found to be well-soaked. The water was drained. The soaked skins were then treated with 10 litres of saline water along with 500g of lime (calcium oxide) 40 g of sodium sulfide 100 g of sodium bicarbonate for a period of 36 hours with intermittent stirring. The water was then drained The skins were then fleshed using fleshing machine to produce fleshed pelts. These fleshed pelts were chrome tanned to produce chrome tanned leathers. Example 3 2 cow calf skins weighing 10 kilos were soaked using 30 litres of water containing salinity of 30000 ppm. 24 g Ca(OH)2 and 20 g NaHC03 were added to the pit with stirring. After a period of 12 hrs, the skins were found to be well-soaked. The water was drained. The soaked skins were then treated with 20 litres of saline water along with 500g of lime (calcium oxide) 100 g of sodium sulfide 200 g of sodium bicarbonate for a period of 48 hours with intermittent stirring. The water was then drained The skins were then fleshed using fleshing machine to produce fleshed pelts. These fleshed pelts were chrome tanned to produce chrome tanned leathers. The main advantages of the present invention are the following. 1) The process provides for an opportunity to utilize water with high dissolved solid content and salinity, to be used as a medium for leather processing which was considered unviable hither to. 2) The process affords use of sea water for leather processing, thereby creating a near inexhaustible alternative resource for leather processing 3) The process is simple and does not require sophisticated manpower or infrastructure 4) The process is reproducible and can be adopted by all scale of tanners irrespective of the production capacities. We claim 1. A process for leather making using saline water, which comprises: i) treating raw hides/skins obtained from slaughter house, characterised by the step of using not less 300% w/v of saline water having more than 25000 ppm of chlorides in presence of not less than 0.04%w/v of salt of alkali metal or an alkali earth metal as herein described either individually or in combination thereof, for a period of not less than 12 hrs to obtain soaked hides/skins, ii) treating soaked hides / skins, as obtained in step (i), with not less than 2% w/w, of salts of alkali earth metal such as sodium sulfide and sodium carbonate and alkali ne earth metal such as calcium oxide with not more than 200% w/v, of saline water for a period of not less than 36 hrs, followed by fleshing by known mechanical method to get fleshed pelt, that is conventionally converted into finished leather. 2. A process, as claimed in claim 1, wherein the salt of alkali metals used is selected from sodium hydroxide, sodium carbonate, sodium bicarbonate, sodium sulfide either individually or in combination thereof. 3. A process, as claimed in claims 1, wherein the salt of alkaline earth metals used in step (i) is selected from calcium hydroxide, magnesium hydroxide either individually or in combination thereof. 4. A process for leather making using saline water, substantially as herein described with reference to the examples.

Full Text

The present invention relates to a process for leather making using saline water. More particularly the invention relates to a process for making limed pelt using water having salinity of more than 25000 ppm. The process has enormous application potential in leather processing industry to utilize sources of water having high salinity including sea water. It is also envisaged to have abundant application in other similar processing industries.
Leather processing involves removal of non-collagenous materials present in hides/skins and converting the remaining collagenous substance into leathers of different functional as well as aesthetic properties using different combinations of chemical treatment and mechanical operations. Raw hides and skins are) first subjected to soaking operation whereby they are treated with water optionally in presence of other auxiliaries like surface active agents to remove adhering dirt, dung etc and also to ensure ample rehydration to facilitate the subsequent removal of non-collagenous materials followed by tanning of the collagenous substance. The soaked stock in most of the cases of leather processing is subjected to dehairng using chemical, enzymatic or even a combination system, unless the process is intended for hair-on tannage. It is however required to remove the flesh layer of the rehydrated hides/skins at this stage. The operation is known as liming, whereby the rehydrated hides/skins, both dehaired or otherwise, are treated with alkali like lime or sodium hydroxide in order to swell the protein, that facilitates easy removal of the non-collagenous layer by mechanical means called fleshing. The extent of swelling plays a major role in shaping the ultimate characteristics of the final leathers. All these operations are commonly referred to as beam house operations, which ultimately decide the quality of the final leather. The defleshed hide/skin is usually
referred to as pelt, which is subsequently subjected to several pretanning, tanning and different post tanning operations to manufacture finished leather. As reported in a communication from M/s Clariant (Hide Lines ,Vol.6, ppl, December 2001), leather is made in the beam house itself.
Conventionally, water has been the basic medium for leather processing. It is estimated that about 35- 40 litres of water per kilo of rawhide or skin is used for processing. As reported by John Sundar et al.( Journal of Scientific And Industrial Research ,pp 443-450,June,2001.), the current annual requirement of water for leather industry is about 30 billion litres. But the water, that is conventionally used for leather processing, satisfies certain quality requirements. It is a common practice in leather industry to use salt as a deswelling agent. It implies that saline water results in repression of swelling of the hides/skins.
On the other hand, with growing population and increase in per capita consumption of water, the water availability for industrial application is bound to face depletion. World bank has recently estimated that the demand of water would be expected to grow by over 650% in next three decades. The sustainability of processing industries like leather tanning, that consumes major share of water, is thus threatened by growing water resource crunch. Attempts are therefore being made to ensure economy of water by exploring the possibility of adopting water less/less water system or even reusing the same. Several attempts are also being made to explore alternate sources of water. 80% of earth's crust is estimated to be covered by water of which 97.5% is represented by seawater. The major limitation associated with the sea water is that it contains significant quantities of salts and minerals. Salinity of typical sea water ranges between
22000-35000 ppm. This high level of salinity is bound to affect the leather processing
adversely. Use of untreated seawater results in poor opening up of fibre structure as
evidenced by fallen (non-swollen) condition of the substrate and non loosening of flesh
adhered in the raw material, resulting in inadequate defleshing. This is why this vast
potential source of water has so far been untapped in leather processing industry due to its
self limiting effects on the leather quality.
No prior art is available on the use of sea water or other similar water with salinity more
than 10000 ppm for making pelt.
The main objective of the present invention is to provide a novel process for leather making
using saline water, which obviates the limitations cited above.
Accordingly the present invention provides a process for leather making using saline water
, which comprises;
(i) treating raw hides/skins obtained from slaughter house, characterised by the step of using not less 300% w/v, of saline water having more than 25000 ppm of chlorides in presence of not less than 0.04%w/v of salt of alkali metal or an alkali earth metal as herein described either individually or in combination thereof, for a period of not less than 12 hrs to obtain soaked hides/skins, (ii) treating soaked hides / skins, as obtained in step (i), with not less than 2% w/w, of salts of alkali metal such as sodium sulfide and sodium carbonate and alkali earth metal such as calcium hydroxide with not more than 200% w/v, of saline water for a period of not less than 36 hrs, followed by fleshing by known mechanical method to get fleshed pelt, that is conventionally converted into finished leather.
In an embodiment of the present invention, the salt of alkali metals used may be selected
from sodium hydroxide, sodium sulfide, sodium carbonate, sodium bicarbonate either individually or in combinations thereof.
In another embodiment of the present invention, the salt of alkali earth metals may be
selected from calcium hydroxide, magnesium hydroxide either individually or in
combinations.
The process of the present invention is described below in detail.
Raw hides/ skins are treated with 300% w/v, of saline water having more than 25000ppm
of chlorides in presence of not less than 0.04%w/v of a salt of alkali metal or an earth
metal, either individually or in any combination, for a period of not less than 12hrs. to get
soaked hides / skins. These soaked hides / skins are then treated with not less than 2%
w/w, of alkali metal in combination with not more than 200% w/v, of saline water for a
period of not less than 6 hrs. The resulting stock is mechanically fleshed to get fleshed
pelt, which is subjected to conventional tanning and other post tanning operations to get
finished leather.
The inventive step of the present invention lies in the treatment of raw hides/skins with
salts of alkali metals/alkali earth metals to facilitate, using saline water having more than
25000ppm of salinity for leather processing, thereby suggesting not only an option to
utilize the vast source of sea water and other water sources having high salinity, that
otherwise poses environmental problems, for useful industrial applications, but also a
step towards solving the problem of enormous water requirement by such processing
industries as leather industry.
The following are furnished by way of illustration only and therefore, should not be
construed to limit the scope of the present invention.
Example 1 5 Goat skins weighing 6 kgs were taken in a pit, which was flooded with 18 litres of water containing 30,000 ppm of chlorides. 8 gms of Ca(OH)2 were added to the pit with stirring. After a period of 12 hrs, the skins were found to be well-soaked. The water was drained. The soaked skins were then treated with 12 litres of saline water along with 600g of lime (calcium oxide) 60 g of sodium sulfide 120 g of sodium bicarbonate for a period of 48 hours with intermittent stirring. The skins were then fleshed using fleshing machine to produce fleshed pelts. These fleshed pelts were chrome tanned to produce chrome tanned leathers.
Example 2 4 sheep skins weighing 5 kilos were soaked using 15 litres of water containing salinity of 28000 ppm . 10 g Mg(OH)2, 10 g Na2CO3and10 g NaOH were added to the pit with stirring. After a period of 14 hrs, the skins were found to be well-soaked. The water was drained. The soaked skins were then treated with 10 litres of saline water along with 500g of lime (calcium oxide) 40 g of sodium sulfide 100 g of sodium bicarbonate for a period of 36 hours with intermittent stirring. The water was then drained The skins were then fleshed using fleshing machine to produce fleshed pelts. These fleshed pelts were chrome tanned to produce chrome tanned leathers.
Example 3 2 cow calf skins weighing 10 kilos were soaked using 30 litres of water containing salinity of 30000 ppm. 24 g Ca(OH)2 and 20 g NaHC03 were added to the pit with stirring. After a period of 12 hrs, the skins were found to be well-soaked. The water was drained. The
soaked skins were then treated with 20 litres of saline water along with 500g of lime
(calcium oxide) 100 g of sodium sulfide 200 g of sodium bicarbonate for a period of 48
hours with intermittent stirring. The water was then drained The skins were then fleshed
using fleshing machine to produce fleshed pelts.
These fleshed pelts were chrome tanned to produce chrome tanned leathers.
The main advantages of the present invention are the following.
1) The process provides for an opportunity to utilize water with high dissolved solid content and salinity, to be used as a medium for leather processing which was considered unviable hither to.
2) The process affords use of sea water for leather processing, thereby creating a near inexhaustible alternative resource for leather processing
3) The process is simple and does not require sophisticated manpower or infrastructure
4) The process is reproducible and can be adopted by all scale of tanners irrespective of the production capacities.

We claim
1. A process for leather making using saline water, which comprises:
i) treating raw hides/skins obtained from slaughter house, characterised by the step of using not less 300% w/v of saline water having more than 25000 ppm of chlorides in presence of not less than 0.04%w/v of salt of alkali metal or an alkali earth metal as herein described either individually or in combination thereof, for a period of not less than 12 hrs to obtain soaked hides/skins,
ii) treating soaked hides / skins, as obtained in step (i), with not less than 2% w/w, of salts of alkali earth metal such as sodium sulfide and sodium carbonate and alkali ne earth metal such as calcium oxide with not more than 200% w/v, of saline water for a period of not less than 36 hrs, followed by fleshing by known mechanical method to get fleshed pelt, that is conventionally converted into finished leather.
2. A process, as claimed in claim 1, wherein the salt of alkali metals used is selected from
sodium hydroxide, sodium carbonate, sodium bicarbonate, sodium sulfide either individually or in combination thereof.
3. A process, as claimed in claims 1, wherein the salt of alkaline earth metals used in step (i) is selected from calcium hydroxide, magnesium hydroxide either individually or in combination thereof.
4. A process for leather making using saline water, substantially as herein described with reference to the examples.

Documents:

1000-del-2003-abstract.pdf

1000-del-2003-claims.pdf

1000-del-2003-complete specification (granted).pdf

1000-del-2003-corresopndence-others.pdf

1000-del-2003-corresopndence-po.pdf

1000-del-2003-description (complete).pdf

1000-del-2003-form-1.pdf

1000-del-2003-form-19.pdf

1000-del-2003-form-2.pdf

1000-del-2003-form-3.pdf

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Patent Number

196768

Indian Patent Application Number

1000/DEL/2003

PG Journal Number

37/2008

Publication Date

12-Sep-2008

Grant Date

16-Mar-2007

Date of Filing

14-Aug-2003

Name of Patentee

COUNCIL OF SCIENTIFIC AND INDUSTRIAL RESEARCH, an Indian registred body incorporated under the Registration of Societies Act (Act XXI of 1860)

Applicant Address

RAFI MARG, NEW DELHI-110001, INDIA

Inventors:

#	Inventor's Name	Inventor's Address
1	NAGARAJAN VEDARAMAN	CENTRAL LEATHER RESEARCH INSTITUTE, ADYAR, CHENNAI-600020, INDIA.
2	KUTTALAM IYAPPAN	CENTRAL LEATHER RESEARCH INSTITUTE, ADYAR, CHENNAI-600020, INDIA.
3	VICTOR JOHN SUNDAR	CENTRAL LEATHER RESEARCH INSTITUTE, ADYAR, CHENNAI-600020, INDIA.
4	BOPPANA VENKATA RAMABRAHAM	CENTRAL LEATHER RESEARCH INSTITUTE, ADYAR, CHENNAI-600020, INDIA.
5	CHELLAPPA MURALIDHARAN	CENTRAL LEATHER RESEARCH INSTITUTE, ADYAR, CHENNAI-600020, INDIA.

PCT International Classification Number

A61K 009/00

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1			NA