This book presents a number of innovative uses of fly ash. Fly ash is a fine powder that is a byproduct of burning pulverized coal in thermal power plants. It is a pozzolan - a substance containing aluminous and siliceous material that when mixed with lime and water forms a compound similar to Portland cement. Though fly ash was a problem in terms of its disposal, it now has a variety of uses, such as a prime material in blocks, bricks, and PCC paving, and further applications are being investigated. As such, the recovery and reuse of fly ash wastes plays an important role in the…mehr
This book presents a number of innovative uses of fly ash. Fly ash is a fine powder that is a byproduct of burning pulverized coal in thermal power plants. It is a pozzolan - a substance containing aluminous and siliceous material that when mixed with lime and water forms a compound similar to Portland cement. Though fly ash was a problem in terms of its disposal, it now has a variety of uses, such as a prime material in blocks, bricks, and PCC paving, and further applications are being investigated. As such, the recovery and reuse of fly ash wastes plays an important role in the implementation of the circular economy concept. Featuring selected, high-quality research papers presented at IconSWM 2018, the book provides valuable insights for the recycling industries, power plants, researchers, and governments.
Dr. Sadhan Kumar Ghosh is a Professor & Former Head of the Mechanical Engineering Department and Founder Coordinator of the Centre for QMS at Jadavpur University, India. A prominent figure in the fields of waste management, circular economy, SME sustainability, green manufacturing, green factories, and TQM, he served as the Director, CBWE, Ministry of Labour and Employment, Government of India, and L&T Ltd. Prof Ghosh is also the founder and Chairman of the IconSWM and President of the International Society of Waste Management, Air and Water, as well as the Chairman of the Indian Congress on Quality, Environment, Energy and Safety Management Systems (ICQESMS). He was awarded a Distinguished Visiting Fellowship by the Royal Academy of Engineering, UK, to work on "Energy Recovery from Municipal Solid Waste" in 2012. He received the Boston Pledge and NABC 2006 award for the most eco-friendly innovation "Conversion of plastics & jute waste to wealth" in the ESP/50K Business PlanCompetition at Houston, Texas, USA. He holds patents on waste plastics processing technology and high-speed jute ribboning technology preventing water wastage and occupational hazards. He is member of ISO Working Groups concerning waste management (ISO/TC 297). His projects have been funded by European Union Horizon 2020 (2018-2022) on waste water, Royal Academy of Engineering (2018-2020 & 2012) on Circular economy in SMEs, Shota Rustaveli National Science Foundation (SRNSF) of Georgia (2019-2021) on resource circulation from landfill, GCRF 2019/2020 Pump Priming - Aston Project UK on impact of wellbeing & mental health on productivity & sustainability in Industries, UNCRD/DESA as Expert (2016-2018) on SWM, Asian Productivity Organisation (APO) (2016-2019) on green manufacturing, British Council & DST (2012-2014), Royal Society (2015), Erasmus Plus (2016-17), ISWMAW (2018-21), Indian Statistical Institute (2019-2021), Institute of Global Environmental Strategies (IGES, Japan)(2019), South Asian Cooperation Environmental Programme (SACEP, Sri Lanka)(2018-2020), Jute Technology Mission (2008-2011), Central Pollution Control Board (1999-2002), Govt. of India on plastics waste management and a few others. Dr. Vimal Kumar is a Mechanical Engineer with distinction from Delhi University (1975), an M.B.A. from the Indian Institute of Management, Ahmedabad, India (1977), and a Ph.D. in "Commercialization of New Technologies" from the Indian Institute of Technology, Delhi (2001). As the Founder Mission Director, Fly Ash, Department of Science & Technology (DST), he conceived and implemented the Fly Ash Mission and turned around the image of fly ash from "a polluting industrial waste" to "a resource material". The expertise and technologies of Fly Ash Mission have been requisitioned by Russia, and Dr. Kumar has led the Indian section of the Joint Working Group.
Inhaltsangabe
Handling and Utilization of Fly Ash from Thermal Power Plants.- Scope of Fly ash Application as a Replacement for Chemical Pesticides for Pest Control in Certain Crop Pockets of Neyveli and Virudhachalam Regions in Tamil Nadu.- Fly Ash and its Utilisation in Agriculture: Constraints and Opportunities.- Carbon and Nutrient Sequestration Potential of Coal Based Fly Ash Zeolites.- Pesticidal Activity and Future Scenario of Fly ash Dust and Fly ash Based Herbal Pesticides in Agriculture, Household, Poultry and Grains in Storage.- Synthesis, Quality Assay and Assessment of Fly Ash Based Chemical Pesticides for Efficacy against Pests of Crops, Stored Commodities and in Urban Areas.- Potential and Futuristic of Fly Ash Nano-Particle Technology in Pest Control in Agriculture and Synthesis of Chemical and Herbal Insecticides Formulations.- Behaviour of Fly Ash Concrete at High Temperatures.- Effect of Fly Ash on Strength of Concrete.- Potential of Silica Sources Including Fly Ash as GreenTechnology Inputs To Induce Resistance to Biotic and Abiotic Stresses in Crop Plants: Overview.- Fly ash as a source of Silicon for Mitigating Biotic Stress and improving yield and changes in Biochemical Constituents and Silicon in Rice under Abiotic Stress.- Effective Utilization of Industrial Waste (Fly Ash) for Vermicompost Production by employing Eisenia Fetida.
Handling and Utilization of Fly Ash from Thermal Power Plants.- Scope of Fly ash Application as a Replacement for Chemical Pesticides for Pest Control in Certain Crop Pockets of Neyveli and Virudhachalam Regions in Tamil Nadu.- Fly Ash and its Utilisation in Agriculture: Constraints and Opportunities.- Carbon and Nutrient Sequestration Potential of Coal Based Fly Ash Zeolites.- Pesticidal Activity and Future Scenario of Fly ash Dust and Fly ash Based Herbal Pesticides in Agriculture, Household, Poultry and Grains in Storage.- Synthesis, Quality Assay and Assessment of Fly Ash Based Chemical Pesticides for Efficacy against Pests of Crops, Stored Commodities and in Urban Areas.- Potential and Futuristic of Fly Ash Nano-Particle Technology in Pest Control in Agriculture and Synthesis of Chemical and Herbal Insecticides Formulations.- Behaviour of Fly Ash Concrete at High Temperatures.- Effect of Fly Ash on Strength of Concrete.- Potential of Silica Sources Including Fly Ash as GreenTechnology Inputs To Induce Resistance to Biotic and Abiotic Stresses in Crop Plants: Overview.- Fly ash as a source of Silicon for Mitigating Biotic Stress and improving yield and changes in Biochemical Constituents and Silicon in Rice under Abiotic Stress.- Effective Utilization of Industrial Waste (Fly Ash) for Vermicompost Production by employing Eisenia Fetida.
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