MWH Soft Releases V9 of H2ONET for AutoCAD 2010

“Enhanced Applications, New Functionality Maximize Productivity and Make Working with Complex Models Faster, Easier Than Ever.”

MWH Soft, a leading global innovator of wet infrastructure modeling and simulation software and technologies, has announced the worldwide availability of H2ONET Generation V9 for AutoCAD® 2010 (Autodesk, San Rafael, CA). The updated release heightens the value of H2ONET with significant advances and usability improvements. The result is an enhanced user experience, increased flexibility and computational speed, and the facilitation of greater productivity and performance.

The new version marks the most significant milestone to date in the evolution of the company’s CAD-based product line, now an industry standard for comprehensive water distribution engineering and a premier choice of major ENR design firms and utilities around the world. Praised for its intuitive, seamless AutoCAD-centric interface, outstanding power and stability, and comprehensive toolsets and extensions, H2ONET has received stellar industry recognition. The new release underscores MWH Soft’s commitment to be the leading provider of infrastructure modeling solutions for engineering professionals working in the powerful AutoCAD environment.

New and improved functionality and unique ease-of-use tools — developed in response to numerous customer requests — make V9 an incredibly powerful and indispensable modeling and design solution. In addition to gains in overall performance, stability, and interoperability, H2ONET V9 also utilizes the new AutoCAD 2010 ribbon toolbar structure to create an even stronger and more dynamic user experience.

Built atop AutoCAD, the world’s leading CAD platform, H2ONET delivers breakthrough performance in integrated real-time network modeling, GIS data exchange, spatial database query and analysis across multiple data types. It also provides the sophisticated mapping required for complete infrastructure management and business planning. Its pioneering functionality, full capability range, and state-of-the-art computational algorithms allow engineering professionals to directly access CAD and GIS datasets; extract pertinent modeling information; and automatically construct, skeletonize, load, calibrate, analyze, design, operate and optimize any network model — saving time and money across the enterprise. Such capabilities can greatly assist water utilities in complying with drinking water quality regulations, understanding and controlling taste and odor problems, developing cost-effective energy solutions for water system operations, improving system reliability and integrity, optimizing capital improvements.

These enhancements have propelled H2ONET product suite applications into the next generation. They further MWH Soft’s time-honored practice of continually adding value to its software; bringing new, unsurpassed modeling and design capabilities into the mainstream; and backing its advances with unparalleled technical support. The suite has the robustness, speed, accuracy and feature set necessary to handle the most demanding analysis. Yet it’s intuitive enough for a new user to master without a drawn-out learning curve — making it the ultimate AutoCAD-based decision support tool for water distribution systems.

“For over a decade, we have evolved H2ONET to meet the demands of our customers and take them step after step further,” said Paul F. Boulos, Ph.D., Hon.D.WRE, F.ASCE. “Our customers have found extremely progressive ways to use H2ONET. We continue to build their feedback into our latest innovations, tailoring this industry-leading AutoCAD-centric modeling platform to best serve their network management challenges.

“In H2ONET V9, we have developed a powerful, comprehensive tool that addresses the entire modeling process, from model building and analysis all the way through design and optimization. We will continue to listen to our customers and aggressively respond to their needs.”

Energy Recovery, Inc. Signs Definitive Agreement To Acquire Pump Engineering, L.L.C.

“Combined Offering Expands ERI Product Portfolio and Desalination Addressable Market; Accelerates Growth into New Markets.”
Energy Recovery, Inc., a leader in the design and development of energy recovery devices for the desalination industry, has announced that it has entered into a definitive agreement to acquire all of the equity interests of Pump Engineering, L.L.C. based in New Boston, Michigan. Under the terms of the agreement, ERI will pay the shareholders of Pump Engineering approximately $20 million in cash plus one million shares of ERI Common Stock. The completion of the transaction, which is subject to satisfaction of customary conditions, is expected to take place in the fourth quarter of 2009.

Pump Engineering is a leading provider of centrifugal turbine energy-saving technology for seawater and brackish desalination applications, and has demonstrated support for emerging markets such as natural gas and high pressure fluid processing. Pump Engineering’s hydraulic turbochargers and pumps are custom-designed to reduce energy consumption and increase efficiency in specific process conditions. Much like ERI’s line of PX energy recovery devices, Pump Engineering’s products are simple to operate, durable and require a small footprint in a plant.

“ERI’s acquisition of Pump Engineering is aligned with our growth strategy of expanding our product offerings and addressing potential new markets. It allows ERI to offer our clients multiple complementary technologies that are unmatched in the industry,” said ERI President and CEO G.G. Pique. “This acquisition underscores ERI’s commitment to lead a global effort to prove that desalination is an affordable, environmentally sound and energy-efficient answer to the growing water crisis. Pump Engineering is the leading, high-quality energy recovery device solution in areas where the cost of power is low and the customer is more sensitive to the up-front capital cost. With dedicated sales and marketing, technical and support teams, the combined client base will benefit from a total solution package with enhanced customer service capabilities and a wider breadth of technical expertise in R&D. We can now supply any desalination project in the world with the most appropriate energy recovery device.”

ERI believes that the acquisition of Pump Engineering will enhance the Company’s competitive position and broaden its addressable market by:

Providing the desalination industry with superior quality energy recovery technologies that deliver proven, best-in-class solutions for isobaric and centrifugal devices for both seawater and brackish reverse osmosis applications.

Expanding ERI’s product portfolio to offer a more complete suite of energy-saving solutions that cover a larger footprint in the brackish and seawater desalination markets.

Designing, manufacturing and selling packaged solutions that integrate high pressure pumps, circulation pumps and energy recovery devices to offer a complete solution for a power train in a desalination plant.

Increasing market share with an expanded suite of products in regions where the cost of power is low and up-front capital cost considerations take precedence over operating costs.

Combining the two industry-leading technologies and their comprehensive ongoing R&D efforts to develop next generation products.

Pursuing new applications outside of seawater and brackish desalination, such as natural gas and high pressure fluid processes where the centrifugal technology has unique advantages.

“The acquisition of Pump Engineering and its capability to manufacture high pressure and circulation pumps for desalination applications means ERI can now offer clients a single-source solution for the entire power train in a desalination plant,” said Borja Blanco, Senior Vice President of Sales at ERI. “This opens up tremendous market opportunities for us. We are excited to expand our worldwide reach and market penetration by combining Pump Engineering’s global network of agents with our extremely capable direct sales team to take advantage of the broader suite of products and solutions that this acquisition provides.”

Pump Engineering’s turbine technology can be applied to new and substantially larger addressable markets outside of the water treatment markets such as natural gas and other high pressure fluid processes. Similar to the desalination process, these markets also have high-pressure streams where significant energy can be saved; however they are very sensitive to cross-contamination. The turbine design provides 100 percent isolation of the process streams making it a good fit for these future applications.

“We’re delighted with ERI’s validation of Pump Engineering’s technology and overall market strategy,” stated Robert Oklejas, Founder and President of Pump Engineering. “For the past 23 years, our employees have been dedicated to designing a very high quality technology that offers a cost-conscious energy saving desalination solution. Our customers around the world will benefit from the superior array of energy recovery solutions that our combined efforts and products will bring to the market.”

Pump Engineering is currently organized as a limited liability company. Its unaudited financial statements for its 2008 fiscal year ended December 31 show that the company generated $9.3 million in revenue and produced an operating margin of 10%. Pump Engineering expects to generate approximately $8 to $9 million of revenue in 2009 and approximately $13 to $15 million in revenue in 2010, including the Magtaa project in Algeria recently awarded to Pump Engineering. The estimated revenues for 2010 do not include the potential for synergistic sales of high pressure and circulation pumps to ERI’s OEM customers or sales into new applications outside of desalination.

ERI will host a conference call for investors to discuss this acquisition on Thursday, December 3, 2009 before the market opens at 5:30 a.m. PT (8:30 a.m. ET). The conference call will be in a “listen-only” mode for all participants other than the investment professionals who regularly follow the Company. The toll-free phone number for the call is 877-941-8610 or 480-629-9819 and the access code is 4189643. Callers should dial in approximately 15 minutes prior to the scheduled start time. A telephonic replay will be available at 800-406-7325 or 303-590-3030, access code: 4189643, until Wednesday, December 17, 2009. Investors may also access the live call or the replay over the internet at http://www.streetevents.com and http://www.energyrecovery.com. The replay will be available approximately three hours after the live call concludes.

Aquatech Awarded Major Thermal Desalination Project In Egypt

Aquatech has been awarded a contract to design and supply a Multiple Effect Distillation (MED) seawater desalination system for the Abu Qir Thermal Power Plant. The client, West Delta Electricity Production Company, and consultant PGESCo, specified MED technology for uninterrupted water supply to boilers after carefully studying all available desalination technology options.

The Desalination Facility at Abu Qir comprises of two (2) Multiple Effect Distillation with Thermal Vapor Compression (MED-TVC) units; each with a capacity of 5,000 cubic meters per day (net) and will supply 10,000 cubic meters of fresh water a day to the power station’s boilers and other users. Aquatech’s MED technology has been developed and improved over decades of in-house research and onsite experience worldwide and will provide an environmentally friendly solution keeping in mind a reduced carbon foot print.

Aquatech’s scope includes design, equipment supply, testing, and commissioning of two MED units complete with accessories to produce distilled water within a challenging schedule as demanded by the project. The plant will be located near Alexandria, will use seawater from the Mediterranean Sea to produce pure water with less than 5 mg/l total dissolved solids, and will use plant steam to provide energy to operate the desalination units. The plant is designed for a performance Gain Output Ratio (GOR) of 8.5 minimum.

Earlier this year Aquatech was awarded an industrial wastewater reuse project for a chemical facility by TCI Sanmar Chemicals LLC, located at Port Said. The system will be for the treatment and reuse of various wastewater streams generated from the process units.

The reuse system consists of the patented High Efficiency Reverse Osmosis (HEROTM) process which can withstand various impurities such as oil, grease, and organic constituents. The system will have a capacity of 8,500 m3/day and recovers over 90% of the water suitable for use within the complex for various processes. Aquatech has previously demonstrated the advantages of its HEROTM technology in projects for the recycle and reuse of water from effluents of refineries, power plants, petrochemical complexes, oil field produced water, and treated sewage, with recoveries exceeding 94% in some installations.

Advanced Pressure Exchanger Technology For SWRO Desalination Becomes More Affordable

Isobaric Strategies Inc. (ISOBARIX), a Delaware corporation has been formed by a group of international investors to commercialize a second generation Pressure Exchanger invented by Leif J. Hauge. Among new proprietary design features is a patented central axel for rotor positioning rather than a sleeve, allowing for 60% larger flow. Recent ERD market survey by GWI (Global Water Intelligence) and contract awards suggest isobaric energy recovery is yielding market shares to hydraulic energy converters. The new high flow device applies proven ceramic engineering and will be introduced to the SWRO desalination market with higher performance at substantial lower cost. Market acceptance is expected to be rapid as today’s market is 30 times larger than in 1998 and pressure exchangers have solid track record.

Osmotic Power is another coming application, currently pioneered by renewable power giant Statkraft that depends on low cost and large flow pressure exchangers. The world’s first prototype osmotic power plant is starting operation in the fjord of Oslo in Norway today and a large commercial plant could be operating within 2015.

Leif J. Hauge, founder and past President of Energy Recovery, Inc., invented and introduced the pressure exchanger technology to the SWRO market before leaving ERII in 2000. After lengthy litigation, all of his Pressure Exchanger patents prior to the date of settlement March 7, 2001 were assigned to ERII without future right to patents or improvements.

As the original inventor of the pressure exchanger technology, he was awarded the EDS inaugural Sidney Loeb Award for Innovation in 2006 and has published numerous articles on the subject. The technology has been material to the growth and leverage of SWRO in recent years and offers cost effective solution to excessive energy consumption and allows more than a doubling of train production with same size high pressure feed pump.

Bermuda is a typical island ocean resort community that depends on desalination and Jon Burull, Vice President of Bermuda Waterworks Ltd. has no regrets making an early choice of pressure exchanger technology and offered this remark: “After successful operation of a 750 m3/D SWRO train with pressure exchangers in 1999, we decided to replace our 2 x 1,500 m3/D trains using positive displacements pumps and Turbo Chargers with 4 x 750 m3/D trains using Grundfos BM pumps and 12 pressure exchangers manufactured by Hauge Technologies, Inc. This design resolved a persistent ground vibration issue and improved energy efficiency. Mostly all original pressure exchangers are still in operation today, which testifies to the durability and reliability of a single moving ceramic rotor.”

ABS Turbocompressor HST Brings Higher Efficiency And Cost Savings For China Guangdong Dongguan Town WWTP Phase III

ABS Shanghai Co., Ltd wins a tender to supply seven units of ABS turbocompressors HST9000 at the Guangdong Dongguan Town wastewater treatment plant.

“The ABS turbocompressor HST was chosen because of the cost savings from the very low maintenance costs and higher efficiency.  It’s Magnetic Bearing technology and oil free construction requires minimal maintenance, saving time and money to the end user,” said Sammy Yang, Area Sales Manager.

Both ABS turbocompressor HST and HV Turbo were used in the previous phases of the Dongguan Town WWTP project.  The positive experience and ease of use from the end user in the previous phases of the Dongguan Town WWTP project reinforces the superiority of the ABS turbocompressor HST over the other blowers used.

Contact:
kitlee.chong@absgroup.com

New Product – In Ground Filtration Tanks

TEKIMSAN LTD. STI. has announced its new ready to supply product: IN-GROUND FILTRATION TANKS.

Pina inground filtration unit offers already assembled system and ready to install product with strong fiberglass shell and rain-proof design. The system includes; a fiberglass laminated side mounted sand filter, a thermoplastic pump, valves battery for suction and return lines and as default chlorine feeder device, in addition to the standard units; optionally a control board is able to supplied.

TEKIMSAN LTD. STI., has been producing swimming pool equipmentsand PVC Pipe Fittings in Istanbul, Turkey for 27 years. Today, our patented brand PINA is well-distributed in Turkey as well as in 36 different countries worldwide.

Contact:
info@tekimsan.com.tr

Link:
Pina In Ground Filtration Tank Technical Document

Ion Exchange Launches New Resins

Ion Exchange (India) Ltd. has expanded its wide range of INDION resins with the successful development and commercialisation of several new resins and adsorbents which find applications in diverse industries including process, bio-technology, chlor alkali and pharma industries.

Polymeric Adsorbents: Working on the Vander Waats forces principle, polymeric adsorbents INDION PA 500 & INDION PA 800 are capable of removing non-polar substances from polar streams.  They are extremely effective in replacing activated carbon, and thus successfully address the carbon disposal issues faced by industry.  Moreover, the surface of the adsorbents can be reactivated for repeated use, offering a distinct cost and environmental benefit.

These polymeric adsorbents have been well received by process industries as well as the bio-technology and pharma industries for applications such as removal of phenol from hydrochloric acid, removal of polyphenol and chlorophyll from herbal extracts and removal of non-polar impurities from fermentation broth.

Brine Softening Resin: INDION BSR was developed to address the problem of membrane fouling in the chlor alkali industry. The membranes used in the membrane cell based manufacturing process in the chlor alkali industry are very expensive but highly susceptible to fouling by the Ca and Mg present in the brine. By reducing the Ca & Mg in the brine to acceptable limits, INDION BSR effectively eliminates the problem of membrane fouling, and has been found a very effective solution by many manufacturers.

Indicator Grade Mixed Bed Resins: This indicating variant which makes the resin change colour on exhaustion, has been introduced to increase user friendliness of mixed bed resins.  This range of mixed bed resins with colour change indicators is targeted at the medium and light industries, where elaborate testing laboratory set ups are not needed or not available.

Catalyst Grade Resin: The applications for INDION 190 catalyst grade resin have been expanded to the bio-diesel manufacturing process where it has proved to be very successful in the esterification of free fatty acids.  It had been earlier used effectively as a catalyst in the alkylation of phenols, camphor manufacturing as well as other esterification processes.   This product eliminates the need to use sulphuric acid thereby reducing the many related hassles of handling and disposal.

Kathabar Dehumidification Systems Deliver Temperature And Humidity Control To Water Treatment Facilities

Kathabar liquid and dry desiccant dehumidification systems deliver precise, reliable energy-efficient temperature and humidity control to water treatment facilities in pumping stations, pipe galleries, water filtration areas, and chemical storage rooms.  Kathabar systems can prevent condensation; stop rusting & deterioration; extend the life of steel pipes, controls, and valves; and eliminate the need to insulate pipes.  These dehumidifiers also provide critical bacterial control; capturing most airborne bacteria, viruses, and mold.

All Kathabar equipment is made of Fiber Reinforced Plastic (FRP) with industrial grade construction to provide less maintenance and long equipment life.  Kathabar liquid desiccant systems, most efficient when cool or cold dry air is desired, can handle airflows from 750 to 84,000 CFM. Kathabar dry desiccant systems, most effective when less cooling is required, can handle capacities up to 60,000 CFM.

Niagara Blower is a design-build manufacturer providing engineered solutions to heat transfer applications at power, process, refinery, food and brewing facilities worldwide since 1904.  Niagara’s customized product lines include WSAC™ closed-loop, evaporative coolers and condensers and “No-Frost”® liquid desiccant dehumidification systems.  For more information, contact Niagara by phone at 716-875-2000, by email at sales@niagarablower.com, or visit http://www.niagarablower.com

India’s water need to be double the supply in 20 years

In the next two decades, global water consumption will increase from the present 4,500 billion cubic metres (bcm) to 6,900 bcm. This will be 40% more than the estimated reliable and sustainable supply today, if no action is taken to conserve water and use it more efficiently. This is the conclusion of a study on the global water scenario by international consultancy McKinsey, in collaboration with the World Bank affiliate, International Finance Corporation.

The study, released on Monday in Washington, was sponsored by several global food and beverage corporations who have often faced criticism by development activists for pushing unsustainable water use.

The situation in India will be dire as water demand will grow annually by 2.8% to reach a whopping 1,500 bcm while supply is projected at only about 744 bcm, that is, just half the demand, according to the report. This increase will be driven by domestic demand for rice, wheat, and sugar for a growing population, and a growing demand for a better diet. As a result, most of India’s river basins could face severe deficit by 2030, with some of the most populous, including the Ganga, the Krishna, and the Indian portion of the Indus facing the biggest absolute gap.

Four countries/regions have been studied in greater detail in the report: India, China, South Africa and Sao Paulo state in Brazil. Together, they represent 30% of world GDP and 42% of global water demand projected for 2030.

The looming water crisis is closely tied to food availability with 71% of current water usage going for agriculture. India and sub-Saharan Africa, where the bulk of the world’s poor live, are also areas where nearly 66% of global water use for agriculture takes place.

According to the report, the total gap between demand and supply will be about 2,800 bcm in 2030, if everything remains as it is today. About 40% of the gap will be closed by improvements in water production and efficient usage of the kind that is taking place today. So, the report predicts, an additional effort is needed to bridge the remaining gap of about 1,680 bcm.

What can be done to bridge the gap? The report says concerted efforts are needed to use water more efficiently in mainly three major areas of consumption: agriculture, industry and municipal/domestic. In agriculture, which is the main concern for India, the package of well-known measures includes drip- and sprinkler-irrigation to control present flood irrigation, integrated pest management, rationalization of fertilizer use, genetic crops for both rain-fed and irrigated lands, artificial recharge and scientific drainage systems to use rainwater efficiently. All these are low-cost measures. About 80% of the shortfall in water in 2030 could be covered by these measures, the report suggests.

Source: Times of India, 24 November 2009

NSF International Celebrates 65 Years of Protecting and Improving Human Health

One of the Most Trusted Names in Public Health for Food and Water Safety Since 1944

NSF International is celebrating 65 years of protecting and improving human health and safety worldwide.

Since its founding in 1944, initially as part of the University of Michigan’s School of Public Health, but now an independent, not-for-profit, NSF International has become one of the most trusted names in human health.  NSF writes national public health standards and certifies products to help ensure the safety of food and drinking water, dietary supplements, and consumer goods.  Widely recognized for its scientific and technical expertise in the environmental and health sciences, NSF is a World Health Organization Collaborating Centre for Food and Water Safety, and Indoor Environment.

NSF’s heritage dates back to November 1944 when two professors from the University of Michigan, and a public health official from Toledo, Ohio, established NSF. NSF’s founders – Walter Snyder, Henry Vaughan, and Nathan Sinai – saw a need to standardize public health requirements for foodservice equipment. They developed a framework that enabled the participation of all involved parties – regulators, manufacturers and consumers – in developing these safety standards.  The transparent, consensus-based process they established to develop NSF’s first standards, which addressed the sanitation of soda fountain and luncheonette equipment, became the process by which NSF developed other public health and safety standards.

Since that time, NSF has developed more than 72 American National Standards to protect food and water, dietary supplements, pools and spas, and consumer goods. Part of NSF International’s legacy was assisting the U.S. Environmental Protection Agency’s (EPA) water treatment and distribution systems program in the 1980’s to improve national drinking water standards by evaluating products that come in contact with drinking water. A majority of states now require drinking water products, such as plastic, plumbing and water filters, to be certified to NSF standards.

The next step was to ensure that all standards were maintained, which led to the development of certification programs for a wide-range of products beginning in commercial kitchens with foodservice equipment, and expanding into residential kitchen appliances and utensils, organic foods, and throughout the home with plastic and plumbing products, water filters, nutritional ingredients, pool and spa equipment, and most recently, with green building materials. To maintain certification, many of these areas mentioned are also supported with independent, third-party audit programs, which examine manufacturing processes and systems for compliance to maintain certification to standards. Another service extension occurred in the 1990’s when International Strategic Registrations (ISR) was created. Today, NSF conducts testing for all programs in its state-of-the-art laboratories and has more than 850 professional, technical and audit employees, operating in five continents, serving clients worldwide.

NSF International began developing standards at a time when few national sanitation and human health standards existed in the U.S. Today, NSF remains at the forefront, developing standards and certification programs that address important public health issues worldwide. As NSF develops new human health and environmental programs and expands operations to other regions of the world, it remains dedicated to its mission of “protecting and improving human health.”

ITT systems will supply fresh water to Mexican oil platform

ITT Corporation has announced that it has been awarded a contract to provide turnkey potable and process water treatment systems to a Mexican platform designed by Dragados Offshore Mexico. The contract is valued at $2.6 million, and will supply pumps and extensive treatment systems for an offshore oil platform in the Bay of Campeche. The project includes ITT Goulds pumps and ITT C’treat water process systems necessary for maintaining life support systems on-board, including drinking water and process water.

“The main focus on a platform is oil production, but if critical support systems fail, production stops,” said Dragados Offshore Mexico Project Director Jose A. Garcia-Figueras. “The water systems we install must be made of reliable equipment to ensure that freshwater availability does not become a concern for platform managers. We are confident that ITT’s C’treat will deliver on that promise.”

ITT C’treat has 30 years of experience in providing freshwater systems to the offshore petroleum industry. The company’s desalination products and complete water systems are installed on hundreds of offshore platforms around the world. Dragados Offshore Mexico selected ITT C’treat for this project as a single-source OEM to provide the entire water treatment process system. Components include:

• Submersible seawater lift pumps. Pumps, riser piping and packaging of ITT Goulds Pumps, including all engineering design work, assembly and testing by ITT C’treat.
• Seawater hydropneumatic system. Maintains and equalizes the pressure of the seawater systems employing custom built ASME X rated fiber reinforced plastic pressure vessels.
• Sodium hypochlorite generator. Generates chlorine from seawater to disinfect the potable and process water supply.
• Seawater filters. A coarse filtration system that removes debris larger than 1000 microns, and a secondary fine filtration system that removes particles greater than 25 microns.
• Reverse osmosis watermakers. Two custom-built C’treat reverse osmosis watermakers to desalinate seawater; each producing up to 26,400 gallons (100 m3) of potable water per day.
• Potable water pumps. Two ITT Goulds Pumps Model 3700 API pumps to supply drinking water from the storage tanks to the tap.
• Potable water hydropneumatic system. Maintains and equalizes the pressure of the drinking water systems employing ASME X rated fiber-reinforced plastic pressure vessels.
• Barge water filter. A custom-built system to filter water supplied from external sources.

“C’treat has long been recognized as the global leader of watermakers to the offshore oil and gas industry,” said Tom Vanden Heuvel, general manager of ITT C’treat Offshore. “This project demonstrates our broader capability as an OEM of complete water systems. We stay true to our core design philosophy of simplicity and reliability for the ease of use of our customers.”

ITT C’treat Offshore water systems and products are backed by a global network of service and support. To learn more, visit www.ctreat.com.

Last Call for Stall Booking at India’s Largest Water Expo

7-9 January 2010, Chennai Trade Centre, Chennai, India

The largest water & wastewater show in India is sold out. With an overwhelming response to the 7th EverythingAboutWater Expo 2010, an additional Stall Display Area has been introduced for the last minute exhibitors. This last call is the final opportunity for water companies to book a stall and participate in this mega event. As the space would be allocated to exhibitors on first come first serve basis, it would be a matter of time when the organizers shall run out of the additional limited space too.

Contact

Email: enquiry@eawater.com
Tel: +91 11 4310 0517/0519

Download Brochure

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