Vizag Steel has implemented extensive water conservation and recycling measures to reduce water consumption. Total water recycling is over 155,494 cubic meters per hour with make-up water needs of only 3,750 cubic meters per hour. Various projects have been implemented since 2004 to reduce water usage, such as recycling blowdown water, installing ultra filters, repairing pipelines, and modifying cooling systems. These projects have resulted in annual water savings of over 4 million cubic meters and costs recovered in under 3 years. Vizag Steel's specific water consumption of 2.33 cubic meters per ton of liquid steel is lower than other major steel producers. Further schemes are planned to achieve zero discharge of water.
This project is an outcome of 4 weeks of vocational industrial training, which I have to undergo for the partial fulfillment of the Bachelor of technology (Chemical Engineering). I have completed this training at IOCL, Brauni (Bihar), India's second oldest crude oil refinery.
This project is an outcome of 4 weeks of vocational industrial training, which I have to undergo for the partial fulfillment of the Bachelor of technology (Chemical Engineering). I have completed this training at IOCL, Brauni (Bihar), India's second oldest crude oil refinery.
Buku Load Oriented Order Release Sebagai Pengantar PPC (Production Planning &...Ir. Duddy Arisandi, ST, MT
[PART-1]
RELEASE ORDER BERORIENTASI BEBAN SEBAGAI PENGANTAR PPC (PRODUCTION PLANNING AND CONTROL) DIPLOMA 4 (D4)
[LOAD ORIENTED ORDER RELEASE AS AN INTRODUCTION TO PPC (PLANNING AND PRODUCTION CONTROL) FOR DIPLOMA-4 (D4)]
Yang mempengaruhi keberhasilan sistem manufaktur saat ini adalah: Produk (lot size, delivery time, dan kualitas); Sistem Produksi yang diterapkan (Teknologi, Otomatisasi, Integrasi), dan Kondisi Sosial (Organisasi, Lingkungan, dan Jadwal kerja). Kesemuanya itu diterjemahkan oleh suatu perusahaan/industri ke dalam Konsep Manufaktur (Teknologi, Organisasi, dan Logistik), untuk mencapai beberapa tujuan seperti : Fleksibelitas (Kapasitas, Teknologi, dan Struktur), Produktivitas (Proses manufaktur, Lead Time, In Process Inventory, Utilisasi); Ketertarikan (Beban Kerja, Kandungan Kerja, dan Sistem Pengupahan).
[What influences the success of the manufacturing system today are: Products (lot size, delivery time, and quality); Production Systems applied (Technology, Automation, Integration), and Social Conditions (Organization, Environment, and Work Schedule). All of which is translated by a company / industry into Manufacturing Concepts (Technology, Organization, and Logistics), to achieve several objectives such as: Flexibility (Capacity, Technology, and Structure), Productivity (Manufacturing Processes, Lead Time, In Process Inventory, Utilization ); Interest (Workload, Work Content and Wage System)]
ISI (CONTENT)
1. Tinjauan Umum Terhadap Metoda Penjadwalan dan Pengendalian Produksi Secara Konvensional [Overview of Conventional Production Scheduling and Control Methods]
2. Pengantar LOMC (Introduction to Load Oriented Manufacturing Control)
3. Lead Time Sebagai Kunci Penentu Keberhasilan Pengendalian Manufaktur (Lead Time as the Key to Determining Success in Manufacturing Control)
4. Diagram Throughput Sebagai Model Proses Manufaktur Yang Umum dan Realistik (4. Throughput Diagrams as General and Realistic Manufacturing Process Models)
Penulis (Create)
Duddy Arisandi, 2001
Politeknik Manufaktur Bandung (PMS-ITB)
Kordinator Pengembangan Sistem Produksi (Pusat Pengembangan Institusi)
Head of PPC Integration System
Indian oil corporation Ltd, Vadodara. It is a report on the main units of the Indian oils.it consists of Atomospheric unit , fluidised catalytic cracking,DHDT, Sulphur recovery unit and two projects on calculated of efficiency and heat balance.Feel free to contact.
It is my industrial training report. There is an industrial training required in my last year of B.E in Electrical Engineering, I am very lucky to get an opportunity to take training in IOCL, Gujarat Refinery , Vadodara. These report describe some of things about that.
List of Profitable Small Manufacturing Business Ideas with Investment of 50 L...Ajjay Kumar Gupta
List of Profitable Small Manufacturing Business Ideas with Investment of 50 Lakhs (Plant and Machinery). MSME Projects
By 2030, India is expected to become the third-largest world economy. The fact that India has demand, demography, and democracy will make this possible. India has the largest youth population. In terms of the GDP (Gross Domestic Product), India currently holds the seventh position globally. In terms of the PPP (Purchasing Power Parity), India currently holds the third position.
India is among the economies that are growing the fastest in the world. India is currently a leading center for both cutting edge technology and disruptive innovation.
See more
https://bit.ly/33ATgOu
https://bit.ly/2k4W7hr
https://bit.ly/2m2jZml
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
#Most_Profitable_Business_Ideas, Best Business Ideas for Huge Profits in India, Most Successful Small Business Ideas for Beginners in India, Best Small Business Ideas & Opportunities, Best Business Ideas to Make Money, How to Start a Small Business, #How_to_Start_a_Business, Starting Your Business, How to Start a Successful Small Business, Small Scale Industry, List of Business Ideas, List of Profitable Business Ideas, Innovative Business Ideas you Can Start Today, Paper Cups, Plates and Boxes Manufacturing Industry, Production of Liquid Biofertilizers, #Fish_Flavoured_Chips_Manufacture, Production of Adhesive (Fevicol Type), Manufacture of Kraft Paper Core Pipe used in Paper Mills for Paper Reel, PET Bottle Recycling Industry, Exercise Note Book Manufacture, Ready Mix Concrete Plant, #Corrugated_Cartons_Production_Business, Poultry Feed Manufacturing Business, Dairy Farming Business, Production of Automobile Hoses, #Betel_Nut_(Supari)_Processing_Business, Production of Disposable Surgical Masks, Cotton Ball (Hospital and Cosmetic Use) Production, Mango Pickles Processing Business, Chilli Oil Production from Red Chilli, Corrugated Cartons and Boxes Manufacturing Business, Production of Aloe Vera Gel and Powder, Sweat Free and Antibacterial Socks Manufacturing Industry, #Gallic_Acid_Production_from_Tannic_Acid, Leggings Industry, Fulvic Acid Production Business, Best Profitable Manufacturing & Processing Business Ideas, Free Manufacturing Business Plans, #How_to_Start_a_Manufacturing_Business, What are the Best Business Ideas, Best Small Businesses Opportunities, Top Small Business Ideas, Best Business Ideas to Make Money, List of Business Ideas, #Small_Profitable_Business_Ideas, Most Profitable Industries to Start a Business, Profitable Business Ideas to Start your Own Business, Best & Profitable Business Ideas, Profitable Small Scale Industries
Buku Load Oriented Order Release Sebagai Pengantar PPC (Production Planning &...Ir. Duddy Arisandi, ST, MT
[PART-1]
RELEASE ORDER BERORIENTASI BEBAN SEBAGAI PENGANTAR PPC (PRODUCTION PLANNING AND CONTROL) DIPLOMA 4 (D4)
[LOAD ORIENTED ORDER RELEASE AS AN INTRODUCTION TO PPC (PLANNING AND PRODUCTION CONTROL) FOR DIPLOMA-4 (D4)]
Yang mempengaruhi keberhasilan sistem manufaktur saat ini adalah: Produk (lot size, delivery time, dan kualitas); Sistem Produksi yang diterapkan (Teknologi, Otomatisasi, Integrasi), dan Kondisi Sosial (Organisasi, Lingkungan, dan Jadwal kerja). Kesemuanya itu diterjemahkan oleh suatu perusahaan/industri ke dalam Konsep Manufaktur (Teknologi, Organisasi, dan Logistik), untuk mencapai beberapa tujuan seperti : Fleksibelitas (Kapasitas, Teknologi, dan Struktur), Produktivitas (Proses manufaktur, Lead Time, In Process Inventory, Utilisasi); Ketertarikan (Beban Kerja, Kandungan Kerja, dan Sistem Pengupahan).
[What influences the success of the manufacturing system today are: Products (lot size, delivery time, and quality); Production Systems applied (Technology, Automation, Integration), and Social Conditions (Organization, Environment, and Work Schedule). All of which is translated by a company / industry into Manufacturing Concepts (Technology, Organization, and Logistics), to achieve several objectives such as: Flexibility (Capacity, Technology, and Structure), Productivity (Manufacturing Processes, Lead Time, In Process Inventory, Utilization ); Interest (Workload, Work Content and Wage System)]
ISI (CONTENT)
1. Tinjauan Umum Terhadap Metoda Penjadwalan dan Pengendalian Produksi Secara Konvensional [Overview of Conventional Production Scheduling and Control Methods]
2. Pengantar LOMC (Introduction to Load Oriented Manufacturing Control)
3. Lead Time Sebagai Kunci Penentu Keberhasilan Pengendalian Manufaktur (Lead Time as the Key to Determining Success in Manufacturing Control)
4. Diagram Throughput Sebagai Model Proses Manufaktur Yang Umum dan Realistik (4. Throughput Diagrams as General and Realistic Manufacturing Process Models)
Penulis (Create)
Duddy Arisandi, 2001
Politeknik Manufaktur Bandung (PMS-ITB)
Kordinator Pengembangan Sistem Produksi (Pusat Pengembangan Institusi)
Head of PPC Integration System
Indian oil corporation Ltd, Vadodara. It is a report on the main units of the Indian oils.it consists of Atomospheric unit , fluidised catalytic cracking,DHDT, Sulphur recovery unit and two projects on calculated of efficiency and heat balance.Feel free to contact.
It is my industrial training report. There is an industrial training required in my last year of B.E in Electrical Engineering, I am very lucky to get an opportunity to take training in IOCL, Gujarat Refinery , Vadodara. These report describe some of things about that.
List of Profitable Small Manufacturing Business Ideas with Investment of 50 L...Ajjay Kumar Gupta
List of Profitable Small Manufacturing Business Ideas with Investment of 50 Lakhs (Plant and Machinery). MSME Projects
By 2030, India is expected to become the third-largest world economy. The fact that India has demand, demography, and democracy will make this possible. India has the largest youth population. In terms of the GDP (Gross Domestic Product), India currently holds the seventh position globally. In terms of the PPP (Purchasing Power Parity), India currently holds the third position.
India is among the economies that are growing the fastest in the world. India is currently a leading center for both cutting edge technology and disruptive innovation.
See more
https://bit.ly/33ATgOu
https://bit.ly/2k4W7hr
https://bit.ly/2m2jZml
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
#Most_Profitable_Business_Ideas, Best Business Ideas for Huge Profits in India, Most Successful Small Business Ideas for Beginners in India, Best Small Business Ideas & Opportunities, Best Business Ideas to Make Money, How to Start a Small Business, #How_to_Start_a_Business, Starting Your Business, How to Start a Successful Small Business, Small Scale Industry, List of Business Ideas, List of Profitable Business Ideas, Innovative Business Ideas you Can Start Today, Paper Cups, Plates and Boxes Manufacturing Industry, Production of Liquid Biofertilizers, #Fish_Flavoured_Chips_Manufacture, Production of Adhesive (Fevicol Type), Manufacture of Kraft Paper Core Pipe used in Paper Mills for Paper Reel, PET Bottle Recycling Industry, Exercise Note Book Manufacture, Ready Mix Concrete Plant, #Corrugated_Cartons_Production_Business, Poultry Feed Manufacturing Business, Dairy Farming Business, Production of Automobile Hoses, #Betel_Nut_(Supari)_Processing_Business, Production of Disposable Surgical Masks, Cotton Ball (Hospital and Cosmetic Use) Production, Mango Pickles Processing Business, Chilli Oil Production from Red Chilli, Corrugated Cartons and Boxes Manufacturing Business, Production of Aloe Vera Gel and Powder, Sweat Free and Antibacterial Socks Manufacturing Industry, #Gallic_Acid_Production_from_Tannic_Acid, Leggings Industry, Fulvic Acid Production Business, Best Profitable Manufacturing & Processing Business Ideas, Free Manufacturing Business Plans, #How_to_Start_a_Manufacturing_Business, What are the Best Business Ideas, Best Small Businesses Opportunities, Top Small Business Ideas, Best Business Ideas to Make Money, List of Business Ideas, #Small_Profitable_Business_Ideas, Most Profitable Industries to Start a Business, Profitable Business Ideas to Start your Own Business, Best & Profitable Business Ideas, Profitable Small Scale Industries
Top 10 metallurgical interview questions with answersharrisaimee4
In this file, you can ref interview materials for metallurgical such as, metallurgical situational interview, metallurgical behavioral interview, metallurgical phone interview, metallurgical interview thank you letter, metallurgical interview tips …
Un resumen con cuatro (4) de las métricas más utilizadas en cuanto a la medición de la efectividad de Servicio. Importante por aquello de que "lo que no se mide... "
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.
Kankroli Tyre Plant(KTP), A unit of JK Tyre & Industries LimitedIndia Water Portal
This is a presentation from Kankroli Tyre Plant, 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, 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 Tata Chemicals Ltd, 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.
Mark Killar, Western Pennsylvania Conservancy, “Sewickley Creek Cost/Benefit ...Michael Hewitt, GISP
Throughout Pennsylvania, many non-profit organizations have developed restoration plans for AMD impaired watersheds. To secure federal AML funding through Pennsylvania’s Abandoned Mine Reclamation Program and with other federal programs, those plans must include a cost/benefits analysis to assure that funds from the program are spent wisely. In an effort to assist in the development of a cost/benefit analysis for AMD projects being proposed for a qualified hydrologic unit watershed, Western Pennsylvania Conservancy worked with Hedin Environmental, through a technical assistance grant provided by Trout Unlimited’s Eastern Abandoned Mines Program, to develop a treatment cost calculator, which could compare costs on a variety of AMD treatment types. This presentation will demonstrate how it was used to develop a cost/benefit analysis for priority AMD discharges within the Sewickley Creek watershed in Westmoreland County.
An explanation and presentation of the ORIGINAL SCALEWATCHER electronic water treatment system for commercial and industrial applications. Saves water, $, and energy for a better way to treat water.
The demand of power is increasing exponentially results in installation of new stations whereas the sources of water are depreciating acutely. In future there may be a situation in which water sources may not cope up with this requirement.
Also the serious concerns of the regulatory authorities regarding usage of natural resources, definitely the norms will be further be tightened, which will curtail the freedom of usage of water in power plant.
In present scenario land acquisition is one of the toughest hurdles in plant installations which can be averted by locating stations in water scarce regions, by employing air cooled system which eliminates dependencies on water for CW.
Although dry cooling systems are costly technologies on techno-economic considerations, but foreseeing the future it is the need of hour to employ dry cooling system which offers possible solution for power plant installation eliminating the above mentioned challenges.
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.
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Read| The latest issue of The Challenger is here! We are thrilled to announce that our school paper has qualified for the NATIONAL SCHOOLS PRESS CONFERENCE (NSPC) 2024. Thank you for your unwavering support and trust. Dive into the stories that made us stand out!
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The French Revolution, which began in 1789, was a period of radical social and political upheaval in France. It marked the decline of absolute monarchies, the rise of secular and democratic republics, and the eventual rise of Napoleon Bonaparte. This revolutionary period is crucial in understanding the transition from feudalism to modernity in Europe.
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VIZAG Steel
1. Excellence In Water Management
By V.S.Subra mani
DGM (WMD)/VSP
VIZAG STEEL - PROFILE
First shore-bas ed pl ant o f 3.0 MT liquid steel capacity - operating at 12 0 % .
Certi fi ed for all 3 Intern ation al stan dards o f ISO 90 01,140 01 & 180 01.
Set up with lat est C DM t echnolo gies like 100% LD gas recovery, dry
quenchi ng of coke,100% C ast Hous e Slag Granulati on and Torpedo L adl e fo r
trans po rting liquid hot m etal.
The Comp any is p rimarily m anu factu ring Long P rodu cts lik e Bars, Wire ro ds,
Reb ars, Roun ds, Chan nels, Angl es et c., which are mostly us ed in Con struction
Indust ry.
Company’s products enjoy p remium in the local Market. Maj or Production
cat ers to Dom estic M ark et.
Gross turnover duri ng 07-08 is 10,433 Cr & Net p ro fit after tax is 1,943 C r
ag ainst previo us year fig of 9,151 Cr &1,36 3 Cr res pectiv ely.
Gro wth: Phas e Capacity (Mt ) Invest ( C r) Cum Invest (C r)
I (09-10 ) 6.8 9192 9192
II 8.5 2220 11412
III 13.0 8400 19812
IV (BY 20 20) 16.0 6000 25812
1
2. Water in steel industry
• Equipment cooling
• Absorption / removal of heat
• Steam generation
• Drinking and sanitary purpose
• Fire fighting
• Plant process
• Gas scrubbing / cleaning
TYPICAL WATER CIRCUIT IN VSP
YELESHWARA M
RESERVIOR
RAW WATER
KBR
DRINKING WATER TREATME NT
FOR TOWNSHIP
RWTP
TREATME NT TREATME NT
FIRE AND DRINKING MAKE UP W ATER
W ATER FOR INDUSTR Y FOR INDUSTRIAL
USE
2
3. BASIS FOR REPORTING OF QUANTITIES
Ø INTAKE WATER INTO RESER VOIR IS M EASURE D FROM THE
PARSHALL FLUME READINGS RECOR DE D JOINTLY BY
STATE GOV T. & VSP
Ø M A KE U P W AT E R C O N S U M PT I O N F O R T H E PL AN T I S
R E CO R DE D F R O M T HE O N LI N E F LO W M E T E R I N S T A LL E D I N
MAKEU P WATER PUM P HOUSE
Ø CO N S U M PT I O N I N IN DI V I DU A L R E C I R CU L A T I O N PU M P
HO U S ES I S M EAS U R ED B Y O N LI N E F LO W M ETER AN D
M E AS U R I N G T I M E T O TI M E WI T H U LT R ASO N I C F LO W M E T E R
Employees/Community Involvement in
Water Conservation
èMass Awareness thr ough Individ ual Responsibility
ØScroll in Cable TV & Pam phlet Distributi on
ØAppeal through Recorded V oice i n teleph ones (dial tone) wide
publi city of Tel nos of contact pers ons for water leaka ges et c.
è Exte nsive re -cycli ng. Elimi nating all wasta ges, Expl oring additional
sour ces, Identifi cation of waste water s our ces for imme diate
implementation.
èDiscussions in depart mental uni on and samal ochana meetings
èSpecial suggesti ons dri ve thr ough s uggesti on melas
èFormati on of se parate Q Cs
èPropaga nda at sch ools
èMessage by CMD & Direct ors in various for ums
èFormati on of S pecial ins pecti on gr oups in vari ous depart ments
èMeetings with cantee n contractors
è Monitori ng by Hi gher Mana gement thr ough Prese ntation by
Envir onment M gmt De pt on all water wasta ge points i n ED (Wor ks) co-
ordinati on meetings.
3
4. Total Water Management
• Water Balancing & Water Audit
• Treatment & Freezing the end user requirement
for various processes
• Supply and distribution of water through out the
plant at required quality & quantity parameters.
• Water Recirculation & conservation
• Complete chemical Treatment
• Converting Waste Water into Makeup water grade
• Recovery of metallurgical waste and recycling of
water
• Technological Discipline
• Cost economics at every step
• Periodic review of all step
WATER MAPPING FOR PLANT WORKS
RECIRCULATI ON IN Cu.M /Hr
ZONE CLEAR CONTAM INA TED TOTA L MAKE -UP WATER
COCCP 10052 980 11032 265
SP 900 1926 2826 70
BF 12865 9520 22385 270
SMS 5415 6160 11575 260
RM 5140 10680 15820 40
TPP 62700 --- 62700 1380
AS 432 --- 432 25
CWP-1 5250 --- 5250 10
CWP-3 4000 --- 4000 10
ASP 9920 --- 9920 80
CH-2 1000 --- 1000 10
SOFT WATER 2200 --- 2200 130
DM WA TER 5399 --- 5399 400
DRINKING --- 550
CONSTRUCTI ON --- 250
TOTA L 1,55, 494 3750
4
5. VARIOUS WATER CONSERVATION MEASURES (IN
LAST 4 YEARS)
Ann ual Wa ter Inv est.
Title of Wa ter Sav ings Ma de Payback
Sl Year of
Sav ing proj ect Period
No Imple men tati on
imple men ted (Mo nth s)
Rs. Rs.
m3
Lakhs Lakhs
Recycling of
Secondary Sp ra y
1 Cooling water in Jun'04 2190000 131.4 296 27.03
SMS 250
Cu.mtr/H r
Utilizing Cooling
2 tower – 22 blow June 05 175200 10.5 2.5 2.8
down in Mills
Utilizing Cooling
3 tower – 21 blow Aug. 05 262800 15.7 2.5 1.9
down in S MS
Introduction of
4 Jan. 06 1752000 105 500 45
Ultra Filter plant
Installation of 2
nos of pumps in
5 diversion channel July 06 438000 165.7 470 34
to recove r rain
water
VARIOUS WATER CONSERVATION MEASURES (IN
LAST 4 YEARS)
Ann ual Wa ter Inv est.
Title of Wa ter Sav ings Ma de Payback
Sl Year of
Sav ing proj ect Period
No Imple men tati on
imple men ted (Mo nth s)
Rs. Rs.
m3
Lakhs Lakhs
Provision of side
6 stream Filters at Jan 07 438000 165.7 470 34
T PP PH-04
Replacement of
damaged pipe
7 Ma r 07 876000 131.40 200 18
lines in various
zones
Settling tanks for
recove ry of
8 Ma r 07 876000 131.40 585 54
metallurgical
waste
Diversion of
exhaust cooling
9 Dec 07 350400 52.56 2 1
water in BHS 1 to
PH -6
Renovation of all
10 cooling towers in Feb 08 438000 65.70 100 18
coke ove n area.
5
6. RAIN HARVESTING
PROJECTS
-Vizag Steel has implemented Rain Harvesting
measures in a big way as mentioned below
:
¯Masonry Check Dams - 9 nos.
¯Percolation Pits - 94 nos.
¯Earthen Check Dams - 1 no.
¯Recharge Wells - 18 nos.
STREGTHENING COOLING
SYSTEM IN COKE OVEN
Problem Identification:
• High Temperature of recirculation water
• Huge Drift loss
• In effective Cooling
6
7. STREGTHENING COOLING
SYSTEM IN COKE OVEN
Modification:
• Total renovation of cooling tower
includes
• Replacement of existing 2 layer fill
system to 3 layer
• Replacement of Asbestos Drift
eliminators by PVC waves and bushes
STREGTHENING COOLING
SYSTEM IN COKE OVEN
Result :
• Water saving incurred out of modification of drift
eliminators : 50 cum. /hr.
• Increased deltaT by 2 – 3 degrees improved the
performance of various heat exchangers of coke ovens.
• Elimination of water spillage to the surroundings.
• Cost benefit analysis:
• Investment made against procurement of fills and drift
eliminators and execution : Rs. 100 Lakhs
• Hence direct Tangible savings : Rs. 65.70 lakh per
annum
7
8. WATER CONSUMPTION
w.r.t. PRODUCTION
PRODUCTION CONSUMPTION
YEAR
(MT Liq steel) (MGD)
DESIGNED 3.0 70
00-01 2.91 40
01-02 3.08 35
02-03 3.34 31.4
03-04 3.51 27.0
04-05 3.56 26.0
05-06 3.60 25.0
06-07 3.61 24.5
26.0
07-08 3.31 ( Due to Co nstruction Activity –
1. 5 MGD Ad dtl cons. )
10.7
7.8
6.33
4.88
3.96
3.31
2.76
2.56 2.29 2.33
8
9. SPEC. WATER CONSUMPTION IN VSP
AS COMPARED TO STEEL MAJORS
Vizag Steel’s
speci fi c As com par ed to
w ater
consum pti on
(cubi c meter /
ton of liquid Bluescope Thyss en Chi na Corus,
steel) steel - Krupp - POS CO
Steel, UK
Australia Germany
Tai w an
2.33 2.5 3.2 3.6 4.5 4.7
Source : collec ted By Sri Ramesh Prasad AGM / Vizag S teel at
interna tional for um “IISI” held at Amster dum, CO RUS STEE L.
SCHEMES TOWARDS ZERO DISCHARGE
Qty of wa ter to Estima ted
Source be rec ycle d in Type of treatmen t Cost i n Rs in Remarks
cum/ hr crores
Tre ate d wa ter will be use d
Ph ysical trea tm ent in the expa nsi on area for
like misc. us es like fire
Balacher uv u 300-350 20.1
settli ng/clarri ficati on, figh tin g, d us t su ppressi on,
Oil se parati on e tc. garde ning, toilet flus hing
etc.
500 (incl udi ng Tre ate d wa ter will be use d
Appik on da expansi on Rev erse Osm osis 43.15 as make up i n TPP S ys tem
units) and i n so ft water ne twork
Sewage fro m Tre ate d wa ter will be use d
the exis ting 80 Rev erse Osm osis 21.5 in C OCCP recirc ula tio n
plan ts sys tem
Sewage fro m
the Tre ate d wa ter will be use d
80 Rev erse Osm osis 18.6
expansi on in so ft water network
units
To pu mp ou t wa ter fr om
Mari ne
MB C,C OC CP leaka ges,
Dischar ge 300 - 450 Collec tin g Ta nk 11.5
rej ects from RO pla nt
Pipe Li ne
(S TP-!)
Tota l E xpected Water R ecove ry = 1050 cu m / hour
9
10. VSP – OTHER AWARDS
Ø CII – EXIM Bank awar d 2007 for Signific ant Ac hievement .
Ø Gol den Peac oc k award for Environmental manag ement by world Envir onmental
Foundation – 2006
Ø Nati onal energ y c ons er vati on award – 2006 (7 times i n row) for Energ y effici enc y
(First priz e for 3 c ons ec uti ve years and also a s pecial award for ac hievi ng this).
for
Ø Nati onal awar d for excell ence i n Water M anagement by CII– 2006 (three
CII–
consecuti ve year s).
Ø Commendati on priz e for str ong commi tment to Exc ell enc e - C II Exi m Bank
Awar d for Business Excell enc e 2006 for Overall Exc ellenc e i n all ac ti viti es of the
company.
Ø Str ong C ommit ment - CII HR Exc ellenc e Awar d 2006 for Exc ellenc e i n HR
proc es ses and practic es.
Ø Organi zational Exc ell enc e Awar d for Effici ent s ugges tion sc heme operation gi ven
by INSSAN – 2006
Ø Best Industri al Producti vi ty Award (Jawaharl al N ehru Sil ver R oll ing Trophy) fr om
olling
FAPC CI for Outstandi ng pr oducti vit y in steel producti on.- 2006
on.-
10