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Minimization of the Amount of Platinum for Automobile Exhaust Treatments through Intermetallics-based Catalysts , (Year : 2016)
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No information is available
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Low cost Nano-intermetallic (DST) Low-cost, Nano-Intermetallic / Alloy Catalysts as Promising Alternative to Expensive Platinum Catalyst for Fuel Cells (with ERMD) , (Year : 2016)
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No information is available
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Development of Low cost Oxidation Catalysts for Diesel Exhaust Emission Control (with ERMD), (Year : 2016)
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No information is available
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Engineered Materials (FAZ, Alumina composites & SEN), (Year : 2016)
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MESER proposes to develop systems/devices/processes and technologies based on environmental materials and microbial consortia/ enzymes/ target genes, for environmental monitoring and remediation, valo-remediation and hybrid energy systems with novel cross-disciplinary paradigm. In order to meet this objective MESER proposes to set up new structured facility for OMICS research, Molecular Chemistry & nanoscience research and process development lab. MESER also proposes a technology demonstration hub with requisite facilities to translate the established bench scale process know-hows and proof of concepts (developed in the 11th five year plan) into feasible pilot scale technologies for transfer to interested industries and end users. MESER will focus on developing innovative, sustainable and affordable solutions at a scale suitable for community and industry by engaging industries and end users including Sud-Chemie, Tata Steel R&D, ONGC, UNICEF, Coromondel fertilizers etc. in all stages of the development process. We aim to design, develop, operate and maintain demand driven technologies for transfer and licensing, thus strengthening and positioning CSIR/NEERI in technology transfers as shown in the figure below. A team of twenty scientists from CSIR-NEERI propose to network and provide the deliverables including products, devices and processes.
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Low-cost and shape-tailored nano catalysts for volatile organic compounds emission control, (Year : 2016)
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No information is available
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Smart Disposal and Carbonization System SMART-DISC for Menstrual Waste Management, (Year : 2015)
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The menstrual waste load generated in India is estimated to be- a staggering 9,000 tons a month – enough to cover a landfill spread over 24 hectares. Menstrual hygiene management is a big problem for women and girls in as the sanitary pads are expensive. Other than the use of expensive sanitary pads, lack of proper disposal , collection & treatment options in both urban & rural areas is one of the biggest problem in handling the municipal waste. Thus to address the issues of menstrual waste management in a holistic way CSIR -NEERI is venturing into menstrual waste management by way of developing
- Zero Touch disposal system – For smart handling of menstrual waste and upcycling of menstrual waste by developing improved carbonisation process for converting sanitary waste into char .The approaches of hydrothermal carbonisation process and encapsulation/ stabilisation cum carbonisation of menstrual waste using CSIR-NEERI’s proprietary catalyst and process know-how shall prove to be promising approach for treatment of menstrual waste and shall be demonstrated in urban and rural community. Efforts shall also be made to translate the existing incinerators to carbonisers
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Defluoridation of process wastewater, (Year : 2015)
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"The main objective of this project is to evaluate the materials developed at CSIR-NEERI for selective removal of fluoride from process wastewater generated from BARC process with a view to explore the possibility of developing a practically feasible process for defluoridation of wastewater. The materials will be systematically evaluated by studying their fluoride uptake properties for simulated wastewater following batch adsorption as well as column studies. The select materials will be subsequently evaluated at laboratory scale at BARC using the actual process effluent. The proposed work was carried out in following two Phases: Phase I: In the Phase-I, synthesis of materials and study of batch adsorption properties will be carried out at CSIR-NEERI laboratory using simulated wastewater as per the composition suggested by BARC. These studies will be carried out with up to material loading of 25 g for batch and column studies as per the work plan given in the following section. Phase II: Based on the results of Phase-I project; the select potential materials will be studied for bench scale and further scale up at BARC, using the actual wastewater. These studies will be targeted on evaluating the techno-economic feasibility of defluoridation process at pilot as well as full scale. "
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