Lesson 1.

Availability of high quality, safe, nutritious food is fundamental need for good health and general well being of human being. Continuous supply of these foods has been major concern of civilizations all through the ages of human development. With rising urbanisation and limited natural resources like agricultural land, water and energy, producing good quality and nutritious food for all is a challenge. The food supply chain starts from field and end with consumer. It consists of different stages and stakeholders starting from farmers, intermediate handler/traders, processing industry, suppliers, transport, retailer, consumer and waste managers. All these players in the supply chain needs to devise ways and means for full utilisation of agricultural produce keeping the wastage (losses) to the minimum. The food manufacturing industry needs to      transform agricultural resources, in addition to producing food for humans, into different component such that each of it may be used like animal feed, fertilizers, cosmetics, pharmaceuticals, bio-plastics and bio-fuels.

What is by-product/waste?

Foods wastes are usually organic residues generated by the processing of raw agricultural materials into food and are made up of liquid (wastewater) and solids.

The wastewater results from the cleaning processes or in the form of excessive or polluted process water. Its dry material content is typically less than 5% by mass. It possibly also contains organic or inorganic cleaning agents or disinfectants.

Solid food wastes with an organic origin have remarkably high water content (mostly about 80% by mass). They are usually characterized by a constant quality and purity due to the forgone processes. The fact that these substances are removed from the production process as undesirable ingredients makes them, wastes.

The term ‘‘by-product,’’ which is common in industry, points up that these are mostly concealed usable substances, often with a market value. So the wastes could be considered valuable by-products if there were appropriate technical means to produce products whose value exceeds the cost of reprocessing. Residues in this case cannot be regarded as wastes but become an additional resource to augment existing natural materials. Recycling, reprocessing and eventual utilization of food processing residues offer potential of returning these by-products to beneficial uses rather than their discharge to the environment which cause detrimental environmental effects.

Types of food by-product and wastes

Five system boundaries have been distinguished in the food supply chains (FSC) which are mainly responsible for generation of wastages.

i) Agricultural production: Wastage of agricultural resources due to environmental conditions, losses due to mechanical damage and/or spillage during harvest operation (e.g. threshing or fruit picking), curing/ pre-treatments, on-farm temporary storage and sorting of crops etc.

ii) Postharvest handling and storage: including losses due to spillage and degradation during handling, storage and transportation between farm and distribution.

iii) Processing: including losses due to spillage and degradation during industrial or domestic processing, e.g. juice production, canning and bread baking. Losses may occur when crops are sorted out if not suitable to process or during washing, peeling, slicing and boiling or during process interruptions and accidental spillage.

iv) Distribution: including losses and waste in the market system, at e.g. wholesale markets, supermarkets, retailers and wet markets.

v) Consumption: including losses and waste during consumption at the household level.

Magnitude of by-products/wastes in food production

The food grain production in India has increased from 52.0 million tonnes in 1951-52 to 234 million tonnes by 2005. More than half of the dry matter produced annually in cereals, legumes, roots and tuber crops is the inedible phytomers.  From country’s annual crop production figures, the calculated residue production from the major food crops that are grown on nearly 50% of the country’s cultivable area comes to about 306.6 million tonnes which is nearly 58% of the annual aggregate crop harvest of the major food crops (Table 1.1)

Table 1.1: Annual harvest of major food crops and crop residue (1999-2000)

S.No

Crop

Crop Production

(mt)

Crop residue

Produced (mt)

1

Wheat

74.3

111.4

2

Rice

88.3

114.7

3

Maize

11.6

17.2

4

Total pulses

13.1

14.4

5

Total oil seeds

21.2

42.4

6

Sugarcane

325

6.5

7

Total

533.4

306.6

Source: The Tribune, Chandigarh - Agriculture Tribune 2002

Magnitude of by-products/wastes in food processing

The food processing industry provides vital linkages and synergies between industry and agriculture. Raw materials - grain, livestock, milk, fruit, vegetables etc. -are converted into foodstuffs through processing activities which may involve other inputs - energy, water, packaging and so forth. However not all inputs consumed result in useful outputs, and the result is waste.

Module 1 Lesson 1 Fig.1.1

Food processing wastes are those end products of food industries that have not been recycled or used for other purposes. They are the non-product flows of raw/processed materials whose economic values are less than the cost of collection and recovery for reuse; and therefore discarded as wastes.

Typical wastes encountered in the food processing sector

  • Food wastes – shavings, peelings, stones, animal by-products etc. in addition to wasted  food

  • Packaging waste - packaging of incoming materials and waste product packaging

  • Waste water and liquid effluent

  • General factory waste

Extent of food wastage

Roughly one-third of the edible parts of food produced for human consumption gets lost or wasted globally, which is about 1.3 billion ton per year. Food is wasted throughout the food supply chain (FSC), from initial agricultural production down to final household consumption. In developed countries food gets wasted at the consumption stage while in developing and low-income countries It is mostly lost during the harvesting and in post harvesting stages of the food supply chain (table 2). Little food is wasted at the consumer level.

Table 1.2: Comparison between by-products and waste

Parameter

By-product

Waste

Usability

Can be processed further

or employed  directly as final product

Not suitable for direct use. May be used after recycling or recovery

Intention of the holder

Transform it into useful product and  market the material

Usually tends  to discard the material

Certainty of use

Further use is certain

 Often discharded

Legislation

Further use in compliance with all relevant product, environmental and health protection requirements for specific further use.

Waste management ( i e recycling, recovery, disposal) as per waste disposal laws

Examples

Animal feed

Fertiliser

Cosmetics

Pharmaceutical

Bio-plastic

Lubricant

Bio-energy production

The following items if no longer used:

Pallet

Crates

Plastic

Paper

Metal

Wood

 

Table 1.3: Estimated/assumed waste percentage for each commodity group in each step of FSC for South and Southeast Asia (FAOSTAT 2010d)

Commodity

Agricultural production

Postharvest handling and storage

Processing and packaging

Distribution

Consumption

Cereal

6%

7%

3.5%

2%

3%

Roots & Tubers

6%

19%

10%

11%

3%

Oilseeds & Pulses

7%

12%

8%

2%

1%

Fruits & vegetables

15%

9%

25%

10%

7%

Meat

5.1%

0.3%

5%

7%

4%

Fish & Sea food

8.2%

6%

9%

15%

2%

Milk

3.5%

6%

2%

10%

1%

 

Food manufacturers are increasingly acting as bio-refineries, in which agricultural raw materials are separated into a long series of products, comprising not only food but also feed, fertilizers, cosmetics, bio-fuels and others. Full utilization of this raw material in the food sector increases resource-efficiency and productivity, reduces bio-degradable waste and supports the transition to a bio-based economy (use of renewable resources).

Table 3: Food processing operations and associated waste

Catagory

Operations

Wastes

Raw material Preparation

Cleaning, Sorting, Grading, Peeling

Cleaning water effluent (BOD or COD), peelings, hair, feathers, grit, blood, contaminated foodstuffs

Size Reduction

Chopping, cutting, slicing, dicing, Milling of Solid foods, pulping Emulsification and homogenization

of liquids

Poor quality (too coarse / fine) product with loss of nutritional / sensory characteristics Dust Agglomerates. Waste off-cuts. Fat bearing effluents from colloidal products (e.g. dairy) Risk of pathogenic contamination in emulsification (e.g. dairy)

Mixing and forming

Mixing, forming malformed pieces.

Wrongly proportioned batches, poorly mixed ingredients

Separation and Concentration

Centrifugation, Filtration Expression, Solvent extraction Membrane concentration

Separated solids (e.g. after clarification of liquids press residues (e.g. fruit juice extraction)

Fermentation and use of enzymes

Fermentation, Enzyme technology

Spent biomass.

Last modified: Wednesday, 29 January 2014, 6:50 AM