SOLVING THE WORLD’S most important
WATER CHALLENGES
OUR APPROACH
IS SIMPLE
Gradiant is uniquely positioned to address the planet’s increasing challenges created by industrialization, population growth, and water stress. We enable brand owners and manufacturers in the world’s essential industries to deliver and optimize their mission-critical operations and reduce their water footprint.
Our approach is simple — we believe that with the right technologies and people, we can transform your water challenges into sustainable and cost-effective solutions.
SOLUTIONS
Our solutions are end-to-end scalable, designed to integrate seamlessly with our proprietary AI platform, and proven across a broad range of industries.
We have a full portfolio of technologies to reliably and cost-effectively treat wastewater generated from manufacturing, preparing it for reuse and discharge, and reducing freshwater withdrawal requirements.
We have end-to-end solutions designed to treat water so that it can be safely and reliably used in manufacturing — while optimizing equipment performance and ultimate product quality and yields.
We have patented membrane and thermal evaporation technologies to achieve minimum liquid discharge and recover extra process water as the first step of the solution. If the minimal brine is too costly to dispose, or valuable minerals/chemicals can be recovered, we have solutions to achieve zero liquid discharge.
We offer technologies to enhance Direct Lithium Extraction (DLE) and production of battery-grade compounds, and recover metals such as nickel, cobalt, graphite, and uranium. Our technologies are also used for IPA recovery in the semiconductor industry.
We have proven methods and technical know-how to design, build, operate and maintain subsystems to reliably produce ultrapure water (UPW).
We have a suite of technologies that lead to the removal and destruction of PFAS and Emerging Contaminants — forever.
We have a full portfolio of technologies to reliably and cost-effectively treat wastewater generated from manufacturing, preparing it for reuse and discharge, and reducing freshwater withdrawal requirements.
We have end-to-end solutions designed to treat water so that it can be safely and reliably used in manufacturing — while optimizing equipment performance and ultimate product quality and yields.
We have patented membrane and thermal evaporation technologies to achieve minimum liquid discharge and recover extra process water as the first step of the solution. If the minimal brine is too costly to dispose, or valuable minerals/chemicals can be recovered, we have solutions to achieve zero liquid discharge.
We offer technologies to enhance Direct Lithium Extraction (DLE) and production of battery-grade compounds, and recover metals such as nickel, cobalt, graphite, and uranium. Our technologies are also used for IPA recovery in the semiconductor industry.
We have proven methods and technical know-how to design, build, operate and maintain subsystems to reliably produce ultrapure water (UPW).
We have a suite of technologies that lead to the removal and destruction of PFAS and Emerging Contaminants — forever.
Industries
Our solutions are deployed in a wide range of the world’s essential industries. We design our technologies to be modular, allowing us to quickly engineer end-to-end solutions for new challenges.
Gradiant is leading the way to bring innovative, reliable solutions for the semiconductor and microelectronics industry. Water is crucial in semiconductor manufacturing, playing a key role in water and chip fabrication. Gradiant serves the world's major fabs to enable sustainable operations with the ultrapure water used for cleaning of waters and component for the highest yields, water recycling to minimize freshwater withdrawls, and wastewater treatement to remove contaminants before discharge to environment. We are increasingly providing innovative solutions for separating waste streams and selective removal and recovery of metals and minerals.
Manufacturing pharmaceuticals demands different grades of process water, from drinking water for rinsing to demineralized water for purification of active ingredients to ultrapure water for sterile manufacturing. We design our solutions to suit the challenges of batch production processes that generate highly complex wastewater streams with variable composition, toxicity, biodegradability, and quantity.
Successful mine operations demand sustainable water practices, which is particularly challenging with remotely located mines where the water supply is scarce, highly variable, and closely regulated to protect the environment. Our end-to-end solutions are engineered and tested to extremes. We put mining companies in control of their water supplies and protect the environment via wastewater recycling, dewatering, and metals and minerals recovery.
Large quantities of process water are used throughout the manufacturing process and as an ingredient in finished products — where compliance with water quality is critical. Indirect manufacturing systems also draw on process water, including cooling, refrigeration, steam generation, and cleaning. We apply filtration, membrane, and chemical processes to satisfy a complete range of process water requirements with less wastewater generated. Our technologies are proven as a primary and secondary treatment for wastewater to enable maximum reuse and minimum waste discharge.
The production of the world's essential chemicals requires varying grades of process water, from softened seawater to demineralized water. Our technologies are vital in producing the required quality and quantity with high efficiency. Chemical processing generates wastewater with high concentrations of contaminants that can be environmentally harmful. We have the experience and expertise to engineer custom solutions for the treatment of this wastewater, all with maximum water reuse and safe disposal of waste liquids and solids.
Renewable and conventional energy production both demand complex water solutions at different stages of the process. Renewable solutions like Solar Photovoltaic panels demand ultrapure water for manufacturing and ZLD for treating and reducing waste streams. Conversely, conventional power generation requires large volumes of process water throughout the plant, in boilers, cooling, and other utility processes. We offer technologies so both industries can operate safely, reliably, and responsibly.
Textile manufacturing demands large quantities of water for wet fabric processing and other production steps. Depending on the site, the production process generates wastewater with different contaminants and chemical or dye inclusions that are difficult to degrade biologically. We offer customized wastewater treatment solutions to break down refractory organics electrochemically, remove biodegradable organics, enable water reuse and minimize wastewater volume, and concentrate and recover valuable salts.
Gradiant is leading the way to bring innovative, reliable solutions for the semiconductor and microelectronics industry. Water is crucial in semiconductor manufacturing, playing a key role in water and chip fabrication. Gradiant serves the world's major fabs to enable sustainable operations with the ultrapure water used for cleaning of waters and component for the highest yields, water recycling to minimize freshwater withdrawls, and wastewater treatement to remove contaminants before discharge to environment. We are increasingly providing innovative solutions for separating waste streams and selective removal and recovery of metals and minerals.
Manufacturing pharmaceuticals demands different grades of process water, from drinking water for rinsing to demineralized water for purification of active ingredients to ultrapure water for sterile manufacturing. We design our solutions to suit the challenges of batch production processes that generate highly complex wastewater streams with variable composition, toxicity, biodegradability, and quantity.
Successful mine operations demand sustainable water practices, which is particularly challenging with remotely located mines where the water supply is scarce, highly variable, and closely regulated to protect the environment. Our end-to-end solutions are engineered and tested to extremes. We put mining companies in control of their water supplies and protect the environment via wastewater recycling, dewatering, and metals and minerals recovery.
Large quantities of process water are used throughout the manufacturing process and as an ingredient in finished products — where compliance with water quality is critical. Indirect manufacturing systems also draw on process water, including cooling, refrigeration, steam generation, and cleaning. We apply filtration, membrane, and chemical processes to satisfy a complete range of process water requirements with less wastewater generated. Our technologies are proven as a primary and secondary treatment for wastewater to enable maximum reuse and minimum waste discharge.
The production of the world's essential chemicals requires varying grades of process water, from softened seawater to demineralized water. Our technologies are vital in producing the required quality and quantity with high efficiency. Chemical processing generates wastewater with high concentrations of contaminants that can be environmentally harmful. We have the experience and expertise to engineer custom solutions for the treatment of this wastewater, all with maximum water reuse and safe disposal of waste liquids and solids.
Renewable and conventional energy production both demand complex water solutions at different stages of the process. Renewable solutions like Solar Photovoltaic panels demand ultrapure water for manufacturing and ZLD for treating and reducing waste streams. Conversely, conventional power generation requires large volumes of process water throughout the plant, in boilers, cooling, and other utility processes. We offer technologies so both industries can operate safely, reliably, and responsibly.
Textile manufacturing demands large quantities of water for wet fabric processing and other production steps. Depending on the site, the production process generates wastewater with different contaminants and chemical or dye inclusions that are difficult to degrade biologically. We offer customized wastewater treatment solutions to break down refractory organics electrochemically, remove biodegradable organics, enable water reuse and minimize wastewater volume, and concentrate and recover valuable salts.
CURE chemicals
We develop custom formulae in-house to meet the high-performance specifications our technologies demand. We formulate for all site-wide applications.
Corrosion Inhibitors play a crucial role in safeguarding critical infrastructure. By forming protective layers on metal surfaces, they shield against rust, extending equipment life and reducing maintenance costs. Beyond corrosion protection, these products enhance site-wide water and process systems' reliability, preserving pipeline and heat exchanger integrity for improved operational efficiency.
Scale Inhibitors are vital in water treatment, preventing scale build-up for uninterrupted equipment operation and extended lifespan. This is crucial in avoiding costly consequences like disrupted flow in heat exchangers and pipework that generates higher energy costs and potential equipment failure. Preserving infrastructure integrity optimizes energy consumption and minimizes operational costs, enhancing water treatment process reliability.
Process Chemicals customized to the industrial process and deployed in a tailored combination help maintain output quality, efficiency and cost effectiveness for a myriad of industries. These programs are especially critical in dynamic process systems found in refining, chemicals, mining, food and beverage, and pulp and paper manufacturing where maintaining consistent product attributes is paramount.
Biocides counter microbiological threats using oxidizing and non-oxidizing agents, actively inhibiting bacterial growth and biofilm formation. A well-executed program ensures water and process system safety, directly enhancing performance. Outcomes include optimal heat exchange efficiency, prevention of pipeline clogging, and improved quality of treated water and process streams.
Membrane antiscalant and cleaning programs prevent and remove mineral scaling and precipitation of insoluble salts which directly improves recovery rate, system efficiency, and membrane longevity. The optimal chemical combination minimizes membrane replacement and is crucial in industries prioritizing water purity, like semiconductor and pharmaceutical manufacturing. A precise antiscalant and cleaning regimen maintains water quality, reduces wastage, and contributes to sustainable water treatment processes.
Coagulants and flocculants deliver a powerful combination targeting solids-liquids separation in filtration, settling, and sludge dewatering processes. With precision, these chemicals isolate contaminants, organic matter, and pathogens, ensuring water clarity and purity. Proper application destabilizes and agglomerates particles for efficient separation, meeting regulatory standards and preparing treated wastewater for reuse.
Corrosion Inhibitors play a crucial role in safeguarding critical infrastructure. By forming protective layers on metal surfaces, they shield against rust, extending equipment life and reducing maintenance costs. Beyond corrosion protection, these products enhance site-wide water and process systems' reliability, preserving pipeline and heat exchanger integrity for improved operational efficiency.
Scale Inhibitors are vital in water treatment, preventing scale build-up for uninterrupted equipment operation and extended lifespan. This is crucial in avoiding costly consequences like disrupted flow in heat exchangers and pipework that generates higher energy costs and potential equipment failure. Preserving infrastructure integrity optimizes energy consumption and minimizes operational costs, enhancing water treatment process reliability.
Process Chemicals customized to the industrial process and deployed in a tailored combination help maintain output quality, efficiency and cost effectiveness for a myriad of industries. These programs are especially critical in dynamic process systems found in refining, chemicals, mining, food and beverage, and pulp and paper manufacturing where maintaining consistent product attributes is paramount.
Biocides counter microbiological threats using oxidizing and non-oxidizing agents, actively inhibiting bacterial growth and biofilm formation. A well-executed program ensures water and process system safety, directly enhancing performance. Outcomes include optimal heat exchange efficiency, prevention of pipeline clogging, and improved quality of treated water and process streams.
Membrane antiscalant and cleaning programs prevent and remove mineral scaling and precipitation of insoluble salts which directly improves recovery rate, system efficiency, and membrane longevity. The optimal chemical combination minimizes membrane replacement and is crucial in industries prioritizing water purity, like semiconductor and pharmaceutical manufacturing. A precise antiscalant and cleaning regimen maintains water quality, reduces wastage, and contributes to sustainable water treatment processes.
Coagulants and flocculants deliver a powerful combination targeting solids-liquids separation in filtration, settling, and sludge dewatering processes. With precision, these chemicals isolate contaminants, organic matter, and pathogens, ensuring water clarity and purity. Proper application destabilizes and agglomerates particles for efficient separation, meeting regulatory standards and preparing treated wastewater for reuse.
FOUR CORE CAPABILITIES
SET GRADIANT APART
Innovation
Award-winning, patented technologies with industry-leading performance.
AI and Machine Learning
Machine learning AI algorithms deliver immediate cost and performance improvements.
Project Delivery
A range of contract models that are adaptable to the unique situation and needs of our customers.
CURE Chemicals
Custom formulae, developed in-house to meet the high-performance specifications our technologies demand.
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