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Navsari Agricultural University, Navsari
NAVSARI AGRICULTURAL UNIVERSITY
Central Institute for
Research on Cotton
Technology, Mumbai
Manmade Textile
Research Association,
Surat
MANTRA
JK Paper, Ltd.,
Songadh
Creating lasting impressions
PAPER
March, 2011
DEVELOPMENT OF VALUE ADDED PRODUCTS
FROM BANANA PSEUDOSTEM
(An Overview of Progress)
National Agricultural Innovation Project
(Component 2)
STATUS OF BANANA PSEUDOSTEM BEFORE NAIP
NAIP Team
NAU, Navsari
Dr. R. G. Patil (CPI)
Dr. B. N. Kolambe (CoPI)
Shri. S. L. Pawar Dr. J. M. Patel
Dr. D. R. Prajapati Er. N. G. Savani
Shri. Vijay Anand Shri. K. K. Patel
Dr. C. S. Desai Shri. H. B. Vaidya
Shri. P. S. Patel Hardik Shah
CIRCOT, Mumbai MANTRA, Surat
J. K. PAPER Ltd., Songadh
Dr. A. J. Shaikh Dr. S. K. Basu
Dr. R. P. Nachane (CCPI) Shri. M. K. Parikh
Mrs. Manisha Kurhade Dr. S. R. Naik (CCPI)
Shri. Radhamohan (CCPI)
Shri. Sanjay Chechi
Shri. Kamlesh Patel
National Agricultural Innovation Project
(Component 2)
DEVELOPMENT OF VALUE ADDED PRODUCTS
FROM BANANA PSEUDOSTEM
(An Overview of Progress)
Dr. P. Rethinam, Retd. Chairman,
Coconut Development Board, Kochi
Dr. R. S. Gandhi, Retd. Director,
MANTRA, Surat
Dr. M. M. Mustaffa, Director
National Research Centre for Banana, Trichy
Shri. Arvindbhai K. Naik, Progressive farmer,
Padgha (Navsari)
Shri. Ashwinbhai B. Patel, Chairman,
Banana Cooperative, Kamrej (Surat)
Shri. Deepakbhai S. Patel, Chairman
Fruit & Vegetable Growers Cooperative, Bardoli (Surat)
Shri. Dinesh Zaveri, Industrialist
Palsana (Surat)
Smt. Deepaben T. Patel, Women SHG,
Athwa road, Surat
Dr. R. K. Goyal, National Coordinator (Compt. 2)
NAIP, New Delhi
Dr. A. R. Pathak, Hon. Vice Chancellor
Navsari Agricultural University, Navsari
Dr. R. G. Patil (CPI)/ Dr. B. N. Kolambe (CoPI)
Navsari Agricultural University, Navsari
Chairman
Member
Member
Member
Member
Member
Member
Member
Member
Member
Member
Secretary
Consortium Advisory Committee
PREFACE
Place : Navsari (A. R. Pathak)
March, 2011 Vice Chancellor
The Vice Chancellor
Navsari Agricultural University,
Navsari - 396450 (Gujarat)
Banana is one of the important fruit crops grown almost in every
state of India (7.1 lakh ha). Apart from fruit, it generates huge quantity of
biomass as waste in the form of pseudostem, leaves, suckers etc., of these,
on an average about 60 to 80 t/ha is pseudostem alone. Presently, the
banana pseudostem is absolute waste in most of the states of India. In
order to develop value added products exclusively from banana
pseudostem on large scale, a project entitled, “A Value Chain on Utilization
of Banana Pseudostem for Fibre and Other Value Added Products” was
sanctioned during June 2008 under World Bank funded - NAIP
(Component II), ICAR, New Delhi in consortium mode with Navsari
Agricultural University , Navsari (Gujarat) as lead centre and Central
Institute for Research on Cotton Technology (ICAR), Mumbai
(Maharashtra), Manmade Textile Research Association, Surat (Gujarat) and
J. K. Paper Mills Ltd., Songadh (Gujarat) as partners.
The value added products viz., fibre, yarn, fabrics, MCC,
vermicompost, liquid fertilizer, quality papers, candy and pickles
developed/ prepared using banana pseudostem under this project is
culmination of the dedicated team efforts put in by the scientists of the
consortium. I am happy to note that good beginning has been made in
developing variety of value added products using pseudostem and hope
that the information generated will be of immense help to the farmers,
entrepreneurs, planners, scientists etc. It gives me an immense pleasure in
commending the efforts put in by the team of scientists actively involved
in this consortium for developing products from banana pseudostem and
bringing out this publication on the occasion of Workshop-cum-Training
Programme on “Potential Value Added Products from Banana
Pseudostem”.
Navsari Agricultural University
INDEX
Title
INTRODUCTION
PSEUDOSTEM PROCESSING
FIBRE BASED PRODUCTS
SCUTHER BASED PRODUCTS
SAP
CENTRAL CORE
TRANSFER OF TECHNOLOGY
2.1 Fibre extraction
Economics of fibre extraction
3.1 Fabric
3.2 Quality grade papers
3.3 Handmade paper and board
3.4 Handicrafts
3.5 Microcrystalline cellulose (MCC)
4.1 Vermicompost
4.1.1 As organic
4.1.2 As a fish feed
4.2 Particle board
5.1 Enriched sap
5.1.1 As liquid fertilizer
5.1.2 Nutrient spray solution
5.2 As mordant
6.1 Candy
6.2 Ready to serve drink
6.3 Pickle
7.1 Documentation and dissemination
7.2 Field demonstration
7.3 Trainings and visits
2.2
No.
1
2
3
4
5
6
7
Page No.
1
2
3
5
7
7
9
10
11
12
12
12
13
14
15
15
16
16
17
18
19
19
19
20
21
21
22
23
1. INTRODUCTION
In India, about 7.1 lakh ha area is under banana crop with the total
fruit production of 26.2 million MT contributing 14.7 per cent of global
the technological development in banana cultivation, its productivity is
also showing rising trend (Fig. 1). Apart from fruit, banana crop also
generate huge quantity of biomass in the form of pseudostem, leaves,
suckers etc. At present, this biomass particularly pseudostem is
absolute waste in most of the states of India and Gujarat is not an
exception to this practice. Not only this, but for disposing pseudostem
presently farmers are spending about Rs. 8000 to 10000/ha. Disposal of
pseudostem in a routine ways i.e., dumping on field bunds and burning,
disposing in nalla/natural drains etc. causing environmental problems.
The baseline survey conducted in Gujarat covering 53 banana growers
during 2008-09 revealed that 33 per cent are either composting the
pseudostem or chopping and incorporating it into soil while rest of the
farmers are disposing it either on field bunds or in nallas. Among the
farmers interviewed, no one knew about preparing any value added
Anonymous (2009) Indian Horti. Data Base, NHB, New Delhi.
production, (Anon.,
2009). In India, the
area under banana is
increasing steadily
(Fig. 1) because of
higher return as
compared to other
crops. Similarly, with
Fig. 1 : Area and production trend of banana in India
Area (lakh ha)
Production (million tonnes)
Are
a8.0
7.0
6.0
5.0
4.0
3.0
2.0
1.0
0.0
30.0
25.0
20.0
15.0
10.0
5.0
0.0
7.8
14.213.3
13.916.7
18.9
21.0
23.8
26.2
1991-92 2001-02 2002-03 2003-04 2004-05 2005-06 2006-07 2007-08 2008-09
Year
3.84.7 4.8 5.0
5.9 5.7 6.06.6
7.1
Pro
du
ction
1
products from it. Further, at national level work related to developing
value added products from banana pseudostem is mostly restricted to
fibre extraction and products like handicrafts, hand woven fabrics, paper
products etc, are prepared on a small scale. With the sizable area under
banana (0.61 lakh ha) along with excellent network of banana
cooperatives in Gujarat, it was thought to develop variety of value added
products from banana pseudostem. In this context, a World Bank funded
project entitled, “A Value Chain on Utilization of Banana Pseudostem for
Fibre and Other Value Added Products” was sanctioned by NAIP (ICAR)
under Component 2 in consortium mode with Navsari Agricultural
University, Navsari as lead centre and Central Institute of Research on
Cotton Technology (CIRCOT, Mumbai), Manmade Textile Research
Association (MANTRA, Surat) and JK Paper Ltd. (Songadh) as consortium
partners with the following objectives.
- Standardize processes for extracting textile grade fibres
from pseudostem and prepare home furnishings
- Standardize processes of pulp and paper making from
pseudostem, fibres and scutching waste both at hand made
and industrial levels
- Develop value added edible products from central core
- Preparation and evaluation of enriched sap and scutching
waste based vermicompost
- Develop linkage for marketing of pseudostem based
products
After harvesting of fruits and leaves, pseudostem is cut near to
the ground level. On an average, the yield of pseudostem ranges from 60
to 80 t/ha. Presently, fibre extraction from pseudostem is being done
mostly by hand extraction in villages of Tamil Nadu, Kerala, Karnataka,
2. PSEUDOSTEM PROCESSING
2
Andhra Pradesh and Maharashtra. The major
drawback of this method is extremely poor
fibre output (0.5 kg/day/man). In order to
mechanize the f ibre extraction from
pseudostem, research was carried mainly at
CIRCOT, Mumbai (MS). They developed
raspador machine which is used for extracting
fibres from banana pseudostem easily and
quickly. Before extracting fibre using raspador,
one has to separate the sheaths from
pseudostem by splitting it. The splitting of
pseudostem is generally done by knife or
koyta which is time consuming. For resolving
this problem, NAU, Navsari has developed
pseudostem cutter machine which facilitate
speedy splitting of pseudostem in to 2 or 4
halves. From these halves, sheaths are
separated easily. In general, splitting of
pseudostem manually requires 2.65 minutes/100 kg as against 0.82
minutes /100 kg using pseudostem cutter machine. Such one cutter
machine is sufficient for providing sheaths required for four raspador
machines.
Mechanization of fibre extraction process to suite under farmers'
field conditions was one of the main tasks envisaged in this project.
Initially 2 raspador units of different capacities (3 HP and 5 HP) were
procured and tested at NAU farm. After gaining necessary experience
and difficulties encountered in fibre extraction, following refinement
and modifications were incorporated by NAU, Navsari in collaboration
with CIRCOT, Mumbai during 2008-09.
2.1 Fibre extraction
3
Raspador Machine
Pseudostem Cutter Machine
Additional pulley attachment for operating raspador on power
tiller or engine even in absence of power supply.
Bigger size wheel attachments for easy mobility of raspador
under field conditions
Modification of raspador for avoiding pulls back action during
fibre extraction
In all, 24 raspador and 10 cutter machines were procured and
operationalized at NAU and farmers' fields. The details regarding the
raspador machines operationalized and quantity of fibres extracted are
given in table 1.
Ø
Ø
Ø
Table 1 : Details regarding raspador machines and fibres extracted
Raspador Machine Operated by Engine
Raspador Machine Operated by Power Tiller
Modified Raspador Machine
No. of Machines
Operationalized
3
21
24
Quantity of Fibre
Extracted (kg)
1300
19000
20300
Remarks
1 m/c is installed at NAU sub-centre Fruit Research Station, Gandevi for its R & D work related to fibre extraction from different varieties.
The m/c are shifted from village to village as per farmers demand
Fibre Extraction
NAU, Navsari
Farmers (Through Banana Co-operatives)
Total
4
2.2 Economics of fibre extraction
Based on the work done for first two years, the cost of fibre
extraction from pseudostem was worked out (Table 2). Considering the
fibre yield and its selling price, farmers can realize an additional net
income of Rs. 23178/ha. Apart from monetary benefits, fibre extraction
technology also generates employment in rural areas.
Fibre Extraction Unit at NAU, Navsari
Fibre Extraction on Farmers' Fields
Kikwad village, Surat district Rajpipla, Narmada district
5
Table 2 : Economics of fibre extraction
Unit
Rs/ha
Rs/ha
Rs/ha
Rs/ha
kg/ha
Rs/kg
Rs/ha
Rs/ha
Value (Rs.)
18255
7170
1292
26717
587
85
49895
23178
SN
1
2
3
4
5
6
7
Particulars
Variable cost
- Labour cost (@ 100 Rs/day/labour)
- Energy charges (@ 7 Rs/unit)
Fixed cost
- Raspador machine
(Cost Rs. 100000 with 15 year
lifespan + maintenance and
repairing @ 2 % + upset value
10 % + interest @ 12%)
Total cost
Fibre yield (dry)
Selling price
Gross income
Net income (6-3)
During the process of fibre extraction, four components are
obtained simultaneously. These components are fibre (about 600 kg/ha),
scutcher (30 to 35 t/ha), sap (15000 to 20000 l/ha) and central core (10 to
12 t/ha). In the present project, using each component variety of value
added products have been developed (Flow chart 1).
Flow Chart 1 : Banana pseudostem components
FIBRE
- Fabrics
- Quality papers
- MCC
- Handicrafts
SCUTCHER
- Vermicompost
- Handmade
papers and
board
SAP
- Liquid fertilizer
and nutrient
spray
- Mordant
CENTRAL CORE
- Candy
- Pickles
- RTS
6
3. FIBRE BASED PRODUCTS
3.1 Fabric
Table 3 : Fibre based products developed by the partners
Table 4 : Tensile properties of banana yarn
Through NAIP intervention, about 20.3 t fibre has been extracted
so far. These fibres are used for developing different value added
products.
One of the major objectives of the project is to standardize the
process for extracting textile grade fibre from banana pseudostem and
develop different types of fabrics from it. Accordingly, an attempt was
made by CIRCOT, Mumbai and MANTRA, Surat to prepare different
fabrics and test their quality. As such banana fibres being coarse, it is not
possible to spin these fibres on conventional spinning system. As the
properties of banana fibres resemble to some extent with jute fibre, it
was tried to spin the banana fibre on jute spinning system at Kolkata
(WB). Through collaborative efforts of CIRCOT, Mumbai and NAU,
Navsari, so far 2.76 t banana fibre yarn has been prepared. The yarn
samples were tested for quality parameters and based on the quality of
yarn, different fabrics were prepared by MANTRA, Surat and CIRCOT,
Mumbai. The details regarding products prepared by both the partners
are given in table 3.
The quality parameters of yarn given in table 4 indicate that it is
thick with poor linearity and protruded fibres.
SN
1
2
Products
Fabrics, synthetic based/ laminated fabrics,
apparels prepared from fabrics
Yarn, fabrics, non woven fabric, microcrystalline
cellulose (MCC)
Partner
MANTRA, Surat
CIRCOT, Mumbai
Breaking
load (kg)
7.23
Breaking
extension (%)
3.84
Tex
6.70
Tenacity
(g/tex)
10.8
Count
0.9
TPI
3.3
U (%)
23.5
7
Because of these problems, it cannot be used directly for
preparing fabrics. Hence, numbers of processes were followed by
MANTRA, Surat for minimizing protruded fibres and making the fabrics
smooth as well as soft. After this, an union fabric was prepared by using
cotton yarn in wrap and banana fibre yarn as weft. They also prepared
synthetic leather which can be used as sofa cover, car cover, school bags
etc. At CIRCOT, Mumbai woven and non woven fabrics were prepared by
using 100 per cent banana fibre. The fabrics prepared were also dyed and
tested for quality parameters.
In addition to these efforts, for improving pliability of banana
fibre, 10 per cent jute fibre were mixed and yarn was prepared. It is
planned to develop different products using this yarn (90:10 banana:
jute).
Simultaneously, for resolving the problems faced in yarn
preparation from banana fibre, necessary modifications in yarn machine
Fabric Apparels
Laminated fabricSynthetic laminated
fabricNon woven
fabric
Yarn spinning m/c
were done by CIRCOT, Mumbai. One such
modified yarn machine with 8 spindles has been
installed at CIRCOT, Mumbai, where R & D trial
are in progress. Similarly, one more modified
version of yarn machine with 16 spindle has been
installed at NAU, Navsari. It is anticipated that by
using these machines, better quality yarn can be
obtained. Subsequently, high value fabrics will be
developed.
8
3.2 Quality grade papers
The trials for optimization of bleaching and pulping conditions
for preparing quality paper using banana fibre have been conducted by
JK Paper Ltd., Songadh. The sheets of various grades (bleached and
unbleached) have been prepared and their quality was tested by JK
Paper, Songadh and CIRCOT, Mumbai. Paper prepared from fibre was
found to have better quality than that from paper prepared from whole
pseudostem. Process for developing quality grade papers viz., anti-
grease and cheque has been standardized. The banana fibre can be an
alternative raw material for paper industries. This is amply evident from
the quality parameter data reported in table 5.
Table 5 : Comparison of bleached pulp of banana pseudostem fibre with
other commonly used raw materials in paper industry
Particulars
Bulk
Tear factor
Brust factor
Breaking
length
Double fold
Unit
Cc/gm
-
-
M
No.
Bamboo
1.33
66
35
5100
30
Prosopis
-
51
36
5146
20
Banana Fibre
1.22
86
79
4931
1389
Eucalyptus
1.45
60
30
4900
12
Anti grease paper Cheque paper
9
3.3 Handmade paper and board
Apart from quality paper at industrial scale, one handmade paper
and board unit has been commissioned at NAU, Navsari (cap.: 100
kg/day).
In this unit, variety of paper and board have been prepared using
banana fibre, scutcher, cotton rags, waste paper and paddy straw in
varying proportion. The quality of these papers have been tested at
CIRCOT, Mumbai and reported in table 6. So far about 1000 kg paper
have been prepared. Using these paper and board, different articles like
file cover, writing pad, art paper, printing paper, folder etc., have been
prepared.
Stationary items prepared using banana fibre cotton rags, waste papers +
and paddy straw
Operation of handmade paper & board unit
10
Table 6 : Physical quality parameters of handmade paper
G.S.M. 2(g/m )
145
309
513
146
335
335
Breaking
length
(m)
4140
3117
2321
2604
2334
1786
Burst
factor 2(kg/cm )
31.72
38.83
25.34
36.99
19.10
20.90
Raw materials used (kg)
Banana fibre - Yellow dye (100%)
Banana fibre - white thick (100%)
Banana fibre (50%) + white
cotton rag (50%) - Thick
Banana fibre (50%) + white
cotton rag (50%) dyed - Thin
Banana fibre (10%) + coloured
cotton rag (30%) + paddy straw
(30%) + waste paper (30%)
Banana fibre (50%) + cotton rag
coloured (50%)
Double
fold
(nos.)
5000
3000
1300
300
115
320
3.4 Handicrafts
Apart from this, various handicrafts items have been prepared
using banana fibres by Manav Kalyan Trust, Navsari. Handicrafts items
include various types of decorative wall hangings, bags, dolls, key chains
etc. As a part of technology transfer, one training with respect to this have
been imparted to women SHG, Chaswad.
Handicraft items prepared from banana fibre
Banana fibre articlesPainting made on
banana fibre paper
11
3.5 Microcrystalline cellulose (MCC)
At CIRCOT, Mumbai process for extracting MCC from banana
fibre has been standardised. The quality of MCC extracted from banana
fibre is comparable with commercially available MCC. This
suggests that MCC extracted from banana fibre can be
used in pharmaceutical industries. So the banana fibre can
be a viable alternative raw material for MCC (Table 7). The
techno-economic feasibility of using MCC extracted from
banana fibre in pharmaceutical industry is in progress.
a - cellulose
59
b - cellulose
37
y - cellulose
4
Ash
1.1
Table 7 : Chemical constituents (%) of cellulose powder extracted from banana pseudostem fibre
4. SCUTCHER BASED PRODUCTS
4.1 Vermicompost
Huge quantity of scutcher (about 30 to 35 t/ha) is generated
during fibre extraction. In order to utilize this scutcher in proper way,
process for preparing following value added products has been
standardized.
At NAU, process has been standardized for vermicompost
preparation using pseudostem scutcher and dungs. Vermicompost with
scutching waste: cow dung ratio of 70:30 was found to be an ideal in
terms of nutrient content. One acre unit has been established at NAU
farm and about 100 tonnes of vermicompost has been harvested so far.
The vermicompost prepared had been tested for its quality and is being
marketed in the NAU trade name NAUROJI. In order to know its viability
vis-a-vis FYM or biocompost (press mud based), cost of production of
vermicompost was computed (Table 8).
12
Table 8 : Economics of vermicompost (12000 kg/ha)
Particulars
Variable cost
Scutcher, 30 t/ha (@ Rs. 0.25/kg labour
charges)
Dung, 12 t/ha (@ Rs. 0.75/kg)
Earthworm
Labour cost (bed preparation, watering,
harvesting, processing)
Bagging
Fixed cost
Net house (@ Rs.300/sqm)
Maintenance and repairing (@ 1.0%)
Total cost for vermicompost
Vermicompost yield
Selling price
Gross income
Net income (6-3)
Unit
Rs
Rs
Rs
Rs
Rs
Rs
Rs
Rs
kg
Rs/kg
Rs
Rs
Value (Rs.)
7500
9000
700
9000
1200
4400
400
32200
12000
5
60000
27800
SN
1
2
3
4
5
6
7
4.1.1 As organics : Experiments as well as demonstrations are being
conducted at NAU farm and farmers' fields, respectively on various crops
like sugarcane, banana, papaya, ginger etc. using scutcher based
vermicompost. Based on the 2 years
(2009-10 and 2010-11) pooled results,
pseudostem based vermicompost
was found comparable with FYM and
biocompost in banana as well as
s u g a r c a n e . A p p l i c a t i o n o f
vermicompost @ 3 kg /plant in
banana and 5 t/ha in sugarcane in addition to RDF recorded comparable
yields of both the crops with FYM and biocompost (Figs. 2 & 3). Use of
vermicompost also sustains soil health.
13
4.1.2 As a fish feed : An innovative experiment is being conducted to
explore the feasibility of blending vermicompost with fish feed. The
results of first year have revealed that the routine fish feed (cattle feed)
can be substituted by vermicompost up to 30 per cent without any
reduction in body weight of fish (Fig. 4).
0
10
20
30
40
50
60
70
80
T1-FYM @ 5 kg/plant + RDF
T2-BC @ 3 kg/plant + RDF
T3-VC @ 1.5 kg/ plant +
RDF
T4-VC @ 3.0 kg/ plant +
RDF
T5-VC @ 5.0 kg/ plant +
RDF
T6-Only RDF
(No organics)
66.8 65.3 61.970.6 66.7
57.9
Treatments
Fig. 2 : Effect of organics on yield of banana (t/ha) - Pooled (2 years)
CD (0.05) = 8.15
FYM= Farm Yard Manure BC = Biocompost VC = Vermicompost
Yie
ld (
t/h
a)
0
50
100
150
200
T1 - FYM @ 20t/ha + RDF
176 181163
CD (0.05) = NS
Treatments
FYM= Farm Yard Manure BC = Biocompost VC = Vermicompost
Yie
ld (
t/h
a)
Fig. 3 : Effect of organics on yield of sugarcane (t/ha) - Pooled (2 years)
174 163 175
T6 - Only RDF(No organics)
T5 - VC @ 15t/ha + RDF
T4 - VC @ 10t/ha + RDF
T3 - VC @ 5t/ha + RDF
T2 - BC @ 15t/ha + RDF
14
0
20
40
60
80
100
Treatments
T1 - 10 %Vermicompost+ 90 % Cattle
feed
Fig. 4 : Effect of replacement of scutching waste based vermicompost on fish weight (at 120 days)
49.20 49.9066.76
46.24
90.25
T2 - 20 %Vermicompost+ 80 % Cattle
feed
T3 - 30 %Vermicompost+ 70 % Cattle
feed
T4 - 100 %Cattle feed(Control)
T5 - 50 % G'nutcake + 50 %
Rice bran(Recommeded)
We
igh
t (g
)
For efficient utilization of fish feed, presently pelleting of
vermicompost is being done using local machine. A demonstration has
also been laid on farmer's field to validate the results on large scale.
Pelleting of vermicompost
Fish feed experiment at NAU
Demonstration on farmers' field
4.2 Particle board
5. SAP
Particle board prepared using scutching waste by CIRCOT,
Mumbai.
Earlier reviews have indicated that sap has found to contain fair
amount of nutrient in it. With respect to this, NAU has been conducting
experiments to test sap as liquid fertilizer and nutrient spray. About
15,000 to 20,000 litres of sap can be extracted from one hectare of
pseudostem. NAU and CIRCOT have been developing technologies for
using this sap in a profitable way.
15
5.1 Enriched sap
The process for enrichment of
sap is being standardized. Sap of
about 2500 litres have been prepared
and distributed among the farmers
for demonstration. The composition
of the enriched sap is given here.
Apart from essential plant nutrient, it
also contains growth promoting
substances viz., GA and cytokinin.
Total N
4.2
119
P
35.1
50.4
K
1223
1289
Sap type
Fresh Sap
Enriched sap
Composition (ppm)
5.1.1 As liquid fertilizer : Sap extracted from pseudostem was
evaluated as liquid fertilizer through filed experiments for two years in
crops like banana, papaya, sugarcane etc. The pooled results indicated
that with the application of sap saving of about 20 to 40 per cent RDF
could be achieved without affecting the yields of banana and sugarcane.
The rate of application of sap is 3 l/plant and 5000 l/ha to banana and
sugarcane, respectively (Figs. 5 & 6).
Fig. 5 : Effect of sap and fertilizer levels on yield of banana (Pooled - 2 years)
30
40
50
60
70
80
Yie
ld (
t/h
a)
60
.4
60
.8 58
.3
59
.9
70.4 67
.5
68
.1 62
.1
67.5
F1 (60 % OFRDF)
F2 (80 % OFRDF)
F3 (100 % OFRDF)
S2 (3 L/PLANT)
S3 (4 L/PLANT)
S1 (2 L/PLANT)
RDF = 180: 90: 180 g NPK/ plant
CD (0.05) = 6.54
16
5.1.2 Nutrient spray solution : Trials
have been conducted using sap as a
nutrient spray in vegetable nurseries
(brinjal and chillies) under green house
condition. The results indicated that
spraying of either enriched sap +
vermibed wash (1:1) on vegetable
seedling resulted in achieving early
transplantable stage by 8 to 10 days as compared to no spray (Fig. 7).
Yie
ld (
t/h
a)
Fig. 6 : Effect of sap and fertilizer levels on yield of sugarcane (Pooled - 2 years)
F1 (60 % OFRDF)
F2 (80 % OFRDF)
F3 (100 % OFRDF)
S1 (5000 L/ha)
S2 (10000 L/ha)
S3 (15000 L/ha)
0
25
50
75
100
125
150
175
200
RDF = 250: 125: 125 kg NPK / ha
CD (0.05) = NS
17
5
172
18
4
170
170
17
1
18
2
18
8 18
3
45.040.035.030.025.020.015.010.0
5.00.0
Fig. 7 : Effect of sap vermi bedwash on days to transplantable stage of brinjal and chillies seedlings
T1 - Sap (S)
T2 - Vermi bed wash
(V)
T3 - Enriched
sap
T4 - 1:1(S:V)
T7 - Control
T5 - 1:2(S:V)
T6 - 2:1(S:V)
Day
s
Brinjal
Chillies
Treatments
29
.0 39
.0
29
.5 38
.5
24
.5 32
.0
23
.5 30
.5
27.0 3
5.5
27.5 3
6.0
31
.5 41
.5
17
Treatments
0
0.2
0.4
0.6
0.8
1
1.2
1.4
% f
ruit
set
tin
g
5.5
5*
T1 - Sapalone
T2 - Vermibed
washalone
T3 - Enrichedsap alone
T4 - Sap :Vermibedwash (1:1)
T5 - Sap :Vermibedwash (2:1)
T6 - Sap :Vermibedwash (1:2)
T7 - Control
(No spray)
Fig. 8 : Effect of sap spray on mango fruit setting
C.D. (0.05) = 0.99*Absolute values
6.5
9
5.8
2
5.5
2
5.5
1
6.1
1
4.6
2
Another experiment is in progress for studying the effect of
banana sap spray on mango fruit
setting. First year (2009-10) data
indicated that spraying of sap +
vermibed wash (1:1) recorded higher
fruit setting in mango (6.59%) as
compared to control (4.62%) (Fig 8). The
second year (2010-11) experiment is in
progress.
18
5.2 As mordant
At CIRCOT, Mumbai trials were conducted for using sap as
mordant in textile dying. Laboratory scale trial has been completed to
test sap as mordant with natural dyes like manjistha and annatto. The
test results have indicated good fastening properties of these dyes when
used with sap. This is one of the innovations attempted in the project.
The process for using sap as mordant has been standardized at CIRCOT,
Mumbai.
Dyed fabric with sap Dyed fabric without sap
6. CENTRAL CORE
6.1 Candy
Central core is inner most tender portion of the pseudostem
which is edible. About 10 to 12 t/ha central core can be obtained. NAU
has standardized processes for developing edible products viz., candy,
RTS and pickles. Further, it is planned to train the farmers and women
SHGs for preparing these products on a large scale.
The process for developing candy has been standardized and
pilot scale production is in progress at NAU. The product developed has
been tested for its nutritional parameters at CFTRI, Mysore. Until 2010, 48
kg candy of different quality and flavor has been prepared and
distributed. This candy has an additional advantage as it contains Fe and
vitamin (B & B ) in appreciable amount (Table 9).3 5
Chocolate coated candy Milk coated candy
6.2 Ready to served drink
The soft drinks are being prepared
from sugar syrup left out during candy
preparation as well as directly from central core
sap. The drinks prepared are fortified with
flavours which have been standardized and
certification of RTS in referral lab is in progress.
In all, 520 glass (150 ml) i.e., total 78 litres RTS
have been sold during Krishi Mela, 2010
organized at NAU, Navsari by GoG.
19
Parameters
Moisture
Total ash
Protein
Fat
Crude fibre
Carbohydrates
Calorific value
Total sugars
Dietary fibre
- Insoluble fibre
- Soluble fibre
- Total fibre
K
Na
Ca
Mg
Fe
Vitamin (Niacin B ) 3
Vitamin (Pantothenic acid B ) 5
Unit
%
%
%
%
%
mg/100 g
K.cals/100 g
%
%
%
%
%
%
%
%
mg/kg
(mg/100g)
(mg/100g)
Content
2.3
0.6
4.1
0.45
0.9
46.8
390
85.4
2.77
1.18
3.95
0.20
0.42
1.37
2.22
643
34.1
86.4
Table 9 : Quality parameters of candy prepared from central core
6.3 Pickles
Pickle preparation by blending of
central core with fruits and vegetables are
being standardized. Shelf life study has
been completed and quality testing is
under progress.
20
7. TRANSFER OF TECHNOLOGY
7.1 Documentation and dissemination
Efforts were made to disseminate the information about the
various products developed during the project period through
presentations in conferences, seminars and workshops. Apart from this,
articles were published in local as well as national newspapers,
magazines, posters, booklets etc. The list of publications brought out and
dissemination materials developed is given in table 10.
Received best oral presentation award
“Value added products developed from
banana pseudostem” during Global
conference on Banana held at
Thiruchirapalli.
No(s).
5 (CIRCOT), 7 (NAU)
11
3
14
7
15
2
www.nau.in
Particulars
Presentation in seminar, workshop and
conferences
News paper
Souvenir, farmers' magazine etc.
Posters, translide boxes, flex posters, scroller
screen display
Folders, booklet, reports etc.
Different internet websites (through PTI)
Video documentation
Website
Table 10 : List of publications and dissemination material
21
7.2 Field demonstration (scutching waste based vermicompost
and sap)
During 2010-11, field demonstrations were laid on farmers'
fields using scutching waste based vermicompost. In all 20
demonstrations were laid in crops like banana, sugarcane, papaya and
ginger in major banana growing areas of South Gujarat.
22
Documentation and publications
7.3 Training and visits
Ø
Ø
Ø
Ø
Ø
Ø
Ø
For dissemination of technologies among the farmers on a mass scale, following efforts have been made
Participating in Krishi Melas, 2009 & 2010 wherein NAIP activities were displayed in the stalls.
Organizing training related to fibre extraction and vermicompost preparation (6 nos.-387 farmers)
Separate training to women SHGs on handicraft preparation from banana fibre (1 no.- 17 women)
Attending various farmers meet organized by Banana cooperatives of South Gujarat (3 nos.)
Visiting farmers' fields and cooperatives (78 nos.)
Organized demonstrations on farmers' fields related to use of scutching waste based vermicompost and sap in different crops. (20 nos.)
Visit of farmers, ministers, dignitaries and scientists from ICAR and SAU, private entrepreneurs etc., to NAIP sites at NAU, Navsari (1469 nos.).
Meeting at Farmers Cooperative, Gadat
Global conference on banana at Trichy
Training at Muthianagar, Jalgaon (MS)
NAIP activity display during
Krishi Mela, 2010
Farmers' visit to NAIP site
from Jalgaon (MS)
Shri. Dilip Sanghani (Agri. Minister, GoG) and
Dr. S. A. Patil visiting NAIP site
23
Linkages explored for
marketing of the products
MANTRA, Surat has
strong linkages with
Surat Textile industries.
Welspun Industry, Vapi
Textile Research and
Application Development
Centre (Grasim, Birla),
Bharuch
JK Paper Mill itself has
well established
marketing network
Accent Microcell Ind. Ltd.,
Ahmedabad
Stationary products
developed is marketed
within the University
Farmers/ banana cooperatives
Textile Industries
Farmers/ banana cooperatives
Farmers/ banana cooperatives
Pseudostem
component
Fibre
Sap
Scutcher
Central core
Potential
products
Fabrics
and their
products
Quality
papers
Microcryst
alline
cellulose
Handmade
paper
Liquid
fertilizer
and
nutrient
spray
Mordant
Vermi
compost
Edible
products
(candy,
pickles,
RTS)
Lead
centre /
partners
MANTRA,
Surat
JK Paper
Mills,
Songadh
CIRCOT,
Mumbai
NAU,
Navsari
NAU,
Navsari
CIRCOT,
Mumbai
NAU,
Navsari
NAU,
Navsari
Stake
holders
Textile
industries
Paper
industries
Pharma
ceutical
industries
Handmade
paper units
/Stationary
traders
Farmers
Textile
(Dyeing)
Farmers /
Fish
farmers
Food
processing
industry
Potential products developed from banana pseudostem and their possible stakeholders
24
Ban
an
a P
seu
do
stem
Fib
re e
xtr
act
ion
usi
ng
rasp
ad
or
m/c
Pse
ud
ost
em
sp
litt
ing
Scu
tch
er
Liq
uid
fert
iliz
er
Cen
tral
core
Ap
pare
lFa
bri
cB
an
an
a f
ibre
yarn
Han
dic
raft
s
Fis
h f
eed
MC
C
Pap
ers
Sap
Verm
ico
mp
ost
Can
dy
Pic
kle
sR
TS
Ban
an
a f
ibre
VA
LU
E A
DD
ED
PR
OD
UC
TS
DEV
ELO
PED
FR
OM
BA
NA
NA
PS
EU
DO
ST
EM
- N
AIP
IN
TER
VEN
TIO
NS
Research Scientist
Soil and Water Management
Research Unit,
Navsari Agricultural University,
Navsari - 396 450 (Gujarat)
Phone : (02637) 292103
Email : [email protected]
Director
R & D MANTRA,
Near Textile Market,
Telephone exchange, Ring Road,
Surat - 395 002 (Gujarat)
Phone : (0261) 2323211
Email : [email protected]
Principal Scientist and Head (TTD)
Central Institute for Research on
Cotton Technology (CIRCOT),
Adenwala road, Matunga,
Mumbai - 400 019
Phone : (022) 24127273
Email : [email protected]
General Manager
(PR, Plantation & Admn.),
JK. Paper Ltd., Unit- Central Pulp Mills,
PO : Central Pulp Mills,
Songadh - 394 660, Dist. Tapi (Gujarat)
For further details, please contact :-
BANANA PSEUDOSTEM PROCESSING UNIT - NAU, NAVSARI