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Anand Agricultural University, Anand

Anand Agricultural University (AAU) was established in 2004 at Anand with the support of the Government of Gujarat, Act No.(Guj 5 of 2004) dated April 29, 2004. Caved out of the erstwhile Gujarat Agricultural University (GAU), the dream institution of Sardar Vallabhbhai Patel and Dr. K. M. Munshi, the AAU was set up to provide support to the farming community in three facets namely education, research and extension activities in Agriculture, Horticulture Engineering, product Processing and Home Science. At present there seven Colleges, seventeen Research Centers and six Extension Education Institute working in nine districts of Gujarat namely Ahmedabad, Anand, Dahod, Kheda, Panchmahal, Vadodara, Mahisagar, Botad and Chhotaudepur AAU's activities have expanded to span newer commodity sectors such as soil health card, bio-diesel, medicinal plants apart from the mandatory ones like rice, maize, tobacco, vegetable crops, fruit crops, forage crops, animal breeding, nutrition and dairy products etc. the core of AAU's operating philosophy however, continues to create the partnership between the rural people and committed academic as the basic for sustainable rural development. In pursuing its various programmes AAU's overall mission is to promote sustainable growth and economic independence in rural society. AAU aims to do this through education, research and extension education. Thus, AAU works towards the empowerment of the farmers.

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Subject: Dairy Engineering × Author: Uprit, Sudhir Kumar × End date: 1991 × Type: Thesis ×
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    ThesisItemOpen Access
    A NEW METHOD FOR TREATMENT OF WHEY
    (AAU, Anand, 1991) Uprit, Sudhir Kumar; SHAH, C. M.
    White revolution in India has resulted in the impressive growth of dairies in the milk producing beds and also the off shoot growth of dairy oriented small scale industries in the agricultural beds, however unavoidable impact of the waste products from these industries is being experienced in the form of environmental pollution and needs careful consideration. Whey is liquid waste from cheese or casein section. It is very putriciable and therefore quickly pollute the environment if disposed off without treatment. In the western countries whey is being used for manufacture of several products - thereby avoiding the pollution; however, utilization of whey is only 40 per cent. In India these industries which use the whey for production are not yet established probably because of lack of financial support, economical viability etc. Therefore, it is very necessary to think of treatment of whey before it is disposed off. The present study indicates possibility of whey treatment using physicochemical process and photo-sensitized oxidation. Methodology employed includes first stage removal of suspended and colloidal solids through coagulation and sedimentation process followed by second stage of micro colloidal and dissolved organic solids removal through photo sensitized oxidation. The progress efficiency is evaluated by monitoring whey characteristics through parameters like turbidity, COD, solids (Total, volatile and fixed) etc. Physico-chemical process investigation includes the study of coagulants such as alum and ferric chloride alone and in combination with coagulant acids such as bentonite clay, catfloc T (Polyelectrolyte), sodium carbonate/sodium bicarbonate solutions etc. for coagulation of suspended and colloidal solids in the whey. Results indicate that by selection of suitable coagulant (Ferric chloride) and coagulant-aid (Bentonite clay) as much as 40 per cent total solids can be removed, while volatile solids to an extent of 35 to 40 per cent as indicated through COD/volatlle solids reduction. Prerequisite to the use of coagulant is the adjustment of pH values in the effective pH range of the coagulants, which is effectively achieved by the addition of selective alkali like sodium carbonate. Whey after the 1st stage treatment still having high COD value requires further treatment, for maximum stabilization of waste. Second stage i*nvestigation includes photosensitized oxidation of these remaining dissolved and micro colloidal solids remained in the whey. The working principle of the process is activation of methylene blue through light and using this activated methylene blue in presence of oxygen for the oxidation/ stabilization of organic matter present in the whey. The process application to the whey is studied under the various environmental conditions in the experimental runs. Results of investigative work are encouraging and show,; that at optimum methylene blue dosage I . e . , 120 removed mg/1, about sixteen per cent of organic matter removed as indicated by COD in twelve hours can be achieved when experiments were conducted under artificial light. With the help of sedimentation followed by photosensitized oxidation the whey can be treated and improved in its characteristics by the removal or stabilization of almost 90 to 92 per cent of organic matter. The treated whey still has non-permissible organic matter to the tune of 4000 to 5000 mg/1 as indicated by COD. Subject to availability of sufficient quantities of water flow^ treated whey can be disposed off by dilution. Alternatively it is necessary to treat this final product by mixing it with other waste water stream (having low organic content) of the dairy waste through conventional treatment units.