Postharvest Technology

Equipment

·         Modified railway freight container for long distance transportation of fruits and vegetables.

·         Banana Comb cutter

·         Pomegranate aril extraction machine

·         Litchi Fruit Peeling Machine

·         Ohmic heating system for stabilization of rice bran

·         Continuous feed type aloe vera gel extractor

·         Cashew nut drum roasting machine

·         Autoclavable microencapsulation system for micro-organisms

·         Handloom for weaving ornamental jute fabrics

·         Mini carding machine for cotton

·         Double roller ginning machine with self-grooving rubber roller

·         Coconut fibre segregator machine

Process protocols and valuye added products

·         Green chilli powder

·         Animal feed pellets from potato processing waste and culled potatoes

·         Prefabricated Grass Carpet with natural fibre-based backing material

·         Mulching Sheet from Jute Nonwoven

·         Nano-cellulose powder from cotton

·         Process for extraction of jute fibre by dry retting 

Post Harvest Technologies developed recently

Postharvest management and value addition is integral to agricultural production for reduction in postharvest losses, meet consumer requirements, preserve nutritional quality, optimize the utilization of by-products and create employment opportunities. A number of machines, hand tools, gadgets such as modified railway freight container for long distance transportation of fruits and vegetables, banana comb cutter, pomegranate aril extraction machine, litchi fruit -peeling machine, ohmic heating system for stabilization of rice bran, continuous feed type aloe vera gel extractor, cashew nut drum roasting machine, autoclavable microencapsulation system for micro-organisms, handloom for weaving ornamental jute fabrics, mini carding machine for cotton, double roller ginning machine with self-grooving rubber roller, coconut fibre segregator machine etc. have been developed and commercialized. Process protocols and value added products, namely green chilli powder, animal feed pellets from potato processing waste and culled potatoes, prefabricated grass carpet with natural fibre-based backing material, mulching sheet from jute nonwoven, nano-cellulose powder from cotton etc. have been developed. These products have been accepted by the farmers, entrepreneurs and farmers.  The current research efforts emphasize on the development of equipment, process protocols and value added products suiting the production catchments and meeting the health requirements of the various sections of the population.

Nanotechnology in Food Processing

Nanotechnology focuses on the characterization, fabrication and manipulation of biological and non-biological structures smaller than 100 nm. The physical, chemical and functional properties of structures at nanoscale exhibit unique and novel functional properties. Food processing in present day targets specific health and nutrition functions. Conventional food processing technologies face certain limitations and are unable to overcome the challenges. It is not possible to add water soluble vitamins fats/oils, similarly fat soluble vitamins cannot be added to juices/beverages. Nanotechnology has opened new avenues in overcoming the limitations of conventional processes, development of health / functional foods; improved nutrition, taste, color flavor and texture of food stuffs; development of nano-composites with improved barrier, mechanical or antimicrobial properties and nanosensors for traceability and monitoring the conditions of food during transport and storage. The important areas include, nano-emulsions, nano-encapsulation, nano-fibres and nano-laminates for developing functional foods; nano-membrane separation systems; nano-composites for food packaging, nano-catalysts for improving chemical/biochemical reactions, nano-sensors and nano-traces for food safety and bio security, etc. The commercialization of many nanotechnological innovations in the area of food processing has already taken place. The potential of nanotechnology in food processing is immense. 

Parameters to be measured for food testing

Physical testing – color, specific gravity, bulk density, true density, water activity, viscosity, total soluble solids, refractive index, acid value.

Chemical and Nutritional analysis

Chemical analysis – moisture, protein fat, ash, carbohydrate, reducing and non reducing sugars, starch, total calories, pH, acidity etc.

Nutritional analysis – minerals (iron, calcium, phosphorous etc), vitamins (Vit A, Vit C, Thiamine, Riboflavin, niacin folic acid etc), dietary fiber, beta carotene, lycopene, chlorophyll, anthocyanines, tannins, trypsin inhibitor, phytates etc.

Microbiological Tests - Aerobic Plate Count (APC), Yeast & Mold, Total Coliforms & E. coli, Staphylococcus aureus, Salmonella, Listeria, E. coli O157:H7, Anaerobic Plate Count, Aerobic Spore Former Count, Lactic Acid Becteria Count, Anaerobic Spore Former Count, Thermophilic Aerobic Spore Former Count, Thermophilic Anaerobic Spore Former Cont etc. 

Contaminants and Toxins – aflatoxins, mycotoxins, pesticide residues,

heavy metals, trace metals, antibiotic residues.

Water Quality – physical (clarity, color, odour and taste, turbidity), chemical (TS, bardness, alkalinity, acidity, pH, nitrates, nitrites, free ammonia, chlorides, sulphates, COD, BOD), microbiological (plate count, faecal coliforms)

Food Ingredients – food additives and preservatives (sodium chloride, sulphur dioxide, sodium benzoate, sorbic acid etc.), antioxidants (gallates, BHA etc), Synthetic colors (amaranth, erythrosine, sunset yellow, tartrazine NS, indigo carmine, brilliant black BN, annatto), artificial sweeteners (saccharin, aspartame, sucralose).   

Agro Processing Centre in ICAR Research Complex for NEH region, Barapani

Soymilk

It is creamy, milk like product rich in protein, vitamins and minerals. Soymilk is very economical, lactose free, highly digestible and nutritious. The process of preparing soymilk is very simple. It involves soaking, grinding, cooking and filtration. Soymilk can be consumed as such or after sweetening and diluting it. Soymilk can be further converted into curd or paneer. The anti nutritional factors are taken care of during processing and make the products suitable for human consumption. 

Potato based compounded animal feed pellets

Utilisation of potato processing industry waste for making feed pellet: Compounded livestock feed pellets
were prepared by incorporating potato pulp and potato chips of processing industry waste. Up to 30 % grain component was replaced by potato component. The feed samples were evaluated for their quality and trials on animal feeding were conducted. Five to seven per cent increase in milk yield of cattle was observed due to the feed.

Utilisation of unmarketable potatoes for making feed pellets: In order to utilize unmarketable potatoes
these were pulped and dewatered mechanically. It resulted in reduction in moisture content from 75 - 80 % to 40 - 45 %. The pulp obtained with reduced moisture content was directly mixed with other feed ingredients for pelletization. The feed prepared with dewatered potatoes contained 20 - 22 % of moisture. Proximate composition of feed prepared with 30 % dewatered potatoes was analysed. The feed pellets had 11.40 % moisture, 13.86 % protein, 4.96 % fat and 6 % ash. The neutral detergent fibre, acid detergent fibre, cellulose and lignin were observed to be 35, 13.4, 13 and 2.5 %. The strength of the pellets was observed to be 0.83 MPa. These samples were also subjected to animal feeding trials. Aflatoxin content of all the feed samples was analyzed using AOAC 990.33 method. The aflatoxin B1, B2, G1 and G2 were observed to be non-detected with MDL (Method Detection Limit) 30 ppb.