Industrial Treatment Systems

Specializing in large industrial equipment solutions for efficient operations.

aerial view of industrial factory
aerial view of industrial factory
Hardness Removal System (including TSS)

In the context of the chemical industry, a Hardness Removal System refers to a water treatment process designed to reduce or eliminate the concentration of minerals that cause water hardness, primarily calcium and magnesium ions. Hard water can negatively impact industrial processes by causing scale buildup in equipment, reducing efficiency, and potentially damaging machinery over time. Includes Ion Exchange, Chemical Precipitation, Reverse Osmosis (RO) and Distillation.

Industrial Applications

  • Boiler feed water and cooling water treatment

  • Manufacturing processes

  • Food and beverage processing

  • Pharmaceutical production

  • Textile Industry

  • Pulp and paper industry

Operational Advantages

  • Reduce maintenance costs and uphold product quality standards

  • Prevention of scale formation

  • Extended equipment life and improved process efficiency

  • Environmental regulation compliance systems

  • Cost savings in energy consumption

Solvent Stripper System
aerial view of industrial factory
aerial view of industrial factory

In the chemical industry, the term "solvent stripper" can refer to a piece of equipment or a process used for separating components from a mixture based on their solubility in a particular solvent. This process is often employed in various industrial applications such as Extraction ProcessesSeparation of Components, Waste Treatment, Purification of Products and Solvent Recovery

Industrial Applications

  • Chemical Manufacturing

  • Adhesive Removal and Paint / Coating Removal

  • Waste Treatment and Recycling

  • Pharmaceutical Industry (Extracting APIs, Herbal Extracts)

  • Electronics Manufacturing

  • Textile Industry

  • Oil and Gas Industry (Separating Hydrocarbons and Refining)

  • Many more manufacturing, maintenance and environmental

Operational Advantages

  • Time efficiency (time and labor, reduced downtime)

  • Reusability and recycling

  • Compatibility with substrates

Scrubber Systems
orange heavy duty trucks during daytime
orange heavy duty trucks during daytime

In chemical industries, a scrubber refers to a device used to remove pollutants and contaminants from exhaust streams before they are released into the atmosphere. The primary function of a scrubber is to clean the emissions generated during various industrial processes, such as combustion, chemical reactions, or manufacturing operations.

Industrial Applications

  • Power Generation Plants

  • Chemical Manufacturing

  • Pulp and Paper Mills

  • Metal Processing Industries and Pharmaceutical Industries

  • Cement and Lime Production

  • Oil and Gas Industry

  • Food and Beverage Processing

  • Incineration and Waste Management

  • Semiconductor Manufacturing

Operational Advantages

  • Pollution control

  • Public health benefits (reducing air pollution)

  • Versatility, cost-effectiveness, efficiency, technology advancements

Zero Liquid Discharge Systems (ZLD)
aerial view of industrial factory
aerial view of industrial factory

Zero liquid discharge (ZLD) plants are advanced wastewater treatment facilities designed to eliminate liquid waste discharge by recovering all possible liquid effluent and concentrating it into solid waste. The primary goal of ZLD systems is to minimize liquid waste and recycle water for reuse, thus achieving virtually no discharge of liquid waste into the environment.

Industrial Applications

  • Power Plants (Thermal and Nuclear)

  • Chemical and Petrochemical Industries

  • Textile and Leather Industries

  • Mining and Metallurgical Industries

  • Food and Beverage Industries

  • Pharmaceutical and Healthcare Industries

  • Semiconductor and Electronics Industries 

  • Paper and Pump Industries

Operational Advantages

  • Environmental compliance and water conservation

  • Resource recovery and reduced disposal costs

  • Improved process efficiency, flexibility and scalability

  • Enhanced corporate social responsibility (CSR) and risk mitigation

  • Long-term sustainability and responsible management practices

Caustic Recovery Plants
aerial view of industrial factory
aerial view of industrial factory

Caustic recovery plants are specialized facilities designed to recycle and reuse caustic soda (sodium hydroxide) solutions that are used in various industrial processes. These plants are primarily found in industries where caustic soda is utilized extensively, such as pulp and paper manufacturing, textiles, petrochemicals, and certain food processing sectors.

Industrial Applications

  • Pulp and Paper Industry

  • Textile Industry

  • Chemical Manufacturing

  • Petrochemical Industry

  • Food and Beverage Industry

  • Aluminum Industry

  • Soap and Detergent Manufacturing

  • Water Treatment Plants 

Operational Advantages

  • Cost savings and operational flexibility

  • Resource efficiency and process optimization

  • Environmental benefits and reduced wastewater treatment costs

  • Regulatory compliance

  • Long-term cost stability

  • Regulatory Incentives

Salt Recovery Plants
aerial view of industrial factory
aerial view of industrial factory

Salt recovery plants are specialized facilities designed to recover and reuse salts from various industrial processes where saline solutions or brines are generated. These plants are particularly important in industries where salt is used in large quantities or where saline wastewater is produced as a byproduct.

Industrial Applications

  • Desalination Plants

  • Chemical Industries (Chloroformed-Alkali Industry, Pharma)

  • Food Processing (Dairy Industry)

  • Mining and Metals (Potash and Metal Processing)

  • Oil and Gas Industry

  • Textile Industry

  • Water Treatment Plants

  • Power Plants

Operational Advantages

  • Resource conservation and cost savings

  • Environmental Sustainability and reduced disposal costs

  • Regulatory compliance and operational efficiency

  • Flexibility and adaptability

  • Improved corporate social responsibility

  • Long-term sustainability