https://www.gsengineering.co.in Latest Products Mon, 13 Apr 2026 02:41:57 +0530 en-us https://www.gsengineering.co.in https://www.gsengineering.co.in/industrial-pumps.htm https://www.gsengineering.co.in/industrial-pumps.htm Mon, 29 Aug 2022 00:00:00 +0530 https://www.gsengineering.co.in/air-dryers.htm https://www.gsengineering.co.in/air-dryers.htm Mon, 29 Aug 2022 00:00:00 +0530 https://www.gsengineering.co.in/non-metallic-centrifugal-pump.htm https://www.gsengineering.co.in/non-metallic-centrifugal-pump.htm Mon, 11 Aug 2025 00:00:00 +0530 https://www.gsengineering.co.in/air-operated-double-diaphragm-pump.htm https://www.gsengineering.co.in/air-operated-double-diaphragm-pump.htm Fri, 09 Feb 2024 00:00:00 +0530 https://www.gsengineering.co.in/metallic-centrifugal-pump.htm https://www.gsengineering.co.in/metallic-centrifugal-pump.htm Fri, 09 Feb 2024 00:00:00 +0530 https://www.gsengineering.co.in/screw-pumps.htm https://www.gsengineering.co.in/screw-pumps.htm Mon, 11 Aug 2025 00:00:00 +0530 Screw pumps are used for transfering to viscos liquid https://www.gsengineering.co.in/blower-reactivated-type-air-dryer.htm https://www.gsengineering.co.in/blower-reactivated-type-air-dryer.htm Fri, 09 Feb 2024 00:00:00 +0530 https://www.gsengineering.co.in/heatless-air-dryer.htm https://www.gsengineering.co.in/heatless-air-dryer.htm Fri, 09 Feb 2024 00:00:00 +0530 https://www.gsengineering.co.in/hoc-type-air-dryer.htm https://www.gsengineering.co.in/hoc-type-air-dryer.htm Mon, 11 Aug 2025 00:00:00 +0530 A desiccant air dryer is an essential tool for removing moisture and impurities from compressed air systems to prevent corrosion and contamination. Different types of desiccants are used in desiccant air dryers to efficiently absorb moisture and ensure the quality of compressed air. Some common types of desiccants used in desiccant air dryers include silica, activated charcoal, calcium chloride, calcium sulfate, and aluminosilicate minerals (zeolites). These desiccants have specific properties that make them effective in adsorbing moisture and maintaining optimal humidity levels in compressed air systems. Choosing the right desiccant for a desiccant air dryer depends on the specific requirements of the application and the desired level of moisture removal. https://www.gsengineering.co.in/refrigerated-air-dryer.htm https://www.gsengineering.co.in/refrigerated-air-dryer.htm Mon, 11 Aug 2025 00:00:00 +0530  refrigerated air dryer is a crucial component in compressed air systems, designed to efficiently remove moisture from the compressed air to prevent corrosion and damage to equipment. By utilizing air-to-air and air-to-refrigerant heat exchangers, these dryers effectively condense water vapor within the air, ensuring that the compressed air remains dry and clean. This process is essential for maintaining the quality and integrity of the entire compressed air system, safeguarding equipment and machinery that rely on compressed air for optimal performance. Refrigerant dryers are widely recognized for their reliability and efficiency, making them the preferred choice for various industrial applications where moisture control is paramount. When to use a refrigerated air dryer? Refrigerated air dryers are the ideal solution if your operations meet the following conditions: The ambient temperature is less than 50°C/122°F, The main goal is to prevent condensation, And the required pressure dew point is around 3°C-4°C/37°F-39°F. The benefits of refrigerated compressed air dryers Refrigerated air dryers have a number of compelling benefits: Low initial cost High reliability, easy to use and maintain Extends the life of your compressor Energy savings A refrigerated air dryer is the most commonly used type of compressed air dryer for most plant applications. It is used for drying plant air and other utility gases like seal gas, hydrogen gas for generator cooling, nitrogen gas drying, etc. This type of dryer ensures a dew point of (+2) Deg. C. at line pressure (equivalent to -22 Deg. C. at atmospheric pressure), which is widely accepted in various industries. Refrigerated air dryers are ideal for applications such as fly ash conveying, cement conveying, powder conveying, pneumatic conveying of materials, dense phase conveying, lean phase conveying, seal gas drying, general plant air drying, hydrogen gas drying for generator cooling, and operation of pneumatic tools. https://www.gsengineering.co.in/chemical-plant.htm https://www.gsengineering.co.in/chemical-plant.htm Mon, 29 Aug 2022 00:00:00 +0530 https://www.gsengineering.co.in/bleaching-powder-plant.htm https://www.gsengineering.co.in/bleaching-powder-plant.htm Mon, 11 Aug 2025 00:00:00 +0530 Stable Bleaching Powder Plant, one of the leading manufacturers of Stable Bleaching Powder Plant in India. Our state-of-the-art facility ensures high-quality production of Stable Bleaching Powder, meeting industry standards and customer requirements. With a focus on efficiency and sustainability, we strive to deliver reliable and consistent products for various applications. Trust Kaspo Stable Bleaching Powder Plant for all your bleaching powder needs, and experience the difference in quality and performance. Reach out to us for more information on our Stable Bleaching Powder Plant services and solutions. At a Stable Bleaching Powder Plant, a precise process takes place where calcium hydroxide solids and chlorine gas are meticulously brought together in a counter current fashion. This strategic method triggers a reaction that results in the production of Stable Bleaching Powder. An essential feature of this process is ensuring that the amount of chlorine used is exactly the same as the amount present in the bleaching powder being produced. This meticulous control prevents any wastage of chlorine, optimizing the efficiency and sustainability of the production process. By maintaining this careful balance, the Stable Bleaching Powder Plant operates with precision and effectiveness, ensuring high-quality output while minimizing resource waste. Stable Bleaching powder can be used anywhere liquid chlorine is used. The various applications of SBH are as the following: Water treatment: SBH is widely used in water treatment plants to disinfect water by killing bacteria and other harmful microorganisms. Textile industry: It is used as a bleaching agent in the textile industry to whiten fabrics and remove stains. Paper industry: SBH is used in the paper industry for bleaching pulp and improving the brightness of paper. Household cleaning: It is used in household cleaning products for its disinfectant properties. Swimming pools: SBH is used to disinfect swimming pool water and keep it safe for swimmers. Establishing a stable bleaching powder plant can cater to the demand for this versatile chemical in various industries and applications. Specifications Dry, free-flowing white powder, without hard lumps and impuritiesMinimum 99.8 per cent passing through 1.70 mm IS sieve or 10 BSS sieveMinimum 35 per cent by weightOn heating at 100 +/- 2 degree, does not lose more than 1/15th of Av Cl2Maximum 0.30 per cent by weight Applications Water treatmentTextilesEpidemic controlAquacultureCarpet industryPulp and paperHealth departments, hotels, offices, homes etc. https://www.gsengineering.co.in/calcium-carbonate-plant.htm https://www.gsengineering.co.in/calcium-carbonate-plant.htm Fri, 09 Feb 2024 00:00:00 +0530 https://www.gsengineering.co.in/sodium-hypochlorite-plant.htm https://www.gsengineering.co.in/sodium-hypochlorite-plant.htm Mon, 11 Aug 2025 00:00:00 +0530 Sodium Hypochlorite Plant is a leading manufacturer of sodium hypochlorite plants in India. Our state-of-the-art facilities and expertise in the industry make us a trusted choice for clients looking for high-quality sodium hypochlorite production solutions. As one of the top sodium hypochlorite plant manufacturers in India, we focus on delivering efficient, reliable, and sustainable solutions to meet our customers' needs. With our commitment to innovation and excellence, Kaspo Sodium Hypochlorite Plant is dedicated to providing the best-in-class products and services in the industry. Trust us for all your sodium hypochlorite plant requirements in India. Sodium hypochlorite (NaOCl), commonly known as bleach, is a pale greenish-yellow diluted solution used as an oxidizer, bleaching agent, and disinfectant. Despite its unstable and highly corrosive nature, NaOCl is widely utilized in the water treatment industry for eliminating foul odors, disinfecting water, and purifying surfaces. When venturing into this industry, it's crucial to choose from the top Sodium Hypochlorite Manufacturers in India to ensure high-quality production and market competitiveness. Make an informed decision and capitalize on the growing demand for Sodium Hypochlorite by establishing your own manufacturing facility. A Sodium Hypochlorite production plant offers a cost-effective solution by eliminating the need to purchase commercial biocide products and depend on external suppliers. The plant is versatile and finds applications in various industries such as bleaching fabrics, producing disinfectants, treating water in swimming pools, processing and cooling water, controlling odors, chemical intermediates, air scrubbing, treating cyanide effluent in gold mining, processing food and vegetables, and recovering precious metals. This plant enhances operational efficiency and sustainability by providing a reliable source of Sodium Hypochlorite for different industrial processes, ensuring a smoother production workflow and reduced reliance on external sources. https://www.gsengineering.co.in/sulphuric-acid-plant.htm https://www.gsengineering.co.in/sulphuric-acid-plant.htm Mon, 11 Aug 2025 00:00:00 +0530 Kaspo Sulphuric Acid Plant is a leading manufacturer of sulphuric acid plants in India. Our state-of-the-art facility is equipped with the latest technology to produce high-quality sulphuric acid for various industrial applications. With our expertise and experience, we ensure efficient production processes and adhere to strict quality standards to meet the needs of our clients. At Kaspo Sulphuric Acid Plant, customer satisfaction is our top priority, and we strive to deliver superior products and services to our customers. Choose Kaspo for reliable and cost-effective solutions for all your sulphuric acid plant requirements. A sulfuric acid plant is a facility that produces sulfuric acid, an important industrial chemical with many uses. The plant consists of several key sections to effectively carry out the production process: Drying and adsorption: This section is responsible for removing moisture and impurities from the incoming gases to ensure a high-quality end product. SO2 converter: Here, sulfur dioxide (SO2) is converted into sulfur trioxide (SO3), a crucial step in the sulfuric acid production process. Gas-to-gas heat exchangers: These components help in optimizing the use of heat energy within the plant by exchanging heat between different gas streams. Tail gas scrubber: This section is designed to capture and treat any residual sulfur compounds present in the off-gas stream before it is released into the atmosphere, ensuring environmental compliance and safety. A Sulphuric Acid Plant is a facility where the production of sulfuric acid takes place through a series of processes. The sulfuric acid production process involves several key steps: Collecting concentrated non-condensable gases (CNCG) and incinerating them to convert reduced sulfur compounds into SO2. Using a catalyst to oxidize SO2 into SO3. Passing the flue gases from the catalytic converter into a condensing tower. Cooling the flue gases with liquid to react the SO3 with H2O to produce sulfuric acid. These processes are crucial in the efficient and environmentally friendly production of sulfuric acid, which is a widely used industrial chemical with various applications in manufacturing and chemical processes. https://www.gsengineering.co.in/industrial-water-plant.htm https://www.gsengineering.co.in/industrial-water-plant.htm Mon, 29 Aug 2022 00:00:00 +0530 https://www.gsengineering.co.in/industrial-filters.htm https://www.gsengineering.co.in/industrial-filters.htm Mon, 29 Aug 2022 00:00:00 +0530 https://www.gsengineering.co.in/waste-water-treatment-plant.htm https://www.gsengineering.co.in/waste-water-treatment-plant.htm Mon, 11 Aug 2025 00:00:00 +0530 https://www.gsengineering.co.in/reverse-osmosis-plant.htm https://www.gsengineering.co.in/reverse-osmosis-plant.htm Mon, 11 Aug 2025 00:00:00 +0530 https://www.gsengineering.co.in/filter-press.htm https://www.gsengineering.co.in/filter-press.htm Fri, 09 Feb 2024 00:00:00 +0530 https://www.gsengineering.co.in/gas-filter.htm https://www.gsengineering.co.in/gas-filter.htm Fri, 09 Feb 2024 00:00:00 +0530 https://www.gsengineering.co.in/industrial-water-filter.htm https://www.gsengineering.co.in/industrial-water-filter.htm Mon, 11 Aug 2025 00:00:00 +0530 https://www.gsengineering.co.in/industrial-gas-plants.htm https://www.gsengineering.co.in/industrial-gas-plants.htm Mon, 29 Aug 2022 00:00:00 +0530 https://www.gsengineering.co.in/air-filtration-system.htm https://www.gsengineering.co.in/air-filtration-system.htm Fri, 09 Feb 2024 00:00:00 +0530 https://www.gsengineering.co.in/psa-oxygen-gas-generator.htm https://www.gsengineering.co.in/psa-oxygen-gas-generator.htm Fri, 09 Feb 2024 00:00:00 +0530 https://www.gsengineering.co.in/ammonia-cracker-system.htm https://www.gsengineering.co.in/ammonia-cracker-system.htm Fri, 09 Feb 2024 00:00:00 +0530 https://www.gsengineering.co.in/chlorinated-paraffin-wax-plant.htm https://www.gsengineering.co.in/chlorinated-paraffin-wax-plant.htm Fri, 09 Feb 2024 00:00:00 +0530 https://www.gsengineering.co.in/control-valve.htm https://www.gsengineering.co.in/control-valve.htm Fri, 09 Feb 2024 00:00:00 +0530 https://www.gsengineering.co.in/fire-fighting-system.htm https://www.gsengineering.co.in/fire-fighting-system.htm Fri, 09 Feb 2024 00:00:00 +0530 https://www.gsengineering.co.in/gas-purification-system.htm https://www.gsengineering.co.in/gas-purification-system.htm Fri, 09 Feb 2024 00:00:00 +0530 https://www.gsengineering.co.in/labsa-plant.htm https://www.gsengineering.co.in/labsa-plant.htm Mon, 11 Aug 2025 00:00:00 +0530 LABSA Plant is one of the leading LABSA Plant manufacturers in India. Our state-of-the-art facility is equipped with advanced technology to produce high-quality Linear Alkyl Benzene Sulfonic Acid (LABSA) efficiently and effectively. With a focus on innovation and sustainability, we are committed to providing top-notch products that meet the industry standards. Trust KASPO LABSA Plant for all your LABSA manufacturing needs in India. A LABSA plant is a facility where Linear Alkyl Benzene Sulphonic Acid (LABSA) is produced through a chemical reaction involving SO3 and Linear Alkyl Benzene. This reaction takes place under specific conditions of concentration, pressure, temperature, and reactants to ensure the desired outcome. LABSA is a key ingredient used in the manufacturing of various products such as detergents, soaps, and industrial cleaners due to its excellent surfactant properties. The LABSA plant plays a crucial role in the production process, where careful monitoring and control of the reaction parameters are essential to obtain high-quality LABSA for use in different industries. The applications of LABSA are wide-ranging and include: Household cleaners - LABSA is used in the production of multi-purpose cleaners for various surfaces in homes. Dishwashing liquids - LABSA helps in cutting through grease and grime on dishes effectively. Laundry detergents - LABSA is a crucial surfactant in laundry detergents, aiding in the removal of dirt and stains from clothes. Industrial cleaners - LABSA is utilized in industrial strength cleaners for heavy-duty cleaning tasks in commercial settings. Overall, LABSA plays a vital role in the formulation of effective cleaning products for both household and industrial use. https://www.gsengineering.co.in/psa-hydrogen-plant.htm https://www.gsengineering.co.in/psa-hydrogen-plant.htm Mon, 11 Aug 2025 00:00:00 +0530 https://www.gsengineering.co.in/psa-nitrogen-gas-generator.htm https://www.gsengineering.co.in/psa-nitrogen-gas-generator.htm Mon, 11 Aug 2025 00:00:00 +0530 The technology of air-to-nitrogen generation with the use of adsorption processes in PSA Nitrogen generators is well-studied and widely applied at industrial facilities for the recovery of high-purity nitrogen. This is then used in many industries. PSA Nitrogen generators for these industrial applications are designed to produce high-purity nitrogen by regulating gas adsorption and adsorbent (Carbon Molecular Sieves) regeneration by changing pressures in two adsorber-adsorbent-containing vessels. This process requires a constant temperature, close to ambient. The pressure swing adsorption process in each of the two adsorbers consists of two stages running at intervals of a few seconds. At the adsorption stage oxygen, moisture, and carbon dioxide molecules diffuse into the pore structure of the adsorbent whilst the nitrogen molecules are allowed to travel through the adsorber–adsorbent-containing vessel to be delivered as high-purity nitrogen. To produce high-purity N2, three processes can be used. Directly with the PSA plant: We can achieve up to 99.9% pure nitrogen directly from the PSA Nitrogen plant. But for larger quantities, this is not economical. De-OXO System: In industry palladium, de-oxo units are used for nitrogen purity up to 99.999%. In this system, 99% pure N2 from the PSAsystem is mixed with H2 fed in a de-oxo tower filled with a palladium catalyst and the following exothermic reaction takes place O2+2H2 ---2H2O Copper De-oxo System: This type of de-oxo unit required two externally heated tower-filled copper catalysts. for an endothermic reaction. O2+2Cu---2CuO The copper catalyst bed can be regenerated by adding hydrogen during the regeneration step. for these 2 step processes i.e DE oxidation and regeneration, two towers are necessary to achieve a continuously operating de-oxo system. The nitrogen from the PSAplant with remaining oxygen passes one of the towers without adding hydrogen. On passing through the tower, the oxygen is removed by reacting with copper and copper oxide form. The advantage of a copper de-oxo unit is that the high-purity nitrogen leaves the unit dry and without any hydrogen. In both types of De-oxo plants, hydrogen gas is required for the removal of oxygen in the De-oxo system with a palladium catalyst and for the regeneration of copper catalyst in the copper de-oxo system. Hydrogen gas can be arranged in a hydrogen gas cylinder or ammonia cracker base hydrogen generation plant. It can also arranged by water electrolysis type hydrogen plant. https://www.gsengineering.co.in/psa-oxygen-plants.htm https://www.gsengineering.co.in/psa-oxygen-plants.htm Mon, 11 Aug 2025 00:00:00 +0530 PSA Oxygen Gas Plants separates oxygen from compressed air utilizing pressure swing adsorption technology. Compressed Air, which consists of approximately 21% oxygen and 78% nitrogen, is passed through a bed of zeolite molecular sieve. The sieve preferentially adsorbs N2 and moisture allowing the O2 to pass through as a product gas at pressure. While one of the towers is in the adsorption phase the other tower is regenerated by de-pressurizing, at which time the sieve releases the adsorbed gases to the atmosphere, and the cycle is then repeated. Before feeding the air to the PSA tower refrigerated type air dryer and set of filters are installed to cool the air and remove moisture and dust particles.