This document provides an overview of a company's hydraulic and sanitary engineering division for 2013. It details the division's experience and capabilities in several areas including 350 km of sewerage networks, 30 wastewater treatment plants, 350 km of aqueducts and irrigation systems, and flood protection infrastructure. It also provides several case studies and examples of projects the division has completed relating to sewerage networks, wastewater treatment plants, aqueducts, and hydraulic engineering works.
The document discusses the design of a water supply and sewage system for the town of San Juan de Ihuanco in Peru. It includes calculations for population projections, water demand, and pipe sizing. For water supply, it is proposed to use underground wells, pumping to an elevated storage tank, and gravity-fed distribution pipes. Chlorine tablets will be used for disinfection. For sewage, a sewer collection network and treatment plant using stabilization ponds is recommended due to the low-lying terrain and agricultural benefits of treated water. The design aims to efficiently provide water and sanitation while considering economic and environmental factors.
GREATER CLEVELAND AREA - NORTHEAST OHIO REGIONAL SEWER DISTRICTU.S. Water Alliance
NEORSD is guiding Cleveland and 61 surrounding communities through two significant wet weather issues – CSOs and stormwater – at a time when Northeast Ohio is losing population and gaining vacancy. NEORSD is approaching these issues with multi-benefit, multi-partner programs that provide maximum value for regional investment. This presentation focuses on Project Clean Lake – NEORSD’s 25-year, $3 billion program to address CSOs with an emphasis on optimizing the mix of cost-effective gray and green infrastructure to achieve a 98% level of CSO capture. Partners will discuss early action green infrastructure projects and NEORSD’s regional approach to stormwater management and CSO control.
The project aimed to generate 2000 metric tons per day of bio solids cake through centrifuges at the Stonecutters Island Sewage Treatment Works, which would then be transported to waste facilities for thermal destruction to greatly reduce the volume of bio solids. The completion of paperwork and design approvals allowed engineers to select proper equipment and evaluate processes to meet contract specifications. The HATS Stage 2A Sewage Conveyance System will comprise 21km of tunnels ranging from 0.9-3m in diameter to collect sewage from pumping stations and convey it to the Stonecutters Island Sewage Treatment Works for expansion, in order to treat additional sewage and increase capacity from 1.7 to 2.45 million cubic meters per day
Bob Hedin, Hedin Environmental, “Two Passive Treatment Systems that are Regio...Michael Hewitt, GISP
Effective passive minewater treatment systems can be attractive to the public because they do not contain hazardous components, support wildlife, and communicate a resonating message of frugal ingenuity. This talk will focus on two passive treatment systems in Allegheny County that have become central components of popular public spaces: Allegheny Land Trust’s Wingfield Pines system and Pittsburgh Botanic Garden’s Woodlands system. The presentation will be supported with photos and statistics regarding the public use of both systems.
Incorporating the design features that were successful in the treatment capacity of the 1.2 acre wetland at the Flight 93 site for a typical flow = 775 gpm. The average percent removal was roughly 70% for iron and 50% for manganese within the wetland. This analysis allowed for a design foundation of the polishing aerobic wetland at the Clyde Mine Water Water Treatment Facility and the potential application at other mine water treatment locations where a relatively minor amount of polishing is needed to enhance iron and manganese removal for the final discharge.
Because of the extent of AMD impacts in Pennsylvania, the Commonwealth has become, by necessity, a leader in the development of passive treatment technology. People from around the world travel to Pennsylvania to learn about the successes we have collectively achieved, including the installation of over 300 passive treatment systems. In recent years, the capabilities of passive systems to treat highly acidic mine discharges with high concentrations of dissolved metals has been questioned. It is important to remember that with any treatment system, whether passive or active, proper design, suitable land characteristics, quality construction, proper maintenance and sufficient funding, are needed to provide a long-term, cost-effective approach for watershed restoration. This presentation will provide mini case studies that demonstrate, by example, that passive systems can and are effectively treating acidic, high-metal, discharges in Pennsylvania.
Gary Merritt, Northern Star Generation LLC, “Big Yellow Taxi?…You don’t know...Michael Hewitt, GISP
The document discusses the process of remediating and reclaiming abandoned coal refuse sites through the use of coal refuse-fired electric generation units (EGUs). It describes how coal refuse is combusted with limestone in fluidized bed combustors, with the resulting ash used to neutralize and stabilize remaining materials on site. This process addresses water and air pollution issues by eliminating discharges and future fire risks. However, certain EPA regulations like the Cross-State Air Pollution Rule and Mercury and Air Toxics Standards present challenges for coal refuse-fired EGUs given the unique characteristics of bituminous coal refuse.
This document provides an overview of a company's hydraulic and sanitary engineering division for 2013. It details the division's experience and capabilities in several areas including 350 km of sewerage networks, 30 wastewater treatment plants, 350 km of aqueducts and irrigation systems, and flood protection infrastructure. It also provides several case studies and examples of projects the division has completed relating to sewerage networks, wastewater treatment plants, aqueducts, and hydraulic engineering works.
The document discusses the design of a water supply and sewage system for the town of San Juan de Ihuanco in Peru. It includes calculations for population projections, water demand, and pipe sizing. For water supply, it is proposed to use underground wells, pumping to an elevated storage tank, and gravity-fed distribution pipes. Chlorine tablets will be used for disinfection. For sewage, a sewer collection network and treatment plant using stabilization ponds is recommended due to the low-lying terrain and agricultural benefits of treated water. The design aims to efficiently provide water and sanitation while considering economic and environmental factors.
GREATER CLEVELAND AREA - NORTHEAST OHIO REGIONAL SEWER DISTRICTU.S. Water Alliance
NEORSD is guiding Cleveland and 61 surrounding communities through two significant wet weather issues – CSOs and stormwater – at a time when Northeast Ohio is losing population and gaining vacancy. NEORSD is approaching these issues with multi-benefit, multi-partner programs that provide maximum value for regional investment. This presentation focuses on Project Clean Lake – NEORSD’s 25-year, $3 billion program to address CSOs with an emphasis on optimizing the mix of cost-effective gray and green infrastructure to achieve a 98% level of CSO capture. Partners will discuss early action green infrastructure projects and NEORSD’s regional approach to stormwater management and CSO control.
The project aimed to generate 2000 metric tons per day of bio solids cake through centrifuges at the Stonecutters Island Sewage Treatment Works, which would then be transported to waste facilities for thermal destruction to greatly reduce the volume of bio solids. The completion of paperwork and design approvals allowed engineers to select proper equipment and evaluate processes to meet contract specifications. The HATS Stage 2A Sewage Conveyance System will comprise 21km of tunnels ranging from 0.9-3m in diameter to collect sewage from pumping stations and convey it to the Stonecutters Island Sewage Treatment Works for expansion, in order to treat additional sewage and increase capacity from 1.7 to 2.45 million cubic meters per day
Bob Hedin, Hedin Environmental, “Two Passive Treatment Systems that are Regio...Michael Hewitt, GISP
Effective passive minewater treatment systems can be attractive to the public because they do not contain hazardous components, support wildlife, and communicate a resonating message of frugal ingenuity. This talk will focus on two passive treatment systems in Allegheny County that have become central components of popular public spaces: Allegheny Land Trust’s Wingfield Pines system and Pittsburgh Botanic Garden’s Woodlands system. The presentation will be supported with photos and statistics regarding the public use of both systems.
Incorporating the design features that were successful in the treatment capacity of the 1.2 acre wetland at the Flight 93 site for a typical flow = 775 gpm. The average percent removal was roughly 70% for iron and 50% for manganese within the wetland. This analysis allowed for a design foundation of the polishing aerobic wetland at the Clyde Mine Water Water Treatment Facility and the potential application at other mine water treatment locations where a relatively minor amount of polishing is needed to enhance iron and manganese removal for the final discharge.
Because of the extent of AMD impacts in Pennsylvania, the Commonwealth has become, by necessity, a leader in the development of passive treatment technology. People from around the world travel to Pennsylvania to learn about the successes we have collectively achieved, including the installation of over 300 passive treatment systems. In recent years, the capabilities of passive systems to treat highly acidic mine discharges with high concentrations of dissolved metals has been questioned. It is important to remember that with any treatment system, whether passive or active, proper design, suitable land characteristics, quality construction, proper maintenance and sufficient funding, are needed to provide a long-term, cost-effective approach for watershed restoration. This presentation will provide mini case studies that demonstrate, by example, that passive systems can and are effectively treating acidic, high-metal, discharges in Pennsylvania.
Gary Merritt, Northern Star Generation LLC, “Big Yellow Taxi?…You don’t know...Michael Hewitt, GISP
The document discusses the process of remediating and reclaiming abandoned coal refuse sites through the use of coal refuse-fired electric generation units (EGUs). It describes how coal refuse is combusted with limestone in fluidized bed combustors, with the resulting ash used to neutralize and stabilize remaining materials on site. This process addresses water and air pollution issues by eliminating discharges and future fire risks. However, certain EPA regulations like the Cross-State Air Pollution Rule and Mercury and Air Toxics Standards present challenges for coal refuse-fired EGUs given the unique characteristics of bituminous coal refuse.
Ryan A. McCampbell, Bloomsburg University, "A Cost-Benefit Analysis of AMD Re...Michael Hewitt, GISP
This study investigates the procedure for removing contaminants from rivers and streams that were left as a result of Acid Mine Drainage. The understanding of the process is used to investigate possible goods and services that may result from the process, and the marketability of the goods and services as potential sources of revenue. Taking into account the potential revenues sources, a business plan is created to describe how an entity in the “industry” of Acid Mine Drainage Recovery would operate. The business plan takes advantage of cost accounting techniques to better compare the costs incurred by the business against the potential revenues gained, resulting in cost-benefit analysis.
Terry Schmidt, Skelly & Loy, “Big Run Restoration: A Success Story”Michael Hewitt, GISP
In the late 1990’s, a watershed assessment was completed for Blacklegs Creek and its Big Run tributary, which was the first step to development of a restoration plan. Design and construction activities were initiated around 2000. A four phase approach was developed to address the significant acidic pollution contributors in the watershed. Phase 1 consisted of treating “Big Run #2,” aka. the Sporanza discharge. The water was piped about ½ mile under Blacklegs Creek and treated using an open limestone based system. Phase 2 consisted of treating “Big Run #7” also using a limestone based system. Phase 3 was the biggest challenge due to the discharge location, water quality, water flow, and available space. To combat these challenges, a mine seal constructed in a drainage tunnel that effectively raised the water head approximately 30 feet to a location where some space was available. Partial treatment was accomplished using limestone which required frequent mixing to prevent clogging. Phase 4 was constructed to address “Big Run #3” (emanating from a location without property owner coordination) as well as providing for seasonal and supplemental treatment of Big Run #7 and #8. Through numerous grants of all types and 15 years or so of hard work, bugs and fish returned to lower Big Run and Blacklegs Creek below the confluence.
The document discusses Yarra Valley Water's water main renewal program. It notes that the program is currently reactive based on bursts. It aims to replace aging infrastructure, minimize disruption, and complete reinstatements on time. There is discussion of working with councils to better coordinate roadworks and align water main projects. Challenges around differing views on reinstatement requirements and costs are also covered. The goal is maintaining positive relationships and improving coordination to best serve customers.
The document summarizes water supply and wastewater projects in Kostajnica, Bosnia and Herzegovina. For water supply, it involved replacing 6,500m of aging transmission main from the source and 2,400m of cast iron pipes in the city network. For wastewater, it constructed a new 4,850m east-west collector and a 1,094m north-south collector to address inflow/infiltration issues and river pollution from untreated wastewater discharges. The total project budgets for water supply and wastewater were 1,000,000 EUR each.
The document summarizes a presentation given at a joint workshop on a proposed landfill expansion permit. It discusses Casella's vision of innovating waste solutions through recycling facilities, gas-to-energy plants, and organics processing. It then reviews the proposed expansion at the Chemung County landfill, including increasing permitted capacity from 180,000 to 417,000 tons per year. The financial benefits to the county and town from landfill operations are presented. Comments received on the draft environmental impact statement are summarized, focusing on environmental, health, procedural and operational concerns.
The document provides information on several water and wastewater treatment projects in Iran and other countries. It summarizes the Abadan Refinery project which involved replacing the once through cooling system with a closed loop system, making it the green project of the year. It also summarizes the Birjand Municipality WTP project which TAWA Engineers helped complete by reverse engineering the pilot plant data. The document lists key details about numerous other projects including capacities, clients, locations, scopes of work, and years completed.
PLANNING AND DESIGN OF SEWERS USING ADVANCED TECHNIQUES FOR PROPOSED SEWERA...Rajnish Bajaj
This presentation gives an overview of planning and design aspects of sewers using advanced technique. It is based on a proposed sewage system of kanpur city district-I under NGRBA PROJECT
This document provides information about GES, a leading global water treatment company based in Israel. It discusses GES's areas of expertise, services, and notable projects around the world. Some key points:
- GES was founded in 1987 through strategic mergers and has over 200 employees. It provides comprehensive water and wastewater treatment solutions.
- Notable projects include desalination plants in Israel, wastewater treatment facilities, and plants in countries like China, Greece, and more.
- Services include desalination, purification, chemicals production, operation and maintenance, and financing options. Areas of expertise are municipal and industrial water treatment.
- The goal is to provide clean water globally through treatment
"We are a provider of complete water, waste-water and waste management solutions. For the water industry, we offer both point-of-entry and point-of-discharge solutions. These include RO, Filters/Softeners, Sewage Treatment Solutions and Effluent Treatment Solutions. Apart from this, we provide services linked with water management. We also provide innovative, state-of-the-art and environment friendly solutions for solid waste management through various methods like composting and incineration.We offer many options for the biological treatment of waste water. Few of the technologies offered are SBR,MBBR/FAB, MBR, SAFF. These technologies are robust and time-tested, offering an advantage of economical and environment friendly treatment of waste water.
MBR or Membrane BioReactor combines microfiltration or ultrafiltration with an active sludge process. Kubota MBR is a specialized MBR made by Kubota that offers advantages over other MBRs. It has been used internationally in over 500 plants across five continents. Kubota MBR provides high quality effluent, reduces space requirements, and is easy to operate and maintain.
This document describes a compact wastewater treatment system using MBR/MBBR technology. It provides excellent quality treated sewage using minimal space. The system combines fixed film and activated sludge processes for high treatment efficiency and stability. It allows for water recycling and reuse while saving water, energy, and protecting the environment. The system is designed for small footprints and low operation and maintenance costs.
MBR basics have not changed in the last 10 years but the industry landscape is nearly unrecognizable. With so many manufacturers flooding the market what will 2025 look like?
This presentation provides an overview of domestic wastewater treatment. It discusses preliminary treatment including screening and grit removal. Primary treatment involves settling suspended solids. Secondary treatment uses biological processes like activated sludge or trickling filters. Sludge is treated through thickening, stabilization via aerobic or anaerobic digestion, dewatering, and ultimate disposal. Nitrogen and phosphorus can be removed through additional processes.
Waste Water Treatment Process PresentationAshish Kakadia
Ozone is a powerful disinfectant that is more effective than chlorine and can be used for waste water treatment. It is generated on-site and is highly reactive, able to oxidize organic compounds and precipitate heavy metals. Ozone can be used to treat a variety of waste streams, including municipal, industrial, and mining waste water. It is effective at removing color, cyanide, pathogens, BOD, and emerging contaminants like pharmaceuticals.
Water treatment describes processes used to make water acceptable for various uses like drinking, industrial processes, and medical uses. The goal is to remove or reduce contaminants to fit the intended use. Processes can include physical separation methods like settling and filtration, chemical processes like disinfection and coagulation, and biological processes for wastewater. Factors in selecting treatment processes include the raw water quality, intended use, desired water quality, system size and cost. Common water treatment processes are pretreatment, coagulation, rapid mixing, flocculation, sedimentation, filtration, disinfection, and softening.
Kubota Kasui Indonesia d/h Fujikasui Engineering Indonesia
Perusahaan ahli dalam instalasi IPAL / WWTP
Perusahaan ini juga ahli dalam Instalasi WTP / Instalasi Pengolahan Air termasuk
- RO ( Reverse Osmosis System)
- Demin Water
- Soft Water
- Drinking Water
Telp : 021 824 333 94
HP : 0878 7373 3767 (Mr. Anggi Nurbana)
Website :www.fujikasui.co.id
email : anggi.kkei@gmail.com
1) Water treatment involves ensuring a safe and clean drinking water supply. It requires identifying a water source and protecting it from contamination through appropriate treatment and distribution.
2) Conventional drinking water treatment typically includes aeration, coagulation/flocculation, sedimentation, filtration and disinfection. It aims to remove microbes, particles, dissolved solids and other pollutants.
3) The key processes involve adding coagulants to neutralize particle charges, forming flocs for removal via sedimentation and filtration. Chlorine is commonly used for disinfection but produces disinfection byproducts, so alternatives like chloramines and ozone are also used.
The document summarizes various stages of wastewater treatment processes. It discusses preliminary treatment which removes solids, grit, and grease. Primary treatment uses sedimentation to remove 60% of suspended solids. Secondary treatment uses biological processes like activated sludge and oxidation ditches to remove organic matter. Tertiary treatment further removes nutrients and particles through processes like filtration and disinfection. The document provides details on the treatment units and processes involved at each stage of wastewater treatment.
This document provides information about Aqua Seen, a company that specializes in water treatment. It has over 20 years of experience and has completed almost 1500 projects in Poland and abroad. The company offers design, equipment, and turnkey solutions for drinking water treatment, sewage management, and renewable energy. It has divisions for potable water, equipment, service, and research and development. The document then describes several large water treatment plant modernization and construction projects the company has completed.
1) The Navicelli canal is a 17km waterway connecting Pisa to Livorno built in the 16th century.
2) SpA Navicelli di Pisa manages the canal's infrastructure and aims to develop the surrounding 600,000 sqm area for shipbuilding and other industries.
3) Projects include developing renewable energy sources at the site, using hydrogen fuel cells on boats, and reactivating freight transport on the canal to reduce road traffic.
Ryan A. McCampbell, Bloomsburg University, "A Cost-Benefit Analysis of AMD Re...Michael Hewitt, GISP
This study investigates the procedure for removing contaminants from rivers and streams that were left as a result of Acid Mine Drainage. The understanding of the process is used to investigate possible goods and services that may result from the process, and the marketability of the goods and services as potential sources of revenue. Taking into account the potential revenues sources, a business plan is created to describe how an entity in the “industry” of Acid Mine Drainage Recovery would operate. The business plan takes advantage of cost accounting techniques to better compare the costs incurred by the business against the potential revenues gained, resulting in cost-benefit analysis.
Terry Schmidt, Skelly & Loy, “Big Run Restoration: A Success Story”Michael Hewitt, GISP
In the late 1990’s, a watershed assessment was completed for Blacklegs Creek and its Big Run tributary, which was the first step to development of a restoration plan. Design and construction activities were initiated around 2000. A four phase approach was developed to address the significant acidic pollution contributors in the watershed. Phase 1 consisted of treating “Big Run #2,” aka. the Sporanza discharge. The water was piped about ½ mile under Blacklegs Creek and treated using an open limestone based system. Phase 2 consisted of treating “Big Run #7” also using a limestone based system. Phase 3 was the biggest challenge due to the discharge location, water quality, water flow, and available space. To combat these challenges, a mine seal constructed in a drainage tunnel that effectively raised the water head approximately 30 feet to a location where some space was available. Partial treatment was accomplished using limestone which required frequent mixing to prevent clogging. Phase 4 was constructed to address “Big Run #3” (emanating from a location without property owner coordination) as well as providing for seasonal and supplemental treatment of Big Run #7 and #8. Through numerous grants of all types and 15 years or so of hard work, bugs and fish returned to lower Big Run and Blacklegs Creek below the confluence.
The document discusses Yarra Valley Water's water main renewal program. It notes that the program is currently reactive based on bursts. It aims to replace aging infrastructure, minimize disruption, and complete reinstatements on time. There is discussion of working with councils to better coordinate roadworks and align water main projects. Challenges around differing views on reinstatement requirements and costs are also covered. The goal is maintaining positive relationships and improving coordination to best serve customers.
The document summarizes water supply and wastewater projects in Kostajnica, Bosnia and Herzegovina. For water supply, it involved replacing 6,500m of aging transmission main from the source and 2,400m of cast iron pipes in the city network. For wastewater, it constructed a new 4,850m east-west collector and a 1,094m north-south collector to address inflow/infiltration issues and river pollution from untreated wastewater discharges. The total project budgets for water supply and wastewater were 1,000,000 EUR each.
The document summarizes a presentation given at a joint workshop on a proposed landfill expansion permit. It discusses Casella's vision of innovating waste solutions through recycling facilities, gas-to-energy plants, and organics processing. It then reviews the proposed expansion at the Chemung County landfill, including increasing permitted capacity from 180,000 to 417,000 tons per year. The financial benefits to the county and town from landfill operations are presented. Comments received on the draft environmental impact statement are summarized, focusing on environmental, health, procedural and operational concerns.
The document provides information on several water and wastewater treatment projects in Iran and other countries. It summarizes the Abadan Refinery project which involved replacing the once through cooling system with a closed loop system, making it the green project of the year. It also summarizes the Birjand Municipality WTP project which TAWA Engineers helped complete by reverse engineering the pilot plant data. The document lists key details about numerous other projects including capacities, clients, locations, scopes of work, and years completed.
PLANNING AND DESIGN OF SEWERS USING ADVANCED TECHNIQUES FOR PROPOSED SEWERA...Rajnish Bajaj
This presentation gives an overview of planning and design aspects of sewers using advanced technique. It is based on a proposed sewage system of kanpur city district-I under NGRBA PROJECT
This document provides information about GES, a leading global water treatment company based in Israel. It discusses GES's areas of expertise, services, and notable projects around the world. Some key points:
- GES was founded in 1987 through strategic mergers and has over 200 employees. It provides comprehensive water and wastewater treatment solutions.
- Notable projects include desalination plants in Israel, wastewater treatment facilities, and plants in countries like China, Greece, and more.
- Services include desalination, purification, chemicals production, operation and maintenance, and financing options. Areas of expertise are municipal and industrial water treatment.
- The goal is to provide clean water globally through treatment
"We are a provider of complete water, waste-water and waste management solutions. For the water industry, we offer both point-of-entry and point-of-discharge solutions. These include RO, Filters/Softeners, Sewage Treatment Solutions and Effluent Treatment Solutions. Apart from this, we provide services linked with water management. We also provide innovative, state-of-the-art and environment friendly solutions for solid waste management through various methods like composting and incineration.We offer many options for the biological treatment of waste water. Few of the technologies offered are SBR,MBBR/FAB, MBR, SAFF. These technologies are robust and time-tested, offering an advantage of economical and environment friendly treatment of waste water.
MBR or Membrane BioReactor combines microfiltration or ultrafiltration with an active sludge process. Kubota MBR is a specialized MBR made by Kubota that offers advantages over other MBRs. It has been used internationally in over 500 plants across five continents. Kubota MBR provides high quality effluent, reduces space requirements, and is easy to operate and maintain.
This document describes a compact wastewater treatment system using MBR/MBBR technology. It provides excellent quality treated sewage using minimal space. The system combines fixed film and activated sludge processes for high treatment efficiency and stability. It allows for water recycling and reuse while saving water, energy, and protecting the environment. The system is designed for small footprints and low operation and maintenance costs.
MBR basics have not changed in the last 10 years but the industry landscape is nearly unrecognizable. With so many manufacturers flooding the market what will 2025 look like?
This presentation provides an overview of domestic wastewater treatment. It discusses preliminary treatment including screening and grit removal. Primary treatment involves settling suspended solids. Secondary treatment uses biological processes like activated sludge or trickling filters. Sludge is treated through thickening, stabilization via aerobic or anaerobic digestion, dewatering, and ultimate disposal. Nitrogen and phosphorus can be removed through additional processes.
Waste Water Treatment Process PresentationAshish Kakadia
Ozone is a powerful disinfectant that is more effective than chlorine and can be used for waste water treatment. It is generated on-site and is highly reactive, able to oxidize organic compounds and precipitate heavy metals. Ozone can be used to treat a variety of waste streams, including municipal, industrial, and mining waste water. It is effective at removing color, cyanide, pathogens, BOD, and emerging contaminants like pharmaceuticals.
Water treatment describes processes used to make water acceptable for various uses like drinking, industrial processes, and medical uses. The goal is to remove or reduce contaminants to fit the intended use. Processes can include physical separation methods like settling and filtration, chemical processes like disinfection and coagulation, and biological processes for wastewater. Factors in selecting treatment processes include the raw water quality, intended use, desired water quality, system size and cost. Common water treatment processes are pretreatment, coagulation, rapid mixing, flocculation, sedimentation, filtration, disinfection, and softening.
Kubota Kasui Indonesia d/h Fujikasui Engineering Indonesia
Perusahaan ahli dalam instalasi IPAL / WWTP
Perusahaan ini juga ahli dalam Instalasi WTP / Instalasi Pengolahan Air termasuk
- RO ( Reverse Osmosis System)
- Demin Water
- Soft Water
- Drinking Water
Telp : 021 824 333 94
HP : 0878 7373 3767 (Mr. Anggi Nurbana)
Website :www.fujikasui.co.id
email : anggi.kkei@gmail.com
1) Water treatment involves ensuring a safe and clean drinking water supply. It requires identifying a water source and protecting it from contamination through appropriate treatment and distribution.
2) Conventional drinking water treatment typically includes aeration, coagulation/flocculation, sedimentation, filtration and disinfection. It aims to remove microbes, particles, dissolved solids and other pollutants.
3) The key processes involve adding coagulants to neutralize particle charges, forming flocs for removal via sedimentation and filtration. Chlorine is commonly used for disinfection but produces disinfection byproducts, so alternatives like chloramines and ozone are also used.
The document summarizes various stages of wastewater treatment processes. It discusses preliminary treatment which removes solids, grit, and grease. Primary treatment uses sedimentation to remove 60% of suspended solids. Secondary treatment uses biological processes like activated sludge and oxidation ditches to remove organic matter. Tertiary treatment further removes nutrients and particles through processes like filtration and disinfection. The document provides details on the treatment units and processes involved at each stage of wastewater treatment.
This document provides information about Aqua Seen, a company that specializes in water treatment. It has over 20 years of experience and has completed almost 1500 projects in Poland and abroad. The company offers design, equipment, and turnkey solutions for drinking water treatment, sewage management, and renewable energy. It has divisions for potable water, equipment, service, and research and development. The document then describes several large water treatment plant modernization and construction projects the company has completed.
1) The Navicelli canal is a 17km waterway connecting Pisa to Livorno built in the 16th century.
2) SpA Navicelli di Pisa manages the canal's infrastructure and aims to develop the surrounding 600,000 sqm area for shipbuilding and other industries.
3) Projects include developing renewable energy sources at the site, using hydrogen fuel cells on boats, and reactivating freight transport on the canal to reduce road traffic.
Acquedotto Pugliese is an impressive hydraulic engineering project that supplies drinking water to over 4 million people across Puglia, Italy. It has a 42,000 km network of pipes and 185 water treatment plants. It manages the entire water cycle from sources to treatment and distribution. It was established in 1902 to supply water to a vast territory with no natural water sources, building a 245 km main canal above ground. It had a turnover of 479 million euro in 2013 and invested over 1 billion euro in upgrades from 2006 to 2013.
This document summarizes a presentation given by Nicola Bazzurro of IREN Italy at the 2nd AQUAKNIGHT Conference in Aqaba, Jordan on May 21, 2014. The presentation discussed IREN's pilot project in Genoa, Italy to reduce non-revenue water. Key actions taken included installing pressure sensors and valves, leak detection and repairs. Results included a reduction in losses from 15 liters/second to 8 liters/second and pressure stabilization. Automatic meter reading was also implemented to better monitor usage and identify leaks or theft. A water balance calculation for the pilot area showed non-revenue water was reduced from 33% to 15% through these interventions.
This document is the 2014 Annual Report for the Evanston Utilities Department. It summarizes the department's accomplishments in 2014 including improvements to the water treatment facility, metering and billing systems, and rehabilitation of sewer lines. It also provides performance metrics and outlines major goals for 2015 such as continued upgrades to the water treatment plant and distribution system, and expanding Evanston's wholesale water customer base.
Brokerage session: project idea
Title: Innovative and novel solutions for waste water treatment in industrial and municipal sector
Presented by Johanna Hentunen, Aquazone
1. The document outlines an infrastructure project in Mongolia to build engineering lines and networks to support new residential districts, schools, hospitals and other public facilities in Ulaanbaatar.
2. 26 construction projects are underway across 7 districts to provide electricity, heating, water, and sewage infrastructure through building substations, pipelines, and other facilities.
3. Specific projects to build infrastructure in the Buyant-Ukhaa, Bayangol, Yarmag and other residential districts are described in detail, outlining the water, heating and electricity networks being constructed.
The document is a project report for the preliminary design of a water treatment plant. It includes an index, acknowledgements, objectives, introduction and survey sections. The structural elements section describes the main components of the water treatment plant, including an aerator, alum dosing tanks, coagulation and sedimentation tank, rapid gravity filters, chlorinator, clear water reservoir and main distribution tank. The design specifications section provides specifications for designing components like the pre-sedimentation tank.
This document provides an overview of the feasibility study for a priority sewerage project in Havana, Cuba. It discusses the scope and organization of the feasibility study. The priority project includes rehabilitation and improvements to the existing Central sewerage system, including surveys of cross connections, rehabilitation of pumping stations and screen facilities, and construction of new collector systems. It also includes the development of a new sewerage system in the Luyanó-Martín Pérez Abajo district, with sewer networks, house connections, and a new secondary wastewater treatment plant. Design flows and populations are presented. Preliminary designs are described for rehabilitation of existing facilities and development of new sewerage infrastructure.
The documents describe several infrastructure projects involving construction of water supply, wastewater, and transportation systems through installation of pipes and construction of related facilities. The projects involve laying thousands of meters of pipes of various diameters to improve water distribution, wastewater collection, and transportation networks.
La ricerca e l’innovazione tecnologica per il Servizio Idrico IntegratoServizi a rete
The document summarizes research projects conducted by SMAT Research Center in Turin, Italy. It describes the center's facilities and partnerships. It then provides brief summaries of multiple research projects, including estimating the vulnerability of groundwater resources to climate change, testing hydrodynamic cavitation for drinking water disinfection, modeling wastewater treatment plants, and developing biomethane production and an early warning water monitoring system.
The document summarizes a contract for materials and works provided to the Bihac Water Utility. It details the pipe materials, fittings, valves, and other equipment delivered totaling 741,000EUR. It also describes the scope of works carried out in zones 1, 4, 5, 10 including replacing old pipes with new PE pipes and installing over 1,000 meters of connections to homes. Additional works included constructing a new 700 cubic meter reservoir and over 800 meters of transmission pipelines.
This document discusses a case study in Tarragona, Spain to increase reclaimed water availability using new technologies. The current water resource plant and upcoming industrial wastewater treatment plant were described. The objectives are to increase reclaimed water production by 20% through membrane distillation, reverse osmosis, and ammonia removal via zeolite adsorption. Bench and pilot testing have been completed, with a pilot plant scheduled to operate starting in June 2022 to test ultrafiltration, reverse osmosis, and membrane distillation. The goal is to validate these new technologies and increase circular water usage at the petrochemical complex.
The Dunmurry Wastewater Treatment Works (WwTW) located in Belfast underwent a £5.5 million upgrade to modernize its outdated systems and increase its capacity to 62,500 people equivalents. The upgrade included installing new fine bubble aeration tanks, a 31m diameter final settlement tank, increased sludge handling capacity, and automation to improve treatment and meet stricter consent standards for nutrients. The upgrade works were completed in 2012 and ensured the plant could reliably treat wastewater from growing populations in the area well into the future.
Uniting univeristies, research labs, local government and the private sector ...EIP Water
Presentation hold during EIP Water Conference in Porto, as part of the Porto Water Innovation Week in Session 4 “Developing water innovation with R&D centres, innovation hubs and accelerators”
The document summarizes a £200m modernization project at Davyhulme Wastewater Treatment Works in Manchester, England. The project involves constructing a new activated sludge plant and other upgrades to address challenges from tightening permit limits, population growth, and aging infrastructure. A new activated sludge plant will be built to treat 60% of flows along with other improvements like new screening, pumping stations, and controls. The project is a collaborative design-build effort between United Utilities and contractors to upgrade the works for the 21st century demands.
Rehabilitation of the Urban Water Supply and Sanitation in the Sava River Basin in Bosnia and Herzegovina, (BMZ ID 2002 65 876). Rehabilitation of Urban Water Supply Una-Sana region, Consulting Services (Part A)
City of Kostajnica WS & WW Project (KO 01): 10,429m of Transmission Main, City Network Pipelines (DI/PE DN63-300), 334nr House Connections, 33nr Air/Drain/Gate valves, 14nr Hydrants. 4,087m of combined system collector lines (corrugated HDPE100, SN8, DN300-1000mm), 66nr house connections, 88nr maintenance RC shafts, 3nr Storm Water Overflows, 5nr Outlet Structures.
Project Title: Rehabilitation of the Urban Water Supply and Sanitation in the Sava River Basin in Bosnia and Herzegovina, (BMZ ID 2002 65 876). Rehabilitation of Urban Water Supply Una-Sana region, Consulting Services (Part A)
Project Description: rehabilitation of Water Supply Systems & Sanitation on war affected areas. Drinking water supply network, total capacity: 61,600 m³/d, total number of inhabitants: 150,000, total length (transport mains and network): 45km of pipe main (ductile, PE), 1.500nr house connections; RC water reservoir Q=700m3, SCADA System. Sewage system works: 2nr of pump stations, 30km of network (HDPE), 800nr of house connections.
City of Kakanj WW Project (KA 01): 9,265m of Corrugated HDPE SN8 Pipes (DN250-1200), 265nr maintenance inspection RC shafts, 18nr backdrop shafts, 3nr Storm Water Overflows, 2nr Outlet Structures, 139nr House Collection Shafts, 496nr of households connected to new system.
The document describes a project to rehabilitate the sewer system in Kakanj, Bosnia and Herzegovina. The existing sewer system has several defects, including a low connection rate, improper connections, and discharge of untreated wastewater. The project involves constructing new sewer lines, rehabilitating existing lines, and connecting households to address environmental and public health issues. It provides details on the scope of work, including construction of sewer lines by zone and provision of equipment to the local water utility.
Understanding Inductive Bias in Machine LearningSUTEJAS
This presentation explores the concept of inductive bias in machine learning. It explains how algorithms come with built-in assumptions and preferences that guide the learning process. You'll learn about the different types of inductive bias and how they can impact the performance and generalizability of machine learning models.
The presentation also covers the positive and negative aspects of inductive bias, along with strategies for mitigating potential drawbacks. We'll explore examples of how bias manifests in algorithms like neural networks and decision trees.
By understanding inductive bias, you can gain valuable insights into how machine learning models work and make informed decisions when building and deploying them.
DEEP LEARNING FOR SMART GRID INTRUSION DETECTION: A HYBRID CNN-LSTM-BASED MODELgerogepatton
As digital technology becomes more deeply embedded in power systems, protecting the communication
networks of Smart Grids (SG) has emerged as a critical concern. Distributed Network Protocol 3 (DNP3)
represents a multi-tiered application layer protocol extensively utilized in Supervisory Control and Data
Acquisition (SCADA)-based smart grids to facilitate real-time data gathering and control functionalities.
Robust Intrusion Detection Systems (IDS) are necessary for early threat detection and mitigation because
of the interconnection of these networks, which makes them vulnerable to a variety of cyberattacks. To
solve this issue, this paper develops a hybrid Deep Learning (DL) model specifically designed for intrusion
detection in smart grids. The proposed approach is a combination of the Convolutional Neural Network
(CNN) and the Long-Short-Term Memory algorithms (LSTM). We employed a recent intrusion detection
dataset (DNP3), which focuses on unauthorized commands and Denial of Service (DoS) cyberattacks, to
train and test our model. The results of our experiments show that our CNN-LSTM method is much better
at finding smart grid intrusions than other deep learning algorithms used for classification. In addition,
our proposed approach improves accuracy, precision, recall, and F1 score, achieving a high detection
accuracy rate of 99.50%.
Introduction- e - waste – definition - sources of e-waste– hazardous substances in e-waste - effects of e-waste on environment and human health- need for e-waste management– e-waste handling rules - waste minimization techniques for managing e-waste – recycling of e-waste - disposal treatment methods of e- waste – mechanism of extraction of precious metal from leaching solution-global Scenario of E-waste – E-waste in India- case studies.
Using recycled concrete aggregates (RCA) for pavements is crucial to achieving sustainability. Implementing RCA for new pavement can minimize carbon footprint, conserve natural resources, reduce harmful emissions, and lower life cycle costs. Compared to natural aggregate (NA), RCA pavement has fewer comprehensive studies and sustainability assessments.
KuberTENes Birthday Bash Guadalajara - K8sGPT first impressionsVictor Morales
K8sGPT is a tool that analyzes and diagnoses Kubernetes clusters. This presentation was used to share the requirements and dependencies to deploy K8sGPT in a local environment.
Literature Review Basics and Understanding Reference Management.pptxDr Ramhari Poudyal
Three-day training on academic research focuses on analytical tools at United Technical College, supported by the University Grant Commission, Nepal. 24-26 May 2024
CHINA’S GEO-ECONOMIC OUTREACH IN CENTRAL ASIAN COUNTRIES AND FUTURE PROSPECTjpsjournal1
The rivalry between prominent international actors for dominance over Central Asia's hydrocarbon
reserves and the ancient silk trade route, along with China's diplomatic endeavours in the area, has been
referred to as the "New Great Game." This research centres on the power struggle, considering
geopolitical, geostrategic, and geoeconomic variables. Topics including trade, political hegemony, oil
politics, and conventional and nontraditional security are all explored and explained by the researcher.
Using Mackinder's Heartland, Spykman Rimland, and Hegemonic Stability theories, examines China's role
in Central Asia. This study adheres to the empirical epistemological method and has taken care of
objectivity. This study analyze primary and secondary research documents critically to elaborate role of
china’s geo economic outreach in central Asian countries and its future prospect. China is thriving in trade,
pipeline politics, and winning states, according to this study, thanks to important instruments like the
Shanghai Cooperation Organisation and the Belt and Road Economic Initiative. According to this study,
China is seeing significant success in commerce, pipeline politics, and gaining influence on other
governments. This success may be attributed to the effective utilisation of key tools such as the Shanghai
Cooperation Organisation and the Belt and Road Economic Initiative.
TIME DIVISION MULTIPLEXING TECHNIQUE FOR COMMUNICATION SYSTEMHODECEDSIET
Time Division Multiplexing (TDM) is a method of transmitting multiple signals over a single communication channel by dividing the signal into many segments, each having a very short duration of time. These time slots are then allocated to different data streams, allowing multiple signals to share the same transmission medium efficiently. TDM is widely used in telecommunications and data communication systems.
### How TDM Works
1. **Time Slots Allocation**: The core principle of TDM is to assign distinct time slots to each signal. During each time slot, the respective signal is transmitted, and then the process repeats cyclically. For example, if there are four signals to be transmitted, the TDM cycle will divide time into four slots, each assigned to one signal.
2. **Synchronization**: Synchronization is crucial in TDM systems to ensure that the signals are correctly aligned with their respective time slots. Both the transmitter and receiver must be synchronized to avoid any overlap or loss of data. This synchronization is typically maintained by a clock signal that ensures time slots are accurately aligned.
3. **Frame Structure**: TDM data is organized into frames, where each frame consists of a set of time slots. Each frame is repeated at regular intervals, ensuring continuous transmission of data streams. The frame structure helps in managing the data streams and maintaining the synchronization between the transmitter and receiver.
4. **Multiplexer and Demultiplexer**: At the transmitting end, a multiplexer combines multiple input signals into a single composite signal by assigning each signal to a specific time slot. At the receiving end, a demultiplexer separates the composite signal back into individual signals based on their respective time slots.
### Types of TDM
1. **Synchronous TDM**: In synchronous TDM, time slots are pre-assigned to each signal, regardless of whether the signal has data to transmit or not. This can lead to inefficiencies if some time slots remain empty due to the absence of data.
2. **Asynchronous TDM (or Statistical TDM)**: Asynchronous TDM addresses the inefficiencies of synchronous TDM by allocating time slots dynamically based on the presence of data. Time slots are assigned only when there is data to transmit, which optimizes the use of the communication channel.
### Applications of TDM
- **Telecommunications**: TDM is extensively used in telecommunication systems, such as in T1 and E1 lines, where multiple telephone calls are transmitted over a single line by assigning each call to a specific time slot.
- **Digital Audio and Video Broadcasting**: TDM is used in broadcasting systems to transmit multiple audio or video streams over a single channel, ensuring efficient use of bandwidth.
- **Computer Networks**: TDM is used in network protocols and systems to manage the transmission of data from multiple sources over a single network medium.
### Advantages of TDM
- **Efficient Use of Bandwidth**: TDM all
1. we plan the world of tomorrow
Dec 7, 2014
HYDRAULIC & ENVIRONMENTAL ENGINEERING PROJECTS
2. 7 dic 2014
SANITATION PROJECTS
The firm capabilities and experiences in the sanitary engineering sector
cover the following fields:
1. Potable water treatment plants (PWTPs)
2. Aqueducts and water supply systems
3. Sewerages
4. Waste water treatment plants (WWTPs)
3. 7 dic 2014
New Potable Water Treatment Plant
NEW POTABLE WATER TREATMENT PLANT FOR THE “CONZA
RESERVOIR” (AVELLINO, ITALY)
Services: Detailed design for the new PWTP with water intake from the Conza Reservoir (Avellino) and a
treatment capacity of 5’400 m³/h. In the design the initial aqueduct water tank, serving the following distribution
pipeline, and the feeding pipeline (ND 2’400 mm – 1’600 mm) from the potabilization plant were also
included
4. 7 dic 2014
Works on existing Potable Water Treatment Plant
COMPLETION WORKS AND UPGRADING OF THE PWTP OF
MEGARA AND THE DISTRIBUTION PIPELINES (SIRACUSA, ITALY)
Services: Topographic and Geological Surveys, Existing Plant Surveys, Final Design, Environmental Impact
Assessment and Health and Safety Plan for the enhancement of the existing potabilization plant to a
final treatment capacity of 1’980 m³/h and the distribution pipelines for the industrial and potable water
supply (overall length of 20 km)
5. 7 dic 2014
Aqueducts and water supply pipelines: Main Pipeline
CONSTRUCTION OF THE “GELA – ARAGONA” ACQUEDUCT
(ITALY)
Services: Detailed and Final Design and Work Supervision in the renewal of the entire water supply main,
replacing the existing fiberglass piping with a ductile iron and stainless steel AISI 316 pipes. The overall length of
the aqueduct is 100 km, with maximum diameter pipes of 500 mm. The adopted technologies
of construction comprised both open trench and directional drilling. For the trenchless technology the
Directional drilling of the Piano Vento site,1.400 m long, represents the longest case in Italy. The total
capacity of the storage tanks is about 40.000 m³
6. 7 dic 2014
Aqueducts and water supply pipelines: Distribution Pipeline
UPGRADING OF THE POTABLE WATER DISTRIBUTION
NETWORK FOR THE TOWN OF PALÙ (VERONA, ITALY)
Services: Detailed and Final Design and Work Supervision for the upgrading of the existent water supply network
for the town of Palù (Verona) with the provision of a new ductile iron main pipeline (ND 200 mm, length
of 4’700 m) and HDPe distribution pipelines (ND 110 mm, overall length of 1’750 m)
7. 7 dic 2014
Irrigation water supply lines: Treated Sewage Effluent pipelines networks
NEW TSE NETWORK FOR URBAN IRRIGATION PURPOSES IN 8
PACKAGES OF THE CITY OF DOHA (QATAR)
Services: Preliminary design for the new urban irrigation system with Treated Sewage Effluent (TSE) for the
road landscaping in 8 Packages of the City of Doha. The network is made of ductile iron pipes for an
overall length of 180 km and the design of the irrigation system has been based on the water
requirements for the different species used in the landscaping
8. 7 dic 2014
Sewerage: Combined Sewerage Main Collection Pipelines
CONSTRUCTION OF THE NEW SEWERAGE NETWORK FOR THE
TOWN OF TODI (PERUGIA, ITALY)
Services: Detailed design and Environmental Feasibility Study of the new sewage main collection network for the
town of Todi (Perugia). The new sewerage pipelines (gravity and pressure systems), with a on overall
length of 18 km and 9 pumping stations, will connect all the existing small WWTPs in order to centralize
the treatments in the new WWTP of Porchiano (treatment capacity of 25’000 p.e.).Particular attention
has been given to the resolution of interferences such as roads, railways and water streams, adopting
overpassing on the existing structures (i.e. Fiume Tevere) or directional drilling technology
9. 7 dic 2014
Sewerage: Foul sewerage for Urban Area
NEW URBAN SEWERAGE NETWORK FOR 8 PACKAGES OF THE
CITY OF DOHA (QATAR)
Services: Preliminary design for the new foul sewage for 8 Packages of the City of Doha (Qatar) based on both
gravity and pressure pipeline system. For the gravity network Vitrified Clay pipes have been chosen with
an overall length of 200 km. In this networks, trenchless technologies such as Micro-Tunneling has
been adopted for a total length of 18 km. Ductile iron pipes have been used for pressurized network (about 2
km), in which 6 pumping stations have been foreseen
10. 7 dic 2014
New WWTP with Conventional Activated Sludge Processes Technology – Small Size
Preliminary Treatments
Activated Sludges Biological Treatments
Sludge stabilization line
Effluent disinfection and final discharge
PACKAGED WASTE WATER TREATMENT PLANTS FOR SMALL
TOWNS IN LITORALE DOMITIO AREA (CASERTA, ITALY)
Services: Detailed design for new decentralized WWTPs up to 500 p.e. serving the new sewerages in the towns
of Borgo Centore, Casamare and Cappella Fasani within the Litorale Domitio Area, based on precast packaged
plants with extended aeration for the biological treatment processes and final effluent disinfection
11. 7 dic 2014
New WWTP with Conventional Activated Sludge Processes Technology – Medium Size
WASTE WATER TREATMENT PLANT FOR “VALLE DELTORBIDO”
TOWNS IN GIOIOSA JONICA (REGGIO CALABRIA, ITALY)
Services: Preliminary design for a new centralized WWTP for 25’000 p.e. (Winter) and 40’000 p.e. (Summer)
serving the towns along the “Valle of Torbido”, based on Conventional Activated Sludge (C.A.S.)
biological treatment processes, with the realization of new sewerage collection pipeline network, revamping of the
existing pumping station and provision of a new submarine outfall in the Ionian Sea
12. 7 dic 2014
New WWTP with Conventional Activated Sludge Processes Technology – Big Size
WASTE WATER TREATMENT PLANT FOR WASTE WATER
MANAGEMENT PROJECT OF THE CITY OF LESKOVAC (SERBIA)
Services: Detailed design for a new WWTP for 89’000 p.e. (PHASE I) and 129’000 p.e. (PHASE II), foreseen in the
Wastewater Management Project for the City of Leskovac, based on C.A.S. processes for nutrients
removal and provided with sludge management units such as anaerobic digestion with biogas
production and electricity co-generation, sludge dewatering and lime stabilization
13. 7 dic 2014
Works on existing WWTP with Conventional Activated Sludge Processes Technology – Medium Size
UPGRADING OF THE EXISTING WASTE WATER TREATMENT
PLANT IN CASTIGLIONE DEL LAGO (PERUGIA, ITALY)
Services: Detailed design and Environmental Feasibility Study of the enhancement of the existing “Madonna del
Soccorso” WWTP in Castiglione del Lago from 17’000 p.e. to 35’000 p.e., with upgrading of the
suspended solids, nitrogen and phosphorous removals and effluent disinfection, in according to the
discharge limits into the Lake Trasimeno
14. 7 dic 2014
Works on existing WWTP with Conventional Activated Sludge Processes Technology – Big Size
ENHANCEMENT OF THE EXISTING WASTE WATER TREATMENT
PLANT OF NOVARA (ITALY)
Services: Technical services for the enhancement works on the existing WWTP of Novara (170’000 p.e.) made to
allow an high efficiency in the nitrogen removal. The main works concern the realization of a
intermediate pumping station with an overflow by-pass, the construction of a new denitrification and
oxidation- nitrification basins based on C.A.S. biological process, the installation of a new sludge decanter for the
mechanical sludge dewatering operations and the revamping of the electrical parts
15. 7 dic 2014
Works on existing WWTP with Conventional Activated Sludge Processes Technology – Big Size
ENHANCEMENT OF THE EXISTING WWTP OF NOVARA (ITALY)
•Incoming waste water flow of 50,000 m3/day of wich 43% from industrial discharges
•Enhancement of the C.A.S. process with additional pre-denitrification and nitrification-oxidation basins
•Innovative high technology final process units using microfiltration (disc filters) and UV lights disifinfection
•Realization of landfilll leachate recevie, storage and dosing units, with a daily handling capacity of 420 m3
16. 7 dic 2014
New WWTP with Innovative Biological Treatment Technology: MBR
NEW CIVIL WASTE WATER TREATMENT PLANT WITH MBR
TECHNOLOGY FOR PORT OF NAPLES (ITALY)
Services: Preliminary and Detailed design, Environmental feasibility Study and Building Permit Approval
Documentation for a new WWTP for 6’000 p.e., serving the new sewerage network, provided with
membrane filtration unit after the activated sludge process (MBR – Flat Sheet)
17. 7 dic 2014
New WWTP with Innovative Biological Treatment Technology: MBR
NEW CIVIL WASTE WATER TREATMENT PLANT WITH MBR
TECHNOLOGY FOR PORT OF NAPLES (ITALY)
Services: Preliminary and Detailed design, Environmental feasibility Study and Building Permit Approval
Documentation for a new WWTP for 6’000 p.e., serving the new sewerage network, provided with
membrane filtration unit after the activated sludge process (MBR – Flat Sheet)
18. 7 dic 2014
Works on existing WWTP with Innovative Technologies: MBR and MBBR BIOFILTRATION
COMPLETION AND UPGRADING OF THE WASTE WATER
TREATMENT PLANT OF ROZZANO (MILANO, ITALY)
Services: Preliminary and Detailed design, Environmental Impact Assessment and Tendering Documentation for
the upgrading of the existing WWTP to 115’000 p.e. (32,000 m3/d), in according to the new required
discharge limits for nutrients and suspended solids. To limit the occupation of new areas, the existing
structures have been used adopting innovative technologies such as Biofiltration. For the new treatment
lines the MBR technology, characterized by high efficiency and low footprint, has been foreseen
19. Works on existing WWTP with Innovative Treatment Technologies
11
22
33
44
7 dic 2014
1 ACCELERATED CLARI-FLOCCULATION: solids abatment up to 70%, with less chemical consumption
2 ULTRA FILTRATION MEMBRANE SYSTEM: complete solids removal and effluent disinfection with 60% of space
saving
3 BIOFILTRATION UNIT: high reductions, less than 10 mg/l for BOD and Solids and 1 mg/l for Ammonia and
Nitrogen
20. 7 dic 2014
Air treatment and odor control systems: Waste Water Treatment Plant Odor Control
ODOR CONTROL AND REDUCTION FOR THE WWTP OF
PORTO TORRES (SASSARI, ITALY)
Services: Topographic Surveys, Preliminary and Detailed Design, Health and Safety Plan and Work Supervision
of the deodorization plant for the Cassis industrial WWTP characterized by incoming waste water
from oil and chemical activities. The foreseen deodorization system is able to treat an air flow of
18’000 Nm3/h, with chemical double stage scrubbing unit followed by adsorbing filter
21. 7 dic 2014
Air treatment and odor control systems: Waste Water Treatment Plant Odor Control
ODOR CONTROL AND REDUCTION IN THE WWTP OF SAVONA
(ITALY)
Services: Detailed and Final Design and Work Supervision of the deodorization plant for the Savona WWTP
after the connection with the sewage of the town of Finale Ligure. The foreseen deodorization
system is able to treat an air flow of 16’000 Nm3/h, with a chemical “three-stage” scrubbing unit