This is a presentation from ITC Limited, Tribeni, one of the finalists at the 5th CII-GBC National Award for Excellence in Water Management in 2008
The awards are in 2 categories, Within the Fence for work done on minimizing the organisations water footprint, and Beyond the Fence for work done in the community around the industry.
This presentation was in the "Within the Fence" category.
We thank CII and the respective companies for giving us permission to upload these presentations on the India Water Portal website for dissemination to a wider audience.
This is a presentation from ITC Limited, PSPD, Unit - Kovai, one of the finalists at the 5th CII-GBC National Award for Excellence in Water Management in 2008
The awards are in 2 categories, Within the Fence for work done on minimizing the organisations water footprint, and Beyond the Fence for work done in the community around the industry.
This presentation was in the "Within the Fence" category.
We thank CII and the respective companies for giving us permission to upload these presentations on the India Water Portal website for dissemination to a wider audience.
A study on management of municipal solid waste in DelhiPremier Publishers
Municipal Solid Waste Management (MSWM) is one of the most problematic and neglected aspect of Indian Cities. Improper management of municipal solid waste (MSW) causes hazards to inhabitants. Also, high population growth and industrialization put strain on the basic infrastructural and municipal services. Delhi being a commercial hub, provides employment opportunities, thus leading to accelerated pace of urbanization, which in turn results in a corresponding increase in MSW. In the present study, an attempt has been made to provide a comprehensive review of the characteristics, generation, collection and transportation, disposal and treatment technologies of MSW practiced in Delhi. The study pertaining to MSWM for Delhi has been carried out to evaluate the current status and identify the major problems. The study is concluded with a few fruitful suggestions, which may be beneficial to encourage the competent authorities/ researchers to work towards further improvement of the present system.
This is a presentation from ITC Limited, PSPD, Unit - Kovai, one of the finalists at the 5th CII-GBC National Award for Excellence in Water Management in 2008
The awards are in 2 categories, Within the Fence for work done on minimizing the organisations water footprint, and Beyond the Fence for work done in the community around the industry.
This presentation was in the "Within the Fence" category.
We thank CII and the respective companies for giving us permission to upload these presentations on the India Water Portal website for dissemination to a wider audience.
A study on management of municipal solid waste in DelhiPremier Publishers
Municipal Solid Waste Management (MSWM) is one of the most problematic and neglected aspect of Indian Cities. Improper management of municipal solid waste (MSW) causes hazards to inhabitants. Also, high population growth and industrialization put strain on the basic infrastructural and municipal services. Delhi being a commercial hub, provides employment opportunities, thus leading to accelerated pace of urbanization, which in turn results in a corresponding increase in MSW. In the present study, an attempt has been made to provide a comprehensive review of the characteristics, generation, collection and transportation, disposal and treatment technologies of MSW practiced in Delhi. The study pertaining to MSWM for Delhi has been carried out to evaluate the current status and identify the major problems. The study is concluded with a few fruitful suggestions, which may be beneficial to encourage the competent authorities/ researchers to work towards further improvement of the present system.
Master Plan for Delhi–with the Perspective for the Year 2021
Here is the official Delhi Master Plan 2021. It is being uploaded by FSGOWS for Public viewing and downloading.
Biodegradable Diapers and Sanitary Napkins ProductionAjjay Kumar Gupta
Biodegradable Diapers and Sanitary Napkins Production. Compostable and Eco-Friendly Disposable Diapers and Sanitary Pads Manufacturing Business
Biodegradable Diaper
Diaper is an absorbent item used by babies or adults to defecate and urinate without going to the toilet. They are made from either non-biodegradable petrochemical based materials and plastics or from biodegradable fibers such as cotton, bamboo, starch, etc.
Many baby diapers are not biodegradable and could take hundreds of years to degrade. While it’s unknown how many years biodegradable materials take to decompose, to serve more environmentally-conscious consumers, there is a growing trend to produce biodegradable baby diapers.
See more
https://bit.ly/2X0T5wb
Contact us:
Niir Project Consultancy Services
An ISO 9001:2015 Company
106-E, Kamla Nagar, Opp. Spark Mall,
New Delhi-110007, India.
Email: npcs.ei@gmail.com , info@entrepreneurindia.co
Tel: +91-11-23843955, 23845654, 23845886, 8800733955
Mobile: +91-9811043595
Website: www.entrepreneurindia.co , www.niir.org
Tags
#Biodegradable_Diapers, #Eco_Friendly_Disposable_Diaper, Bio-Degradable Sanitary Pads, #Eco_Friendly_Sanitary_Napkin, Eco-Friendly Sanitary Napkins in India, Compostable Sanitary Pads, Biodegradable Diaper, Biodegradable Disposable Diapers, #Biodegradable_Diapers_(Eco_Friendly_&_Disposable), Biodegradable Nappy Pads, #Environmentally_Friendly_Sanitary_Napkins, Biodegradable & Organic Sanitary Pads in India, Eco-Friendly Sanitary Pads, Biodegradable Sanitary Napkins By Government, #Biodegradable_Sanitary_Pads, Biodegradable Sanitary Napkins Manufacturing Process, 100% Biodegradable Sanitary Napkins 'Suvidha', Sanitary Napkins, Indian Biodegradable Sanitary Napkin, Biodegradable Anti-Bacterial Sanitary Napkins, Full Biodegradable Sanitary Pads, Disposable Diapers, #Compostable_Diapers, Sanitary Napkins Manufacture, #Making_your_own_Eco_Friendly_Sanitary_Pads, Women Manufacturing Biodegradable Sanitary Pads, How to Make Biodegradable Sanitary Pads, 100% Biodegradable Sanitary Pads, #Sanitary_Napkins_'Suvidha', Set up a Bio-Degradable Pad Factory, Sanitary Napkin Manufacturing, Sanitary Napkin Production Unit, Biodegradable Sanitary Napkin Unit, Manufacturing Unit for Sanitary Napkin, Project Report on Sanitary Napkins (Biodegradable), How Disposable Diaper is Made, Biodegradable Diapers Manufacturing, Raw Material for Diaper Manufacturing, Diaper Production Cost, Diaper Manufacturing Process Pdf, Eco-Friendly Baby Diaper Production, Sanitary Napkins Manufacture, How to Make Biodegradable Sanitary Pads, Biodegradable Sanitary Pad Project, Low Cost Sanitary Napkin Making, Sanitary Napkin Manufacturing Project, Starting a Diaper Manufacturing, Disposable Baby Diaper Manufacturing Project, Disposable Baby Diaper Manufacturing Project, Project Report on Biodegradable Diaper and Sanitary Napkins Manufacturing Industry
Presentation - Waste Management in Petroleum Refinery.OmZavare
A Presentation on 15 Days Virtual Internship (due to COVID-19) on Petroleum Refinery Waste Management by me in my 5th Semester of Petrochemical Engineering.
This presentation was given by SVNIT SURAT for "Samavesh" - XVl Annual NOSPlan Convention. The Theme of Presentation - "Accessibility in Peri-urban area".
This is a presentation from VIZAG Steel, one of the finalists at the 5th CII-GBC National Award for Excellence in Water Management in 2008
The awards are in 2 categories, Within the Fence for work done on minimizing the organisations water footprint, and Beyond the Fence for work done in the community around the industry.
This presentation was in the "Within the Fence" category.
We thank CII and the respective companies for giving us permission to upload these presentations on the India Water Portal website for dissemination to a wider audience.
Water Management System at Chaibasa Cement Works presented by A.K.SrivastavaIndia Water Portal
This is a presentation from Chaibasa Cement Works,ACC Limited one of the finalists at the 5th CII-GBC National Award for Excellence in Water Management in 2008.
The awards are in 2 categories, Within the Fence for work done on minimizing the organisations water footprint, and Beyond the Fence for work done in the community around the industry.
This presentation was in the "Within the Fence" category.
We thank CII and the respective companies for giving us permission to upload these presentations on the India Water Portal website for dissemination to a wider audience.
Master Plan for Delhi–with the Perspective for the Year 2021
Here is the official Delhi Master Plan 2021. It is being uploaded by FSGOWS for Public viewing and downloading.
Biodegradable Diapers and Sanitary Napkins ProductionAjjay Kumar Gupta
Biodegradable Diapers and Sanitary Napkins Production. Compostable and Eco-Friendly Disposable Diapers and Sanitary Pads Manufacturing Business
Biodegradable Diaper
Diaper is an absorbent item used by babies or adults to defecate and urinate without going to the toilet. They are made from either non-biodegradable petrochemical based materials and plastics or from biodegradable fibers such as cotton, bamboo, starch, etc.
Many baby diapers are not biodegradable and could take hundreds of years to degrade. While it’s unknown how many years biodegradable materials take to decompose, to serve more environmentally-conscious consumers, there is a growing trend to produce biodegradable baby diapers.
See more
https://bit.ly/2X0T5wb
Contact us:
Niir Project Consultancy Services
An ISO 9001:2015 Company
106-E, Kamla Nagar, Opp. Spark Mall,
New Delhi-110007, India.
Email: npcs.ei@gmail.com , info@entrepreneurindia.co
Tel: +91-11-23843955, 23845654, 23845886, 8800733955
Mobile: +91-9811043595
Website: www.entrepreneurindia.co , www.niir.org
Tags
#Biodegradable_Diapers, #Eco_Friendly_Disposable_Diaper, Bio-Degradable Sanitary Pads, #Eco_Friendly_Sanitary_Napkin, Eco-Friendly Sanitary Napkins in India, Compostable Sanitary Pads, Biodegradable Diaper, Biodegradable Disposable Diapers, #Biodegradable_Diapers_(Eco_Friendly_&_Disposable), Biodegradable Nappy Pads, #Environmentally_Friendly_Sanitary_Napkins, Biodegradable & Organic Sanitary Pads in India, Eco-Friendly Sanitary Pads, Biodegradable Sanitary Napkins By Government, #Biodegradable_Sanitary_Pads, Biodegradable Sanitary Napkins Manufacturing Process, 100% Biodegradable Sanitary Napkins 'Suvidha', Sanitary Napkins, Indian Biodegradable Sanitary Napkin, Biodegradable Anti-Bacterial Sanitary Napkins, Full Biodegradable Sanitary Pads, Disposable Diapers, #Compostable_Diapers, Sanitary Napkins Manufacture, #Making_your_own_Eco_Friendly_Sanitary_Pads, Women Manufacturing Biodegradable Sanitary Pads, How to Make Biodegradable Sanitary Pads, 100% Biodegradable Sanitary Pads, #Sanitary_Napkins_'Suvidha', Set up a Bio-Degradable Pad Factory, Sanitary Napkin Manufacturing, Sanitary Napkin Production Unit, Biodegradable Sanitary Napkin Unit, Manufacturing Unit for Sanitary Napkin, Project Report on Sanitary Napkins (Biodegradable), How Disposable Diaper is Made, Biodegradable Diapers Manufacturing, Raw Material for Diaper Manufacturing, Diaper Production Cost, Diaper Manufacturing Process Pdf, Eco-Friendly Baby Diaper Production, Sanitary Napkins Manufacture, How to Make Biodegradable Sanitary Pads, Biodegradable Sanitary Pad Project, Low Cost Sanitary Napkin Making, Sanitary Napkin Manufacturing Project, Starting a Diaper Manufacturing, Disposable Baby Diaper Manufacturing Project, Disposable Baby Diaper Manufacturing Project, Project Report on Biodegradable Diaper and Sanitary Napkins Manufacturing Industry
Presentation - Waste Management in Petroleum Refinery.OmZavare
A Presentation on 15 Days Virtual Internship (due to COVID-19) on Petroleum Refinery Waste Management by me in my 5th Semester of Petrochemical Engineering.
This presentation was given by SVNIT SURAT for "Samavesh" - XVl Annual NOSPlan Convention. The Theme of Presentation - "Accessibility in Peri-urban area".
This is a presentation from VIZAG Steel, one of the finalists at the 5th CII-GBC National Award for Excellence in Water Management in 2008
The awards are in 2 categories, Within the Fence for work done on minimizing the organisations water footprint, and Beyond the Fence for work done in the community around the industry.
This presentation was in the "Within the Fence" category.
We thank CII and the respective companies for giving us permission to upload these presentations on the India Water Portal website for dissemination to a wider audience.
Water Management System at Chaibasa Cement Works presented by A.K.SrivastavaIndia Water Portal
This is a presentation from Chaibasa Cement Works,ACC Limited one of the finalists at the 5th CII-GBC National Award for Excellence in Water Management in 2008.
The awards are in 2 categories, Within the Fence for work done on minimizing the organisations water footprint, and Beyond the Fence for work done in the community around the industry.
This presentation was in the "Within the Fence" category.
We thank CII and the respective companies for giving us permission to upload these presentations on the India Water Portal website for dissemination to a wider audience.
This is a presentation from ITC Limited, Bhadrachalam, one of the finalists at the 5th CII-GBC National Award for Excellence in Water Management in 2008
The awards are in 2 categories, Within the Fence for work done on minimizing the organisations water footprint, and Beyond the Fence for work done in the community around the industry.
This presentation was in the "Within the Fence" category.
We thank CII and the respective companies for giving us permission to upload these presentations on the India Water Portal website for dissemination to a wider audience.
Presented by Jawoo Koo, Zhe Guo, and Stanley Wood at the CGIAR-CSI Annual Meeting 2009: Mapping Our Future. March 31 - April 4, 2009, ILRI Campus, Nairobi, Kenya
Conserve Water Need of the Hour presented by Ashok LeylandIndia Water Portal
This is a presentation from Ashok Leyland, Hosur II one of the finalists at the 5th CII-GBC National Award for Excellence in Water Management in 2008
The awards are in 2 categories, Within the Fence for work done on minimizing the organisations water footprint, and Beyond the Fence for work done in the community around the industry.
This presentation was in the "Within the Fence" category.
We thank CII and the respective companies for giving us permission to upload these presentations on the India Water Portal website for dissemination to a wider audience.
This is a presentation from BOSCH, Jaipur one of the finalists at the 5th CII-GBC National Award for Excellence in Water Management in 2008.
The awards are in 2 categories, Within the Fence for work done on minimizing the organisations water footprint, and Beyond the Fence for work done in the community around the industry.
This presentation was in the "Within the Fence" category.
We thank CII and the respective companies for giving us permission to upload these presentations on the India Water Portal website for dissemination to a wider audience.
Case study of Gokarna Multi-village scheme, Kumta, Karnataka_IIM-B_2023.pdfIndia Water Portal
Ensuring sustainability of rural drinking water systems: Case presentation from a national symposium organised by IIM Bangalore, appointed by the center as the JJM chair for O&M, Arghyam and eGovernments Foundation on 2nd November 2023.
Financial sustainability of schemes managed by PHED in Punjab_Krishnakumar Th...India Water Portal
Ensuring sustainability of rural drinking water systems: Case presentation from a national symposium organised by IIM Bangalore, appointed by the center as the JJM chair for O&M, Arghyam and eGovernments Foundation on 2nd November 2023.
Functioning of Single Village Drinking Water Supply Schemes in Rural Odisha_G...India Water Portal
Ensuring sustainability of rural drinking water systems: Case presentation from a national symposium organised by IIM Bangalore, appointed by the center as the JJM chair for O&M, Arghyam and eGovernments Foundation on 2nd November 2023.
Managing drinking water infrastructure in West Bengal Gram Panchayats_Sujata ...India Water Portal
Ensuring sustainability of rural drinking water systems: Case presentation from a national symposium organised by IIM Bangalore, appointed by the center as the JJM chair for O&M, Arghyam and eGovernments Foundation on 2nd November 2023.
Ensuring sustainability of rural drinking water systems: Case presentation from a national symposium organised by IIM Bangalore, appointed by the center as the JJM chair for O&M, Arghyam and eGovernments Foundation on 2nd November 2023.
Social behavioural change to drive community ownership_ Divyang Waghela_Tata ...India Water Portal
Ensuring sustainability of rural drinking water systems: Case presentation from a national symposium symposium organised by IIM Bangalore, appointed by the center as the JJM chair for O&M, Arghyam and eGovernments Foundation on 2nd November 2023.
Karnataka plans to ensure every rural household tap water connection by 2024. In 2021-22, the State plans to provide 25 lakh tap water connections in its rural areas.
Presently, Karnataka has 91.19 lakh rural households, out of which only 28.44 lakh (31.2%) have tap water supply. So far, 23 panchayats and 676 villages in the State have been declared ‘Har Ghar Jal’. 95% schools and 95% anganwadi centres, 84% ashramshalas, 91% gram panchayat buildings and 92% health centres have piped water connections in Karnataka. The State plans to cover the learning centres, GP building and Health centres in next few months. There is urgent need for grey water management and behaviour change among people so that water, which is a limited resource, is used judiciously. The state plans to cover 17,111 villages falling under the priority category i.e. drought prone and desert region, SC/ ST dominated habitations, Aspirational districts, etc. in the current financial year.
This document covers the IEC material being developed to build capacities on water source strengthening/ augmentation, water supply, greywater treatment & reuse, and operation & maintenance of in-village water supply systems, water quality monitoring and surveillance etc.
The state has to involve the local village community/ gram panchayats and or user groups in planning, implementation, management, operation and maintenance of water supply systems in villages to ensure long-term sustainability thereby help achieve drinking water security. It has started IEC campaign through community engagement in all villages.
Over the last decade, demand for spring management has increased as traditional spring sources have started drying up or becoming contaminated. In response, communities, NGOs and state agencies began dedicated spring protection programmes. In the Himalayas, the State of Sikkim and organizations such as Central Himalayan Action and Research Group (CHIRAG) and People Science Institute (PSI) started identifying and protecting spring recharge areas around 2007. The difference between these programmes and many other previous efforts is that they went beyond supply-side improvements to focus on the use of hydrogeology to map springsheds for targeted interventions.
The Advanced Centre for Water Resources Development and Management (ACWADAM), a research and capacity-building organization comprised of hydrogeologists and other experts began lending their expertise and building capacity of stakeholders. ACWADAM provides technical support, training and materials in hydrogeology to all network partners as well as others in India and the region. Similar programmes began independently in most of the mountain regions of India. Arghyam, a funding organization that was supporting many of these programmes, noticed that these disparate initiatives shared commonalities despite geographic diversity. They thus organized and funded a meeting of these various organizations in June 2014, and the Springs Initiative was born.
The springs initiative aims to tackle the current water crisis and to ensure safe and sustainable access to water for all, by promoting responsible and appropriate management of aquifers, springsheds, and watersheds and conserving ecosystems in partnership with communities, governments and other stakeholders.
This presentation has been developed as a part of the springs initiative to promote an understanding of springs and their role in mountainous areas.
Over the last decade, demand for spring management has increased as traditional spring sources have started drying up or becoming contaminated. In response, communities, NGOs and state agencies began dedicated spring protection programmes. In the Himalayas, the State of Sikkim and organizations such as Central Himalayan Action and Research Group (CHIRAG) and People Science Institute (PSI) started identifying and protecting spring recharge areas around 2007. The difference between these programmes and many other previous efforts is that they went beyond supply-side improvements to focus on the use of hydrogeology to map springsheds for targeted interventions.
The Advanced Centre for Water Resources Development and Management (ACWADAM), a research and capacity-building organization comprised of hydrogeologists and other experts began lending their expertise and building capacity of stakeholders. ACWADAM provides technical support, training and materials in hydrogeology to all network partners as well as others in India and the region. Similar programmes began independently in most of the mountain regions of India. Arghyam, a funding organization that was supporting many of these programmes, noticed that these disparate initiatives shared commonalities despite geographic diversity. They thus organized and funded a meeting of these various organizations in June 2014, and the Springs Initiative was born.
The springs initiative aims to tackle the current water crisis and to ensure safe and sustainable access to water for all, by promoting responsible and appropriate management of aquifers, springsheds, and watersheds and conserving ecosystems in partnership with communities, governments and other stakeholders.
This presentation has been developed as a part of the springs initiative to promote an understanding of springs and their role in mountainous areas.
Over the last decade, demand for spring management has increased as traditional spring sources have started drying up or becoming contaminated. In response, communities, NGOs and state agencies began dedicated spring protection programmes. In the Himalayas, the State of Sikkim and organizations such as Central Himalayan Action and Research Group (CHIRAG) and People Science Institute (PSI) started identifying and protecting spring recharge areas around 2007. The difference between these programmes and many other previous efforts is that they went beyond supply-side improvements to focus on the use of hydrogeology to map springsheds for targeted interventions.
The Advanced Centre for Water Resources Development and Management (ACWADAM), a research and capacity-building organization comprised of hydrogeologists and other experts began lending their expertise and building capacity of stakeholders. ACWADAM provides technical support, training and materials in hydrogeology to all network partners as well as others in India and the region. Similar programmes began independently in most of the mountain regions of India. Arghyam, a funding organization that was supporting many of these programmes, noticed that these disparate initiatives shared commonalities despite geographic diversity. They thus organized and funded a meeting of these various organizations in June 2014, and the Springs Initiative was born.
The springs initiative aims to tackle the current water crisis and to ensure safe and sustainable access to water for all, by promoting responsible and appropriate management of aquifers, springsheds, and watersheds and conserving ecosystems in partnership with communities, governments and other stakeholders.
This presentation has been developed as a part of the springs initiative to promote an understanding of springs and their role in mountainous areas.
Over the last decade, demand for spring management has increased as traditional spring sources have started drying up or becoming contaminated. In response, communities, NGOs and state agencies began dedicated spring protection programmes. In the Himalayas, the State of Sikkim and organizations such as Central Himalayan Action and Research Group (CHIRAG) and People Science Institute (PSI) started identifying and protecting spring recharge areas around 2007. The difference between these programmes and many other previous efforts is that they went beyond supply-side improvements to focus on the use of hydrogeology to map springsheds for targeted interventions.
The Advanced Centre for Water Resources Development and Management (ACWADAM), a research and capacity-building organization comprised of hydrogeologists and other experts began lending their expertise and building capacity of stakeholders. ACWADAM provides technical support, training and materials in hydrogeology to all network partners as well as others in India and the region. Similar programmes began independently in most of the mountain regions of India. Arghyam, a funding organization that was supporting many of these programmes, noticed that these disparate initiatives shared commonalities despite geographic diversity. They thus organized and funded a meeting of these various organizations in June 2014, and the Springs Initiative was born.
The springs initiative aims to tackle the current water crisis and to ensure safe and sustainable access to water for all, by promoting responsible and appropriate management of aquifers, springsheds, and watersheds and conserving ecosystems in partnership with communities, governments and other stakeholders.
This presentation has been developed as a part of the springs initiative to promote an understanding of springs and their role in mountainous areas.
Over the last decade, demand for spring management has increased as traditional spring sources have started drying up or becoming contaminated. In response, communities, NGOs and state agencies began dedicated spring protection programmes. In the Himalayas, the State of Sikkim and organizations such as Central Himalayan Action and Research Group (CHIRAG) and People Science Institute (PSI) started identifying and protecting spring recharge areas around 2007. The difference between these programmes and many other previous efforts is that they went beyond supply-side improvements to focus on the use of hydrogeology to map springsheds for targeted interventions.
The Advanced Centre for Water Resources Development and Management (ACWADAM), a research and capacity-building organization comprised of hydrogeologists and other experts began lending their expertise and building capacity of stakeholders. ACWADAM provides technical support, training and materials in hydrogeology to all network partners as well as others in India and the region. Similar programmes began independently in most of the mountain regions of India. Arghyam, a funding organization that was supporting many of these programmes, noticed that these disparate initiatives shared commonalities despite geographic diversity. They thus organized and funded a meeting of these various organizations in June 2014, and the Springs Initiative was born.
The springs initiative aims to tackle the current water crisis and to ensure safe and sustainable access to water for all, by promoting responsible and appropriate management of aquifers, springsheds, and watersheds and conserving ecosystems in partnership with communities, governments and other stakeholders.
This presentation has been developed as a part of the springs initiative to promote an understanding of springs and their role in mountainous areas.
Community mobilization and institutional framework including monitoring mecha...India Water Portal
Over the last decade, demand for spring management has increased as traditional spring sources have started drying up or becoming contaminated. In response, communities, NGOs and state agencies began dedicated spring protection programmes. In the Himalayas, the State of Sikkim and organizations such as Central Himalayan Action and Research Group (CHIRAG) and People Science Institute (PSI) started identifying and protecting spring recharge areas around 2007. The difference between these programmes and many other previous efforts is that they went beyond supply-side improvements to focus on the use of hydrogeology to map springsheds for targeted interventions.
The Advanced Centre for Water Resources Development and Management (ACWADAM), a research and capacity-building organization comprised of hydrogeologists and other experts began lending their expertise and building capacity of stakeholders. ACWADAM provides technical support, training and materials in hydrogeology to all network partners as well as others in India and the region. Similar programmes began independently in most of the mountain regions of India. Arghyam, a funding organization that was supporting many of these programmes, noticed that these disparate initiatives shared commonalities despite geographic diversity. They thus organized and funded a meeting of these various organizations in June 2014, and the Springs Initiative was born.
The springs initiative aims to tackle the current water crisis and to ensure safe and sustainable access to water for all, by promoting responsible and appropriate management of aquifers, springsheds, and watersheds and conserving ecosystems in partnership with communities, governments and other stakeholders.
This presentation has been developed as a part of the springs initiative to promote an understanding of springs and their role in mountainous areas.
Concept and approach of springshed development and management 22 jan 2020India Water Portal
Over the last decade, demand for spring management has increased as traditional spring sources have started drying up or becoming contaminated. In response, communities, NGOs and state agencies began dedicated spring protection programmes. In the Himalayas, the State of Sikkim and organizations such as Central Himalayan Action and Research Group (CHIRAG) and People Science Institute (PSI) started identifying and protecting spring recharge areas around 2007. The difference between these programmes and many other previous efforts is that they went beyond supply-side improvements to focus on the use of hydrogeology to map springsheds for targeted interventions.
The Advanced Centre for Water Resources Development and Management (ACWADAM), a research and capacity-building organization comprised of hydrogeologists and other experts began lending their expertise and building capacity of stakeholders. ACWADAM provides technical support, training and materials in hydrogeology to all network partners as well as others in India and the region. Similar programmes began independently in most of the mountain regions of India. Arghyam, a funding organization that was supporting many of these programmes, noticed that these disparate initiatives shared commonalities despite geographic diversity. They thus organized and funded a meeting of these various organizations in June 2014, and the Springs Initiative was born.
The springs initiative aims to tackle the current water crisis and to ensure safe and sustainable access to water for all, by promoting responsible and appropriate management of aquifers, springsheds, and watersheds and conserving ecosystems in partnership with communities, governments and other stakeholders.
This presentation has been developed as a part of the springs initiative to promote an understanding of springs and their role in mountainous areas.
Over the last decade, demand for spring management has increased as traditional spring sources have started drying up or becoming contaminated. In response, communities, NGOs and state agencies began dedicated spring protection programmes. In the Himalayas, the State of Sikkim and organizations such as Central Himalayan Action and Research Group (CHIRAG) and People Science Institute (PSI) started identifying and protecting spring recharge areas around 2007. The difference between these programmes and many other previous efforts is that they went beyond supply-side improvements to focus on the use of hydrogeology to map springsheds for targeted interventions.
The Advanced Centre for Water Resources Development and Management (ACWADAM), a research and capacity-building organization comprised of hydrogeologists and other experts began lending their expertise and building capacity of stakeholders. ACWADAM provides technical support, training and materials in hydrogeology to all network partners as well as others in India and the region. Similar programmes began independently in most of the mountain regions of India. Arghyam, a funding organization that was supporting many of these programmes, noticed that these disparate initiatives shared commonalities despite geographic diversity. They thus organized and funded a meeting of these various organizations in June 2014, and the Springs Initiative was born.
The springs initiative aims to tackle the current water crisis and to ensure safe and sustainable access to water for all, by promoting responsible and appropriate management of aquifers, springsheds, and watersheds and conserving ecosystems in partnership with communities, governments and other stakeholders.
This presentation has been developed as a part of the springs initiative to promote an understanding of springs and their role in mountainous areas.
Over the last decade, demand for spring management has increased as traditional spring sources have started drying up or becoming contaminated. In response, communities, NGOs and state agencies began dedicated spring protection programmes. In the Himalayas, the State of Sikkim and organizations such as Central Himalayan Action and Research Group (CHIRAG) and People Science Institute (PSI) started identifying and protecting spring recharge areas around 2007. The difference between these programmes and many other previous efforts is that they went beyond supply-side improvements to focus on the use of hydrogeology to map springsheds for targeted interventions.
The Advanced Centre for Water Resources Development and Management (ACWADAM), a research and capacity-building organization comprised of hydrogeologists and other experts began lending their expertise and building capacity of stakeholders. ACWADAM provides technical support, training and materials in hydrogeology to all network partners as well as others in India and the region. Similar programmes began independently in most of the mountain regions of India. Arghyam, a funding organization that was supporting many of these programmes, noticed that these disparate initiatives shared commonalities despite geographic diversity. They thus organized and funded a meeting of these various organizations in June 2014, and the Springs Initiative was born.
The springs initiative aims to tackle the current water crisis and to ensure safe and sustainable access to water for all, by promoting responsible and appropriate management of aquifers, springsheds, and watersheds and conserving ecosystems in partnership with communities, governments and other stakeholders.
This presentation has been developed as a part of the springs initiative to promote an understanding of springs and their role in mountainous areas.
Over the last decade, demand for spring management has increased as traditional spring sources have started drying up or becoming contaminated. In response, communities, NGOs and state agencies began dedicated spring protection programmes. In the Himalayas, the State of Sikkim and organizations such as Central Himalayan Action and Research Group (CHIRAG) and People Science Institute (PSI) started identifying and protecting spring recharge areas around 2007. The difference between these programmes and many other previous efforts is that they went beyond supply-side improvements to focus on the use of hydrogeology to map springsheds for targeted interventions.
The Advanced Centre for Water Resources Development and Management (ACWADAM), a research and capacity-building organization comprised of hydrogeologists and other experts began lending their expertise and building capacity of stakeholders. ACWADAM provides technical support, training and materials in hydrogeology to all network partners as well as others in India and the region. Similar programmes began independently in most of the mountain regions of India. Arghyam, a funding organization that was supporting many of these programmes, noticed that these disparate initiatives shared commonalities despite geographic diversity. They thus organized and funded a meeting of these various organizations in June 2014, and the Springs Initiative was born.
The springs initiative aims to tackle the current water crisis and to ensure safe and sustainable access to water for all, by promoting responsible and appropriate management of aquifers, springsheds, and watersheds and conserving ecosystems in partnership with communities, governments and other stakeholders.
This presentation has been developed as a part of the springs initiative to promote an understanding of springs and their role in mountainous areas.
Over the last decade, demand for spring management has increased as traditional spring sources have started drying up or becoming contaminated. In response, communities, NGOs and state agencies began dedicated spring protection programmes. In the Himalayas, the State of Sikkim and organizations such as Central Himalayan Action and Research Group (CHIRAG) and People Science Institute (PSI) started identifying and protecting spring recharge areas around 2007. The difference between these programmes and many other previous efforts is that they went beyond supply-side improvements to focus on the use of hydrogeology to map springsheds for targeted interventions.
The Advanced Centre for Water Resources Development and Management (ACWADAM), a research and capacity-building organization comprised of hydrogeologists and other experts began lending their expertise and building capacity of stakeholders. ACWADAM provides technical support, training and materials in hydrogeology to all network partners as well as others in India and the region. Similar programmes began independently in most of the mountain regions of India. Arghyam, a funding organization that was supporting many of these programmes, noticed that these disparate initiatives shared commonalities despite geographic diversity. They thus organized and funded a meeting of these various organizations in June 2014, and the Springs Initiative was born.
The springs initiative aims to tackle the current water crisis and to ensure safe and sustainable access to water for all, by promoting responsible and appropriate management of aquifers, springsheds, and watersheds and conserving ecosystems in partnership with communities, governments and other stakeholders.
This presentation has been developed as a part of the springs initiative to promote an understanding of springs and their role in mountainous areas.
To arrest the decline in groundwater levels, Atal Bhujal Yojana or Atal Jal - perhaps India’s largest community led groundwater management program till date - was launched in December 2019. This presentation deals with capacity building planned under the scheme, the responsibilities for capacity building, identified needs for capacity building, skill development/ workshop/ handholding, training institutions, awareness creation and IEC.
The Indian economy is classified into different sectors to simplify the analysis and understanding of economic activities. For Class 10, it's essential to grasp the sectors of the Indian economy, understand their characteristics, and recognize their importance. This guide will provide detailed notes on the Sectors of the Indian Economy Class 10, using specific long-tail keywords to enhance comprehension.
For more information, visit-www.vavaclasses.com
2024.06.01 Introducing a competency framework for languag learning materials ...Sandy Millin
http://sandymillin.wordpress.com/iateflwebinar2024
Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
Knowledge and skills frameworks, generally called competency frameworks, for ELT teachers, trainers and managers have existed for a few years now. However, until I created one for my MA dissertation, there wasn’t one drawing together what we need to know and do to be able to effectively produce language learning materials.
This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
Palestine last event orientationfvgnh .pptxRaedMohamed3
An EFL lesson about the current events in Palestine. It is intended to be for intermediate students who wish to increase their listening skills through a short lesson in power point.
We all have good and bad thoughts from time to time and situation to situation. We are bombarded daily with spiraling thoughts(both negative and positive) creating all-consuming feel , making us difficult to manage with associated suffering. Good thoughts are like our Mob Signal (Positive thought) amidst noise(negative thought) in the atmosphere. Negative thoughts like noise outweigh positive thoughts. These thoughts often create unwanted confusion, trouble, stress and frustration in our mind as well as chaos in our physical world. Negative thoughts are also known as “distorted thinking”.
Students, digital devices and success - Andreas Schleicher - 27 May 2024..pptxEduSkills OECD
Andreas Schleicher presents at the OECD webinar ‘Digital devices in schools: detrimental distraction or secret to success?’ on 27 May 2024. The presentation was based on findings from PISA 2022 results and the webinar helped launch the PISA in Focus ‘Managing screen time: How to protect and equip students against distraction’ https://www.oecd-ilibrary.org/education/managing-screen-time_7c225af4-en and the OECD Education Policy Perspective ‘Students, digital devices and success’ can be found here - https://oe.cd/il/5yV
Instructions for Submissions thorugh G- Classroom.pptxJheel Barad
This presentation provides a briefing on how to upload submissions and documents in Google Classroom. It was prepared as part of an orientation for new Sainik School in-service teacher trainees. As a training officer, my goal is to ensure that you are comfortable and proficient with this essential tool for managing assignments and fostering student engagement.
This is a presentation by Dada Robert in a Your Skill Boost masterclass organised by the Excellence Foundation for South Sudan (EFSS) on Saturday, the 25th and Sunday, the 26th of May 2024.
He discussed the concept of quality improvement, emphasizing its applicability to various aspects of life, including personal, project, and program improvements. He defined quality as doing the right thing at the right time in the right way to achieve the best possible results and discussed the concept of the "gap" between what we know and what we do, and how this gap represents the areas we need to improve. He explained the scientific approach to quality improvement, which involves systematic performance analysis, testing and learning, and implementing change ideas. He also highlighted the importance of client focus and a team approach to quality improvement.
1. ITC Limited
Pape rboards & Specialty Papers Division
Unit – Tribeni
WATER MANAGEMENT
CII–SO HRABJI GO DREJ GR EEN BUSINESS C ENTRE
16th – 17th Decemb er 2008
Unit Profile
• A Specialty Paper Mill
• Three Paper Machines
• Production 2007-08: 23387 MT
• Annual Turnover = Rs. 1937 Million
• Certified ISO 9001, 14001 and OHSAS 18001
1
2. Organisation Structure
Vice Pre side nt
Tribe ni O pe rations
HOD
DG M
Finance
Operations
HOD
HOD HOD Ma terials
Engineering Produ cti on (Was te &
Haz.ch em
HOD
IS (Mech. ) IS (PM 3&4 ) Mg r)
Techni cal
MR ISO HOD CS
IS (Elect .) IS (PM 1)
HOD
Safety HOD IT
IS (Instmn. ) IS (FH) MR OHSAS
HOD HR
IS (E & U) CMO IS (Secu rity)
TEM
Water & Bio Med Fire Co-o rd
Coo rdinator
Energy Mg r Waste Mg r & Afforestn.
Source of Water
f17 Nos. of Borewells located within Mill and
Estate Area
fSink Depth of 600 ft below ground level
fTapping is done at a depth of 350-550 ft
2
3. Water Balance
Area Quantity m3/day
Average daily 5959
consumption
Paper Machine 1 1311
Paper Machine 3 2169
Paper Machine 4 1740
DM Plant 345
DIW & ETP 110
Chemical Kitchen 120
Mill Drinking Water 164
Fresh Water Consumption
( April – Q uantity , m3 Produ ction in Specific water
March ) Tonnes consu mption,
m3/ MT
Industrial Do mes ti c
2004-05 25323 51 13216 8 23667 107
2005-06 25161 96 12696 74 24024 105
2006-07 23953 56 11507 34 24250 99
2007-08 21148 30 11315 97 23387 90
3
4. Fresh Water Consumption
Specific Fresh Water Consumption
(kL/t)
230 213
178
180
128
130 107 105
99
90
80
2001- 2002- 2003- 2004- 2005- 2006- 2007-
2002 2003 2004 2005 2006 2007 2008
With con tinuous efforts and several fresh water saving initiativ es impl emen ted,
we have reach ed this position.
Fresh Water Consumption
Cumulative % reduction in Fresh Water intake w.r.t 2001-02
60 57
49 50 53
50
39
40
% reduction
30
20
16
10
0
2002-03 2003-04 2004-05 2005-06 2006-07 2007-08
4
5. Fresh Water Consumption
Benchmarking
Tribeni Mill National Internation CPCB
Benchmark al Norms
Benchmark
90 m3/T Not 100 m3/T 150 m3/T
Available (w.r.t waste wate r
norms of 120)
Best Availabl e Ref erences of European Countries fro m th e
"BREF Pulp and Pap er", el ectronic ad aptation of the Eu ropean
ref erence docu ment on Best Availabl e Techniques (in the slant of
redu cing th e agg res sions to man and environment) in the Pulp
and Paper manufa ctu ring industry.
Implemented Projects 07-08
Scheme-1: Recirculation of Fresh Water from Overhead
Tank for Compressor cooling
5
6. Implemented Projects 07-08
Scheme 1
Old System: New System:
F/water r equir ement 30 m3/hr . F/water r equir ement 30 m3/hr .
Water sent back to Over head Tank : Nill Water sent back to Over head Tank : 30 m3/hr
Actual cooling Water consumed : 30m 3/hr Actual cooling Water consume d : Nil
Savings : 237600 m3 / year
Investment Rs.0.2 Lakhs
Implemented Projects 07-08
Scheme-2: Reduction of sealing water in Couch of PM4 by use of
Anti friction bearing
Savings : 31680 m3 / year
Investment Rs. 9 Lakhs
6
7. Implemented Projects 07-08
Scheme3: Refurbishing of PM4 steam & condenser circuit
Implemented Projects 07-08
Scheme3: Refurbishing of PM4 steam & condenser circuit
Old System: New System:
Steam r equir ement : 110 TPD Steam r equir ement : 80 TP D
Condensate r ecover y : 39 TP D Condensate r ecover y : 56 TP D
Water r equir ement : 21 TPD
Water r equir ement : 7 1 TPDr Water saving : 50 TP D
( This saving would come in DM wa ter )
Savings : 49500 m3 / year ( DM water)
Investment Rs. 120 Lakhs
7
8. Implemented Projects 07-08
Scheme5: Se quencing of Coloure d Laminating Grade making on PM4
Grade change in Colour laminating grades is associated with lot of
water for cleaning & flushing the system. T PM team has come
together to reorganize making schedule with in-depth R& D inputs to
avoid water usage during many grade changes
Savings : 12000 m3 / year
Investment : Nil
Implemented Projects 07-08
Scheme 6: Use of New Generation CentriCleaner system on PM1
Picture before modification Picture after modification
Water requirement : 6m3/hr Water requirement : 4m3/hr
Savings 15840 m3 / year
Investment Rs.28 Lakhs
8
9. Implemented Projects 07-08
Scheme 7:
Reduction of leakage of Gland sealing water through use of
Mechanical seals
Savings : 15840 m3 / year
Investment Rs. 24 Lakhs
Implemented Projects 07-08
Scheme 8:
Use of highly efficient imported Vacuum Pumps requiring less
sealing water
Before Modernisation After Modernisation
Savings : 23760 m3 / year
Investment Rs.57 Lakhs
9
10. Implemented Projects 07-08
Scheme 9:
Reduction in consumption of Make up water in Cooling Tower by
improving COC
Implemented Projects 07-08
Scheme 9:
Reduction in consumption of Make up water in Cooling Tower by
improving COC
Old System: New System:
For TG2 For TG2
Evaporation loss: 1 1 m3/hr Evaporation loss: 1 1 m3/hr
Blow down : 27. 5 m3/hrl Blow down : 5.5 m3/ hrl
Total mak e up water : 38.5 m3/hr Total mak e up water : 16.5 m3/hr
For TG3 For TG3
Evaporation loss: 14.7 m3/ hr Evaporation loss: 14.7 m3/ hr
Blow down : 36. 7 m3/hrl Blow down : 7.4 m3/hrl
Total mak e up water : 51.4 m3/hr Total mak e up wate r : 22 m3/h r
Total mak e up water reqd.: 89.9 m3/ hr Total mak e up water reqd.: 38.5 m3/ hr
Savings : 50 m3 / hour
Investment Rs. 40 Lakhs
10
11. Implemented Projects 07-08
Scheme 10:
Introduction of Reverse Osmosis system in PM1
Savings : 39600 m3 / year
Investment Rs.40 Lakhs
Waste Water Discharge
Specific Waste Water Discharge (kL/t)
11 0
80.7
69.3
63 61.5
60
2004-2005 2005-200 6 2006-2007 2007-2008
With con tinuous efforts in max imising pro cess wa ter recy cling
we hav e redu ced belo w 50 % of CPCB norms.
11
12. Waste Water Discharge
Waste Water Discharge - Benchmarking
Tribeni Mill National International CPCB Norms
Benchmark Benchmark
61.5 m3/T Not Available 60 m3/T 120 m3/T
Best Availabl e References of Europ ean Countries fro m th e "BRE F Pulp and
Paper", el ectronic ad apta tion of the Eu rop ean reference do cument on B es t
Availabl e Techniques (in the sl ant of reducing the aggressions to man and
environment) in the Pulp and Paper manufactu ring industry.
The Road Map towards Zero Discharge
3-step process:
• Implementation of Future Fresh Water Conservation Projects
• Closing the Water Loop with reuse of Mill
Treated Water
• Continuous Monitoring and Control to sustain
the System
12
13. Monitoring
f All fresh water consuming areas are provided with water flow
meters connected to DCS system.
f Daily, weekly and monthly MIS reports contain the fresh water
consumption figures.
f Monitoring is done online, by the respective utilities and paper
machine shift incharges.
f Specific Key Focus Areas are predefined for respective managers
as a part of their annual appraisal system for Water Conservation
Measures and Monitoring
13