WATER AND WASTEWATER SOLUTIONS FOR THE OIL AND GAS INDUSTRY

  • Water Is Energy

    More than 2,000 years ago, Greek and Roman engineers harnessed the power of water to drive grain mills, and the technology soon spread as far as China, where it was used to forge iron. By the 4th century, the Romans had scaled up water wheel technology to build a massive flour plant in Arles, France, powered by 16 overshot water wheels. During the Renaissance, Leonardo da Vinci sketched out visions of water-driven sawmills, forges, factories, and spinning works.

  • Innovation In Applying Existing Technology Solutions

    A long-standing staple — water — is rapidly becoming a major issue for companies, not merely as a risk or line item expense, but for the potential it has to significantly impact shareholder value.  

  • A Better Option For Water Transfer In Oil And Gas Applications

    Until recently, it was difficult to find an optimal meter for the harsh conditions that can occur during water transfer in oil and gas applications. The good news is that an effective, accurate, and rugged meter is emerging as an alternative.

  • New Tech Offers Low-Energy Oil And Gas Wastewater Management

    Microbial capacitive deionization (MCD) shows promise as a sustainable, low-cost treatment solution for produced water.

  • Advanced Aeration In Hydraulic Fractured Water Impoundments

    With so much attention paid to the fate of frack water — how it’s handled and cleaned — it’s time to consider the effectiveness of prevailing treatment methods.

WATER AND WASTEWATER SOLUTIONS FOR THE FOOD AND BEVERAGE INDUSTRY

WATER AND WASTEWATER SOLUTIONS FOR THE POWER GENERATION INDUSTRY

  • From Waste To Power: How Floating Solar Panels On Wastewater Ponds Can Secure Electricity

    Wastewater ponds may seem an unlikely place to look for solutions an electricity security crisis. But their underutilized surfaces could help tackle two problems at once — high power prices and algal growth.

  • Water Is Energy

    More than 2,000 years ago, Greek and Roman engineers harnessed the power of water to drive grain mills, and the technology soon spread as far as China, where it was used to forge iron. By the 4th century, the Romans had scaled up water wheel technology to build a massive flour plant in Arles, France, powered by 16 overshot water wheels. During the Renaissance, Leonardo da Vinci sketched out visions of water-driven sawmills, forges, factories, and spinning works.

  • The Future Of Hydroelectric Power: Balancing Generation With Environmental Impact As global climate goals and the environmental impact of hydroelectric systems draw increased attention, the conversation for energy leaders and water resource professionals has shifted from expansion to optimization, where smarter infrastructure and adaptive strategies must work together to reduce harm without compromising output.
  • How Energy Choices Influence Water Quality

    Using earth-friendly energy and conserving water supports the fight against climate change and preserves our freshwater reserves.

  • Can Co-Locating Utilities Solve The Water-Energy Nexus?

    Resources being a scarce commodity, it’s incumbent upon us to optimize the use of water and energy as best we can. While conservation is the prime course of action for the public, the best solution for utilities may be to work smarter — by having the water-energy nexus work for us instead of against us.

WATER AND WASTEWATER SOLUTIONS FOR INDUSTRY

  • From Waste To Power: How Floating Solar Panels On Wastewater Ponds Can Secure Electricity

    Wastewater ponds may seem an unlikely place to look for solutions an electricity security crisis. But their underutilized surfaces could help tackle two problems at once — high power prices and algal growth.

  • Niederzeuzheim WWTP Case Study The villages of Oberzeuzheim and Niederzeuzheim, Germany are served by the Niederzeuzheim wastewater treatment plant. The plant was originally designed as a nitrification facility for a population of approximately 3,000.
  • How Much Water Is Really Used In Food And Beverage Production?

    People concerned about their water footprint often make an effort to turn the faucet off quickly, take shorter showers, and cut back on watering the lawn.

  • How The Semiconductor Industry Is Becoming Greener

    About 10 years ago, copper replaced aluminum for back end of line (BEOL) interconnects in the semiconductor industry. The downside of using copper for improved semiconductor performance is that it created a copper rich effluent from electroplating that is considered hazardous waste.

  • Retail Strategy: A New Focus On Hazardous Waste Regulations

    America’s hazardous waste management program ensures the safe management of hazardous waste from the “cradle to the grave”. Many of these regulations were developed more than three decades ago, so it is important we ensure they continue to effectively protect human health and environment into the future.

  • Aire-O2 Triton® TR Series Combined With Diffused Aeration Improves Chemical Effluent Quality

    Daurala Organics Limited, a chemical producer in Daurala, India, managers 2780m3/d flow in their activated sludge process plant.

  • Water Is Energy

    More than 2,000 years ago, Greek and Roman engineers harnessed the power of water to drive grain mills, and the technology soon spread as far as China, where it was used to forge iron. By the 4th century, the Romans had scaled up water wheel technology to build a massive flour plant in Arles, France, powered by 16 overshot water wheels. During the Renaissance, Leonardo da Vinci sketched out visions of water-driven sawmills, forges, factories, and spinning works.

  • Innovation In Applying Existing Technology Solutions

    A long-standing staple — water — is rapidly becoming a major issue for companies, not merely as a risk or line item expense, but for the potential it has to significantly impact shareholder value.  

  • The Future Of Hydroelectric Power: Balancing Generation With Environmental Impact As global climate goals and the environmental impact of hydroelectric systems draw increased attention, the conversation for energy leaders and water resource professionals has shifted from expansion to optimization, where smarter infrastructure and adaptive strategies must work together to reduce harm without compromising output.
  • True Corporate Value: How Water Can Affect Shareholder Value

    In keeping with the post-Stockholm World Water Week takeaway themes, none was more prevalent than the vital role that the private sector — namely, businesses large and small — must play in the collective pursuit of the Sustainable Development Goals.

INDUSTRIAL WATER AND WASTEWATER PRODUCTS

Combining proven design principles with patented features, our Sealless gear pumps are safe, simple, and reliable. Structurally rugged with corrosion resistant materials, Eclipse rotary pumps are an ideal fit for many corrosive liquids. From acids to bases, we cover the entire pH scale.

Liquiline CM44 is a digital multiparameter controller for process monitoring and control in industrial and environmental applications.

Over the years, WesTech has supplied our customers with anaerobic digestion equipment that has added value to their plant operations. WesTech continues to provide valuable solutions with the DuoSphere™ Dual Membrane Gasholder.

Veolia Water Technologies provides innovative solutions and technologies, technical expertise and project management services for water and wastewater treatment systems. Our work scopes range from treatment evaluations to full-scale system design and turnkey installation. Our integrated solutions are offered through a variety of flexible project delivery options including Engineer and Procure (EP), Design Build (DB), and Design Build Operate contracts.

WesTech ultrafiltration offers a unique solution to exceed increasingly stringent water quality standards. Membranes with a small nominal pore size (0.01-0.02 μm) provide an absolute barrier to consistently produce high-quality water by removing microbial and viral pathogens, suspended solids, turbidity, precipitated iron and manganese, and coagulated organic matter.

For remote sites with peak populations between 500 and 2,000 people, the newterra PWT-125 Mini Train System offers exceptional capacity and flexibility. The base system for up to 500 people consists of two 40' containerized elements – a discrete distribution/disinfection unit and a treatment unit. The Mini Train design allows up to four (4) treatment units to be added to a single distribution unit, providing potable water treatment for 2,000 people. The system is designed to integrate with containerized or free standing tanks for water storage. The treatment system is available for both groundwater and surface water sources.

Uniquely specialized to be the most adept of its kind, this colorimetric analyzer is engineered at the intersection of precision and economy. Every detail has been designed to perfect performance and user experience.

Meet your unique water cycle needs with the new Ultra Low Range CL17sc online total chlorine analyzer from Hach. Whether treating utility water, product water, or wastewater discharge, you’ll have the direct chlorine measurements you need to optimize your process. You’ll be able to protect valuable assets and report to regulatory agencies with confidence.