https://www.fitzerincorporation.in Latest Products Wed, 04 Mar 2026 11:30:35 +0530 en-us https://www.fitzerincorporation.in https://www.fitzerincorporation.in/heat-exchangers.htm https://www.fitzerincorporation.in/heat-exchangers.htm Tue, 24 May 2022 00:00:00 +0530 https://www.fitzerincorporation.in/heating-process-equipment.htm https://www.fitzerincorporation.in/heating-process-equipment.htm Tue, 24 May 2022 00:00:00 +0530 https://www.fitzerincorporation.in/cooling-process-equipment.htm https://www.fitzerincorporation.in/cooling-process-equipment.htm Tue, 24 May 2022 00:00:00 +0530 https://www.fitzerincorporation.in/desiccant-dehumidifier.htm https://www.fitzerincorporation.in/desiccant-dehumidifier.htm Wed, 18 Feb 2026 00:00:00 +0530 Industrial dehumidifier and Desiccant Dehumidifiers are used in many industrial applications where it is used to control dew point and relative humidity. With years of industrial experience FITZER is mastered in the manufacture and supply of Industrial Dehumidifiers. Each Industrial Dehumidifier at FITZER is custom engineered to meet different operating conditions. Industrial Dehumidifiers are used in different industrial applications that help in corrosion prevention, Condensation protection, Moisture regain Prevention, Fungus prevention, Product Drying, Low Humidity etc.   How Dehumidifier Works   The Main function of the Industrial desiccant dehumidifier is to remove moisture content from the air in given atmosphere or in a given environment. This is accomplished by exposing the air to an adsorbing media (desiccant) in a sealed air stream (process). After the desiccant has adsorbed moisture, it is exposed to a second air stream at an elevated temperature (reactivation). This causes the moisture to be driven out of the desiccant preparing it for more moisture adsorption. This process is done on a continuous basis, providing a constant drying process. The two air streams (process and reactivation) are separated by seals, which contact the desiccant media. The functioning outline of this dehumidifier can be easily understandable from the Fig.1 The dehumidifier is designed with the two air streams flowing in opposite directions simultaneously thereby maximizing the energy efficiency of the equipment in terms of energy removal.The Desiccant used by Hygro Tech is non-toxic, non-flammable with maximum moisture removal capacity. https://www.fitzerincorporation.in/iqf-tunnel-freezer.htm https://www.fitzerincorporation.in/iqf-tunnel-freezer.htm Mon, 29 Sep 2025 00:00:00 +0530 IQF Quick Freezing System individually freezes various types of food including fruit, meat, seafood and bakery rapidly at –60℃.Quick freezing at very low temperatures in a short amount of time prevents ice crystals from forming, a key technology in efficiently maintaining food characteristics, freshness and quality in highest conditions. Domestic quick freezing generally happens at around –30℃~-40℃. For instance, fish must be quick frozen at below –50℃ to maintain cell integrity and moisture.  Longer freezing times result in destruction and deformation of cells and nutritions, significantly reducing flavor and quality.     https://www.fitzerincorporation.in/cold-storage-room.htm https://www.fitzerincorporation.in/cold-storage-room.htm Wed, 18 Feb 2026 00:00:00 +0530 Cold rooms and storages are preservation chambers, usually assembled at the deployment site to desired dimensions and cooling specifications of the end user. These chambers are generally built using insulating materials polyurethane foam (PUF), highly efficient & precisely designed to cater a wide temperature range from +15 ˚C to -40 ˚C, high quality doors & accessories and refrigeration units such as evaporating and condensing units specially designed for energy efficient, low noise, easy maintenance and compact size which gives the same performance for many years.   Our cold rooms are largely used in the industries like hospitality, dairy, ice cream, horticulture, medicare, pharmaceuticals, frozen products and speciality applications. Our cold room have several benefits such as, Easy to assemble and dismantle All Side PVC gasket Homogeneous PUF density High ambient refrigeration design Wall to top cam-lock joints Fully Customized https://www.fitzerincorporation.in/thermal-energy-storage-system.htm https://www.fitzerincorporation.in/thermal-energy-storage-system.htm Mon, 29 Sep 2025 00:00:00 +0530 Thermal Energy Storage System (CWTES). This system utilizes only the sensible heat of water for cooling energy storage in a chilled water storage tank and discharges the stored coldness for air-conditioning during the on-peak time. The key technology of CW Storage system is the diffuser design which ensures thermal stratification of chilled water and warm water by density difference. FITZER’s technology is the state of the art technology which is recommended in ASHRAE’s design guide. They have a long history of installation around the world including U.S.A., Japan, Korea and middle-east Asia. Some key features of Chilled Water-Thermal Energy Storage Cooling: Lowest initial investment cost 30-40% energy saving by utilizing conventional chillers whose Efficiency is higher than low temperature chillers Simple system with easy controls without additional heat Light in weight compared to Si-Br. Exchangers and less equipment Efficiency of discharging coldness is very high Easy to convert conventional system into CWTES system by Adding only chilled water storage tank Convertible to heating purposes Environmentally friendly system free from brine Storage water can be utilized for fire-fighting in emergency   What Is a Stratified Chilled Water TES System?   A Stratified Chilled Water TES System stores cooling energy by leveraging the sensible heat capacity of water. It uses a large insulated tank where chilled water and warm water are separated by density, forming distinct thermal layers—a phenomenon known as thermal stratification.   This stratification allows the system to charge (store cooling energy during off-peak hours) and discharge (release cooling during peak demand) efficiently, reducing energy costs and improving chiller performance.   ⚙️ How It Works   The system operates in two main cycles:   Charging Cycle: Chilled water from the chiller enters the tank through bottom diffusers, gradually replacing warm water. The cold water settles at the bottom due to its higher density. Discharging Cycle: Cold water is drawn from the bottom to meet cooling demand, while warm return water enters the top, maintaining stratification. Diffusers play a critical role in minimizing mixing between layers, preserving the temperature gradient.   🧊 Types of Thermal Energy Storage Systems   There are several TES configurations, but stratified chilled water systems are favored for their simplicity and cost-effectiveness. Other types include: Diffuser Types in TES Tanks   Diffusers ensure smooth water flow and maintain stratification. Common types include:   Radial Disk Diffuser: Recommended by ASHRAE, this design spreads water evenly across the tank radius, minimizing turbulence. Ideal for large-scale TES systems. Pipe Diffuser: Uses perforated pipes to distribute water; simpler but less effective in maintaining stratification. Multiport Diffuser: Features multiple outlets for controlled flow; used in customized tank designs.   FITZER: Engineering Excellence in TES Systems   FITZER is a trusted name in the design and manufacturing of Thermal Energy Storage Systems, including stratified chilled water TES tanks. With in-house engineering and fabrication capabilities, FITZER delivers:   Custom-designed TES tanks for industrial and commercial applications Precision-engineered radial disk diffusers Seamless integration with existing HVAC infrastructure Solutions aligned with ASHRAE guidelines and global best practices Whether you're planning a new cooling system or upgrading an existing one, FITZER ensures high performance, reliability, and energy savings.   📈 Why Choose Stratified TES?   ✅ Reduces peak energy demand ✅ Enhances chiller efficiency ✅ Enables load shifting ✅ Supports sustainable cooling strategies Ready to revolutionize your cooling system? Connect with FITZER (INDIA) to explore tailored TES solutions that meet your operational and environmental goals. https://www.fitzerincorporation.in/spiral-type-heat-exchanger.htm https://www.fitzerincorporation.in/spiral-type-heat-exchanger.htm Mon, 29 Sep 2025 00:00:00 +0530 Design Features & Benefits The spiral plate heat exchanger is made by rolling two long metal plates around a center core to form two concentric spiral flow passages, one for each fluid.  The plate edges are welded shut so that each fluid stays within its own passage and there is no flow bypassing or intermixing.  Channel plate width and spacing (gap between plates) are optimized for the specified duty, maximum heat transfer, and ease of access.  The plate gap is maintained by welded spacer studs although some designs do not require them. Due to its inherent circular design and large surface area to volume ratio, the spiral heat exchanger offers unique advantages over other types of heat exchangers like the shell and tube.   High Thermal Efficiency Single and long curving flow passages with a uniform rectangular cross-section ensure superior flow distribution, intense turbulence, and high heat transfer coefficients (50-100% greater than shell & tubes). Self-Cleaning Passages The spiral's single-flow passages induce high shear rates that scrub away deposits as they form.  This self-cleaning effect reduces fouling and makes spiral heat exchangers ideal for handling tough fluids such as process slurries, sludge, and media with suspended solids or fibers. Countercurrent or Co-current Spiral heat exchangers normally operate in true countercurrent flow for close approaches and temperature crosses.  Occasionally a co-current flow design has major benefits, especially in cooling or heating fluids prone to gelation, burn-on, freezing or similar skin temperature related fouling. Small Footprint & Easy Access The spiral heat exchanger is compact and requires minimal space for installation and servicing.  Removable covers provide easy access to interior heat transfer surfaces for field inspections, routine maintenance, or manual cleaning if required. https://www.fitzerincorporation.in/box-type-heat-exchanger.htm https://www.fitzerincorporation.in/box-type-heat-exchanger.htm Wed, 18 Feb 2026 00:00:00 +0530 Fundamental Working and Purpose of Heat Exchanger The heat exchanger is a system that helps transfer the heat into two or more fluids. Heat exchangers have their applications in both the heating and cooling processes. The fluids in the heat exchangers are kept separate with a solid wall in between them. One fluid's heat passes across the metal used to keep both of the fluids separate, and the heated metal then increases the other fluid's temperature. High turbulence, high fluid velocity, significant temperature differential, and high surface area; all these factors immensely contribute to efficient heat transfer. However, different designs can get tested for even better heat transfer, which prompted us to build Box Type Heat transfer that offers an improved heat transfer compared to the shell and tube type heat exchanger.  Specifications of Box Type Heat Exchanger The manufacturing of Box Type Heat Exchanger includes state-of-the-art technology and compliance to international standards for manufacturing equipment. Experts check the heat exchanger's entire range on numerous parameters before dispatching it for the market's sales or sending it to the customer. Here are some of its technical features: Vapor loss ranges from 0.05% to 2% as per product The flow rate remains 30% to 50%, depending on cooling media Difference in temperatures T ranges from 2° C- 4° C as per product The product's standard features include resistance against corrosion, surface finishing, and durability. To better understand this heat exchanger's versatility, let us compare it with other conventional heat exchangers. https://www.fitzerincorporation.in/shell-tube-heat-exchanger.htm https://www.fitzerincorporation.in/shell-tube-heat-exchanger.htm Mon, 29 Sep 2025 00:00:00 +0530 We manufacture Shell & Tube type Heat Exchangers in a wide variety of sizes & materials. We have a complete facility to design (Thermal and Mechanical) and manufactures complete range of Shell and Tube Heat Exchangers for cooling, condensing and heating application. A Shell & Tube Heat Exchanger Consists of a Shell with Traditional plain tubes or enhanced surface tubes for high thermal performance. Our manufacturing facility is well supported by in house design facility equipped with latest software’s & design codes and welding development department to establish manufacturing process for any new material. https://www.fitzerincorporation.in/thermal-fluid-heater.htm https://www.fitzerincorporation.in/thermal-fluid-heater.htm Sat, 04 Jun 2022 00:00:00 +0530 A thermic fluid heating system generally used in a system where the pressure is not desired in a process and temperature requirement is higher and using the boiler for high-temperature services may increase the cost of a project. Thermal Fluid Heaters can improve process consistency and reduce downtime leading to a further increase in profitability.   Industrial Applications of Thermic Fluid Heaters Thermic fluid systems can be used to generate heat in various process industries, such as:- Food processing industries Rubber and plastics industries Publishing and print industries Metal fabrication and finishing plants Paper industries Textile industries Natural gas processing plants Crude oil extraction and processing industries. Chemical Industries Plywood and Laminates Confectionery Advantages of Thermic Fluid Heaters High Capacity Heating System Fully automatic unit – Maintains the desired temperature of the thermic fluid High System Efficiency – Reduced operating cost. Best applicable for High-Temperature Heating Can attain temperatures upto 300 o C Minimum site work and ease of installation Can operate on the variety of fuels as per local availability Failsafe design and dependable safety instruments Rugged design and superior construction High flow rate ensures the higher life of thermic fluid and heater coil Backed by prompt and efficient after sales service Deaerator/Expansion Tank Integral Arrangement type   https://www.fitzerincorporation.in/steam-boiler.htm https://www.fitzerincorporation.in/steam-boiler.htm Mon, 29 Sep 2025 00:00:00 +0530 The Max Series are a range of packaged, three pass boilers designed to operate on various oil and gaseous fuels. Suitable for various industrial applications, this series is designed to respond quickly to the continuous and fluctuating workloads of various processes. Oil & Gas fired Steam Boiler Features Offered with high efficiency, monobloc or duo bloc burner.Burner designed for easy maintenance and adjustments.Oil heating and circulation system provided to accumulate excess fuel oil flow.Highly durable and cost-effective performance achieved.High purity steam generation reduces fuel costs.Air preheater, Economizer and other accessories can be added to increase efficiency and lower operating costs.  https://www.fitzerincorporation.in/hot-water-heater.htm https://www.fitzerincorporation.in/hot-water-heater.htm Mon, 29 Sep 2025 00:00:00 +0530 TPC-AS is a vertical fired, coil type Hot Water Boiler designed for operation with water at high pressure and temperature. The concentric coils, flame reversal combustion chamber and three full gas pass configuration ensures high efficiency and very safe and simple operation. TPC-AS is fitted with a Babcock Wanson burner specifically developed for this duty and perfectly matched to the combustion chamber for high efficiency, low emission operation. Burner control can be simple two stage or fully modulating control depending on the process requirements.   High Efficiency Coil Type Hot Water Boiler The TPC-AS configuration with large heat exchange surface and integral combustion air preheater ensures a thermal efficiency of up to 90% in standard form. TPC-AS includes an integral, air cooled outer case that acts as a combustion air pre-heater/economiser. This design also provides for efficient insulation of the boiler shell. Robust Equipment The TPC-AS Hot Water Boiler is robustly built for long life and reliable operation. Test pressure up to 25 barg and water operating temperature up to 220°C. The TPC-AS configuration ensures safe, simple operation in the most demanding of environments. Simple Reliable Operation TPC-AS includes an integral monobloc burner, combustion and system controls and standard safety equipment, all mounted and pre-wired. The TPC-AS Hot Water Boiler is delivered to site ready for connection to the fuel system, electrical power, chimney and water system for fast site installation. Refractory within the combustion chamber has been reduced to a minimum for long life and simple maintenance. Environmentally Friendly Babcock Wanson burners have been designed to meet all normal environment standards. They optimise fuel consumption and are easy to maintain. Flue gas emissions in accordance with European regulations. Full Range of Ancillary Equipment System design and project management System ancillaries and heat exchangers Installation and piping service Supply and Commissioning https://www.fitzerincorporation.in/hot-air-heater.htm https://www.fitzerincorporation.in/hot-air-heater.htm Mon, 29 Sep 2025 00:00:00 +0530 Our highly dedicated and devoted team of professionals enables us to manufacture and supply a wide assortment of Hot Air Generator. Features: Modular design for easy transport & installation A fully safe & covered body designed to prevent dust Operated by Single / Three phase electric motor Specifications: Fuel: Solid fuel fired, Oil & Gas fuel-fired Product Name: Hot Air Generator Condition: New https://www.fitzerincorporation.in/air-cooled-chiller.htm https://www.fitzerincorporation.in/air-cooled-chiller.htm Wed, 18 Feb 2026 00:00:00 +0530 Our air-cooled scroll chillers can reduce your total cost of ownership because they are engineering for lower life cycle costs and reliability through design simplicity. Our compressor technology is direct drive, low speed (3600 rpm) with only two rotating parts for high reliability and efficiency. Optimized compressor parts profiles are designed specifically for chilled water applications to optimize full and part-load efficiency. Our 'Smart H' Microprocessor provides greater reliability through a proactive control strategy, safety functions with simple diagnostics and easy interface with any building automation / energy management using a single twisted pair of wires. Hiver air-cooled scroll chillers are the right choice for tight temperature control in virtually any application. Our compact chillers install easily and quickly into most building / factory layouts, making them ideal choices for retrofit or new building designs. Models Single Compressor Series : HACS Dual Compressor Series : HACD Multiple Compressor Series : HACM Applications : Comfort Air-Conditioning Chemical & Pharmaceuticals Engineering & Industrial Commercial & Institutional Hospitals & Hospitality Telecommunications Laser Technology Welding Engineering Aeronautical Testing Facility Defense Laboratory Testing facility Computer Chip Manufacturing Medical Process Blow Mold Machines Injection Molding Machines Plastics Processing Electroplating Industry Factory Furnaces Laboratory Equipments Food and Beverage Industry Food Process Industry Anodizing Plants Dye and Pigment Manufacturing Plasma Spray Machines Induction Hardening Machine Foundries Features : Superior Relaibilty High Energy Efficiency Long Equipment Life Adaptive frequency drive option available Clean Energy & Intelligent Mangements Solution for Energy Saving Equipments Easy Interface with BMS through protocols Ozone friendly refrigerant HFC134a, HFC407c Highly reliable desgin with best class cop Equipped with advanced 'H-smart' microprocessor based controller Efficient lubrication, even in the event of power failure Body is made up of Galvanized Steel Powder Coated / Polyurethane paint. Anti-freeze safety and water flow switches. World-class safety controllers for equipments & compressors Custom built machine enquiries are also entertained 100% functionally tested Equipment extended warrnty options are available up to 10 yrs. Site support with Amc options are available for entire life of equipments. https://www.fitzerincorporation.in/adiabatic-cooler.htm https://www.fitzerincorporation.in/adiabatic-cooler.htm Fri, 20 Feb 2026 00:00:00 +0530 Air Blast and Adiabatic Coolers for sealed water cooling systems and reducing maintenance costs on both the cooler and the equipment it serves with the added benefit of reducing health and safety issues created by the operation of evaporative cooling towers. Units are available from 5 Kw upwards.   Features :   - Chemical water treatment not required. - Cleaning and chlorination not required. - Sealed system, no contamination of the water algie does not grow. - Water losses through evaporation is eliminated. - Low operating noise levels. - Low operating costs. - Minimal plan area - Unsightly plumes of water vapor coming from your cooling equipment is stopped. Construction Options :   Tubes : Copper, M.S or stainless steel Fins : Aluminium, copper, G.I or stainless steel Fans : Axial type at variable speeds to unit customer requirements Casework : Galvanized steel, external painting, aluminium or stainless steel   https://www.fitzerincorporation.in/closed-loop-cooling-tower.htm https://www.fitzerincorporation.in/closed-loop-cooling-tower.htm Sat, 04 Jun 2022 00:00:00 +0530 e manufactures two types of closed circuit cooling tower and combined flow and counterflow coolingtower. Closed Circuit Cooling Tower are suitable for Thermal Power Plants. Closed Circuit cooling tower certain processes needs a closed loop, that's why the process water for cooling does not come in make contact with the full of atmosphere air. Closed loop type cooling is minimizes process fouling.   Types of Closed Circuit Cooling Tower   Combined Flow Counter Flow   We may well include various percent of the cooling water from the available water resources to the closed circuit cooling system and we be able to decrease the cooling tower size.   Mixing ration means the percentage of the added water. If our mixing ratio is zero, it is called absolutely closed system. When the mixing ratio is 100%, it is called an open system.   Closed Circuit Cooling Tower Water Temperature   Closed Circuit Cooling Towers are accomplished of incoming fluid temperatures as high as 180ºF (82.2ºC),.   Closed Circuit Cooling Tower Design   Our Closed Circuit Cooling System gives completely rated thermal presentation, which also by yourself verified over special types of flow and high temperature requirements. Closed Circuit Cooling Towers are high effciency and water saving. https://www.fitzerincorporation.in/evaporative-condenser.htm https://www.fitzerincorporation.in/evaporative-condenser.htm Wed, 18 Feb 2026 00:00:00 +0530 An evaporative condenser is a condenser integrated into a cooling tower which rejects the latent heat of condensation of refrigerant (Ammonia/Freon) through a coil to the surroundings by means of evaporation. Water sprayed onto the coil exchanges heat with the refrigerant. A small quantity of water is evaporated into the air thereby cooling the remaining water cascading to the basin at the bottom. Post evaporation the saturated air passes through the drift eliminators and then forced out using a fan. Construction And Working Of Evaporative Condenser : In evaporative condensers, both air and water are used to extract heat from the condensing refrigerant. Figure shows the schematic of an evaporative condenser. Evaporative condensers combine the features of a cooling tower and water-cooled condenser in a single unit. In these condensers, the water is sprayed from top part on a bank of tubes carrying the refrigerant and air is induced upwards. There is a thin water film around the condenser tubes from which evaporative cooling takes place. The heat transfer coefficient for evaporative cooling is very large. Hence, the refrigeration system can be operated at low condensing temperatures (about 11 to 13 K above the wet bulb temperature of air). The water spray counter current to the airflow acts as cooling tower. The role of air is primarily to increase the rate of evaporation of water. The required air flow rates are in the range of 350 to 500 m3/h per TR of refrigeration capacity. https://www.fitzerincorporation.in/dry-cooler.htm https://www.fitzerincorporation.in/dry-cooler.htm Fri, 20 Feb 2026 00:00:00 +0530 A Dry Cooling Tower is a type of cooling system that operates without water evaporation, making it ideal for regions with water scarcity. It functions by transferring excess heat from industrial processes through a closed-loop system, where heat is dissipated via air-cooled heat exchangers with extended fins. Key Features:   Closed-Circuit Operation: Heat is transferred through a surface separating ambient air from the working fluid (typically water or a water-glycol mixture). Air Cooling Technology: Uses natural or mechanical draft to move air over heat exchangers, eliminating the need for water evaporation. Minimal Water Consumption: Unlike wet cooling towers, dry cooling towers do not require makeup water, reducing operational costs. Applications: Commonly used in power plants, industrial cooling, solar energy systems, and HVAC applications. Technical features Casing in galvanized steel, painted with epoxy (RAL 9002) Battery frame in galvanized steel Copper tubes and aluminium fins Two heat exchanger lengths available: DUAL versions available, with two independent cooling circuits and fan sections 3 possible configurations depending Electrical box for fans connections and associated protection (option) Aluminium-coated fins (option) Copper fins (option) Stainless steel tubes (option) https://www.fitzerincorporation.in/water-cooled-chiller.htm https://www.fitzerincorporation.in/water-cooled-chiller.htm Wed, 18 Feb 2026 00:00:00 +0530 https://www.fitzerincorporation.in/inter-cooler.htm https://www.fitzerincorporation.in/inter-cooler.htm Fri, 20 Feb 2026 00:00:00 +0530 Inter cooler: Most industrial compressors operating today are a multistage design. To optimize the cost of compressing gases it is popular to use multi-stage industrial compressor. When the Air compressor compresses air, heat is generated this causes the air to expand requiring an increase of horsepower for further air compression. If we remove the heat generated by compressing air, the total horsepower required for addition air compression is reduced up to 15%. For a multi stage compressor is to cool the gas between compression stages. Thus the role of the compressor intercooler is to provide colder, dryer, denser air to the next stage of compression. In addition to inter stage coolers, the compressor's final discharge is usually routed through an after cooler, which also provides colder and dryer gas to the end use point. We provide Intercooler to suit compressor mounting by maintaining critical nozzle distance, as well as side mountings with volume bottles to avoid pulsation. EFFICIENCY Moisture Separator are largely used for the separation of coarse mist (or spray) from gases and vapors. A limit drop size (Dp) is used to characterize them and it is defined as the smallest particle which can be removed to an extent of 99%. PRESSURE DROP Due to the large percentage of the cross section available for gas flow, the pressure drop in a vast majority of applications is less than 250-500 mm WC. As mentioned above, for high efficiency applications, a larger pressure drop is to be expected. .   Thermal Calculation are done on the based on suction condition     Normal condition (0 °C, 760 mmHg) Standard Condition (60 °F,14.7 Psig) Actual Volume As per customer’s requirement https://www.fitzerincorporation.in/after-cooler.htm https://www.fitzerincorporation.in/after-cooler.htm Fri, 20 Feb 2026 00:00:00 +0530 After cooler: Water or moisture is not desirable in the transmission lines of an air compression system. Water carried through the lines washes away lubricating oil from the tools the compressed air is running. This causes the tools to operate sluggishly & increases the need for maintenance. The effect is compounded in high speed tools, where wearing surfaces are limited in size & excessive wear reduces efficiency by creating air leakage. Further problem results from the decrease of temperature caused by sudden expansion of air at the end. This low temperature creates condensation, which freezes around port and valves & impairs efficiency. These conditions can be minimized by removing the moisture from the air directly after compression, before the air enters the distribution system. The compressed air discharged from compressor is hot. Compressed air at these temperatures contains large quantities of water in vapor form. As the compressed air cools this water vapor condenses into a liquid form. As an example if an after cooler is not used, a 200 scfm compressor operating at 100 psig introduces 45 gallons of water into the compressed air system each day. Functions of compressed air after coolers Cool air discharged from air compressors via the heat exchanger Reduce risk of fire (Hot compressed air pipes can be a source of ignition) Reduce compressed air moisture level Increase system capacity Protect downstream equipment from excessive heat https://www.fitzerincorporation.in/energy-plant.htm https://www.fitzerincorporation.in/energy-plant.htm Fri, 20 Feb 2026 00:00:00 +0530 ENERGY PLANT   Energy Plant is a unique solution from Thermax which offers multiple heating media such as Steam, thermal oil and Hot gas through highly efficient system with thermal efficiency more than 94%. This system helps to minimize cost and maximize the operating efficiency. We have capability of supplying Energy Plant up to 97 MW.” https://www.fitzerincorporation.in/waste-heat-recovery-system.htm https://www.fitzerincorporation.in/waste-heat-recovery-system.htm Sat, 04 Jun 2022 00:00:00 +0530   WASTE HEAT RECOVERY is a process of recovering ENERGY from waste process outputs. These are custom built equipment or systems designed as per the waste heat available and the process heat load.    • These are custom built equipment as per the type waste heat available and the process heat requirements. A detailed study of the client's system is required.    • These systems can be designed to recover waste heat from high temperature flue gases of furnaces , DG sets, boilers or any other heat source.   • The waste heat recovery can be designed in shell and tube type or water tube type design based on the operating pressure of the system.      SMOKE TUBE TYPE WASTE HEAT RECOVERY SYSTEMS :    • Package type boilers is an internal furnace Boiler with a three pass, fully wet back & smoke tube type design. The fuel is charged through a charging door to keep the fire going. Package type is designed to provide low cost heating with minimum operational complexity.    • Due to proper shell or steam drum diameters, steam volume is more & hence better steam quality.    • Steam Quality is better as Properly Designed Drum Internals are Provided.    • Provided with accessories like Economiser, Deaerator Tank etc. as per requirement for better performance of the Waste Heat Boiler.    • Capacity and Working Pressure of the Waste Heat Recovery is considered as per Customers requirement.    • Heat Exchangers and Waste Heat Recovery Boilers are especially made as per codes like IBR 1950 with its Latest Amendments/TEMA etc.    https://www.fitzerincorporation.in/fin-tube-economizer.htm https://www.fitzerincorporation.in/fin-tube-economizer.htm Mon, 29 Sep 2025 00:00:00 +0530 “HSG” can generate not only saturated steam but also superheated steam by recovering main engine thermal energy, and supplies superheated steam to T/G system* which is adopted by VLCC or container carrier due to having enormous thermal energy. ＊ T/G System (Turbo Generator System) T/G System is to make the inboard electricity by steam turbine with superheated steam during her navigation without operating Diesel Generator Engine, and contribute to save fuel oil consumption that is to say ‘economical system’. DESIGN　FEATURE 1.Compact design by adopting square fin tubes. 2.Simplified construction. 3.Easy maintenance and handling. 4.Realize the best design to meet the exhaust gas conditions with optimum fin pitch. https://www.fitzerincorporation.in/super-heater.htm https://www.fitzerincorporation.in/super-heater.htm Mon, 29 Sep 2025 00:00:00 +0530 A SUPER HEATER is a device used to convert saturated steam or wet steam into super-heated steam or dry steam. There are three types of super heaters : 1. RADIANT SUPER HEATER : Placed directly in the combustion chamber. 2. CONVECTIVE SUPER HEATER : Located in the path of the hot gases. 3. SEPARATELY FIRED SUPER HEATER : Totally separated from the boiler. We at SGM TECH design and manufacture all types of super heaters. We study the client's requirements and design the most optimum solution by adopting best engineering methods. https://www.fitzerincorporation.in/heavy-fuel-oil-heater.htm https://www.fitzerincorporation.in/heavy-fuel-oil-heater.htm Wed, 18 Feb 2026 00:00:00 +0530 Heavy Fuel Oil (HFO) is the alternative fuel to Natural Gas commonly used in vast areas of the world where it is largely available In some case HFO is used as alternative and in combination with NG in dual fuel furnaces, when the price of NG is subject to season fluctuations. Compared with NG, the HFO is more critical to manage and needs space for reception, storage, treatment and distribution. When designing our HFO combustion systems we keep into consideration all critical aspects of the fuel and the environmental conditions where the furnace operates. The typical composition of our HFO combustion systems is: Main HFO storage Preheating and filtering/pumping system Main line distribution Heating and straining unit Dosing and pumping unit Reversal unit Compressed air section   As the quality of HFO can vary, in order to guarantee the maximum flame stability in the furnace the HFO heating and straining is accurately controlled. Strainers help in clarifying the fuel oil and removing large size impurities from the fuel oil system. The HFO dosing is controlled precisely as each burner will deliver constantly the same amount of fuel thus avoiding flame asymmetry within melting tank. Both air and HFO are controlled and modulated continuously keeping stable Air / HFO ratio at any furnace load thus ensuring better efficiency. Related arguments: Regenerative Furnaces Recuperative Furnaces Oxy-Fuel furnaces Underport burners Recuperative burners Oxy-fuel burners   https://www.fitzerincorporation.in/charge-air-cooler.htm https://www.fitzerincorporation.in/charge-air-cooler.htm Fri, 20 Feb 2026 00:00:00 +0530 CHARGE AIR COOLERS are suitable for a variety of applications including Marine engine and Generator cooling. The Charge Air Coolers can be adapted for use on marine and land based equipment in a variety of sizes.   Product Detail We are offering an assortment of charge air coolers which are known for their excellent industrial worth and effective uses. Our products offers quality and durable life with the promise of the full utility of the various types of integrated pattern engineering advances we have made in the recent times. We use high technology and anti-corrosive factors to increase the overall worth of our units by a great length. Our products could be used for all sorts of backgrounds and moisture laden working conditions. We customize and package them as per customers' demands. With the help of our R & D department we manufacture client centric products and deliver them at cost effective price.   Features of Charge Air Coolers include Variety of sizes available to suit a wide range of applications. Variety of materials for industrial and marine use. Completely customized cooler. https://www.fitzerincorporation.in/marine-engine-oil-cooler.htm https://www.fitzerincorporation.in/marine-engine-oil-cooler.htm Mon, 29 Sep 2025 00:00:00 +0530 With engine efficiency constantly improving, the demand for more efficient oil cooling has never been greater. Bowman is a leading UK manufacturer of efficient, durable oil coolers for both industrial and marine engines and transmissions. Designed specifically for lubrication oil cooling, these high-quality units can be used with engines rated up to 8900 kW and are suitable for use with a range of cooling media, including sea water, fresh water or engine coolant.   Product Benefits Compact design Easily installed and integrated with the engine Premium quality UK manufactured, using quality components Easy product selection Available quickly from our technical experts Rapid delivery Extensive stockholding for fast response Wide range Suitable for engines rated from 20 kW to 8900 kW High performance Models are available for up to 30 bar oil pressure https://www.fitzerincorporation.in/convection-recuperator.htm https://www.fitzerincorporation.in/convection-recuperator.htm Mon, 29 Sep 2025 00:00:00 +0530 https://www.fitzerincorporation.in/pressure-vessels.htm https://www.fitzerincorporation.in/pressure-vessels.htm Mon, 29 Sep 2025 00:00:00 +0530 Vessels & Tanks :- We Design, Engineering and manufacture customized Vessels and Tank with various material of construction line MS, SS 304, SS 316L, FRP coated or MS Rubber Lined, PTFE lined and many more. We are working with nos. of OEM for their routine requirement of vessels and tanks in their projects. Reactors:- Reactor Vessel is the heart of process of any industry. We offer customized design (process and mechanical) and do fabrication in our own workshop as per Good Engineering Practice as well as for ASME codes also. We deal in all types of reactor vessel like jacket, non jacketed , agitated and limped. We also deal in pillow plate jacket reactor vessel also which provided high heat transfer with low operating cost and capital cost too. https://www.fitzerincorporation.in/storage-tanks.htm https://www.fitzerincorporation.in/storage-tanks.htm Mon, 29 Sep 2025 00:00:00 +0530 https://www.fitzerincorporation.in/tube-in-tube-heat-exchanger.htm https://www.fitzerincorporation.in/tube-in-tube-heat-exchanger.htm Mon, 29 Sep 2025 00:00:00 +0530 Tube in Tube Heat Exchangers Our range of Corrugated Tube Heat Exchangers use corrugated Tubes to enhance heat transfer. Two types of heat exchanger are available. The mono-tube design has a single tube within a tube and the multi-tube design has a number of tubes inside a shell. Each design has variants for either industrial or hygienic applications. The construction can be either all welded or with removable tubes for ease of maintenance. Advantages: Higher thermal efficiency due to corrugated tubes Easy to clean Low maintenance Materials: Product side in AISI 316, AISI 316L, Duplex steels Service side in AISI 304 Other materials available on request Options: Stainless steel frame Thermal insulation https://www.fitzerincorporation.in/pillow-type-plate-heat-exchanger.htm https://www.fitzerincorporation.in/pillow-type-plate-heat-exchanger.htm Fri, 20 Feb 2026 00:00:00 +0530 Pillow Type Plate Heat Exchanger uses metal plates to transmit heat between two fluids and is available in different specifications. Also, using this modern solution has more advantages over conventional heat exchangers. At FITZER, you will get the unparalleled quality at industry leading prices. Being one of the industry’s leading Plate Heat Exchanger Manufacturers in Gujarat - INDIA, We offer several specifications to choose from.Major Characteristics Of Plate Heat Exchanger Are: Simple And Compact Design: This Industrial Plate Heat Exchanger has a simple fabrication and comes in small and easy-to-use designs to fit in your industry premises. These thin sheets have corrugations and patterns to increase the surface area as well as the efficiency of the products. Quick To Clean And Maintain: These Heat Exchangers are made of good quality metal, which makes it easier to clean and maintain them after completing the application. Easy To Enhance The Capacity: You can simply expand the size and capacity of the sheet by just adding one along with others. Application Areas: Steel Industry Marine Industry Pharma Industry Dairy Industry Beverage Industry https://www.fitzerincorporation.in/u-tube-heat-exchanger.htm https://www.fitzerincorporation.in/u-tube-heat-exchanger.htm Wed, 18 Feb 2026 00:00:00 +0530 U Tube bundle Heat Exchanger can build "U" tube bundles, straight tube "floating" tube bundles, or we can retube fixed tubesheet heat exchangers when the bundles is not removable and multitherm is not locked into any one material. Heat-exchanger system consisting of a bundle of U tubes hairpin tubes surrounded by a shell outer vessel, one fluid flows through the tubes, and the other fluid flows through the shell, around tubes.Multitherm can duplicate any existing bundle to include dimensions, materials and performance.Some bundles tend to be build with copper tubes and steel tubesheets. U Tube bundle Heat Exchanger of each tube are connected to plenums (sometimes called water boxes) through holes in tubesheets. The tubes may be straight or bent in the shape of a U, called U-tubes.   Specifications : U Tube bundle Heat Exchanger which typically have U-tubes. U Tube bundle Heat Exchanger can be used to boil water recycled from a surface condenser into steam to drive a turbine to produce power. Most U Tube bundle Heat Exchanger are either 1, 2, or 4 pass designs on the tube side. This refers to the number of times the fluid in the tubes passes through the fluid in the shell. Applications : U Tube bundle Heat Exchanger fluid goes in one end of each tube and out the other.Surface condensers in power plants are often 1-pass straight-tube heat exchangers see Surface condenser for diagram. U Tube bundle Heat Exchanger are two and four pass designs are common because the fluid can enter and exit on the same side. U Tube bundle Heat Exchanger construction much simpler. U Tube bundle Heat Exchanger are often baffles directing flow through the shell side so the fluid does not take a short cut through the shell side leaving ineffective low flow volumes. U Tube bundle Heat Exchanger are generally attached to the tube bundle rather than the shell in order that the bundle is still removable for maintenance. Counter current heat exchangers are most efficient and they allow the highest log mean temperature difference between the hot and cold streams. U Tube bundle Heat Exchanger companies however do not use single pass heat exchangers and they can break easily in addition to being more expensive to build. Often multiple heat exchangers can be used to simulate the counter current flow of a single large exchanger. Advantages : The simple design of a shell & tube heat exchanger makes it ideal cooling solution for a wide variety of applications. One of the most common applications is the cooling of Hydraulic Fluid and oil in engines, transmissions and hydraulic power packs. With right choice of materials they can also be used to cool or heat other mediums, Particularly with models where a floating tube bundle (where the tube plates are not welded to the outer shell) is available. Can also be used on fixed tube sheet heat exchangers. https://www.fitzerincorporation.in/kettle-reboiler-heat-exchanger.htm https://www.fitzerincorporation.in/kettle-reboiler-heat-exchanger.htm Mon, 29 Sep 2025 00:00:00 +0530   Kettle Reboiler Type Heat Exchanger Kettle Reboiler Type Heat Exchanger is a retaining wall or overflow weir separating the tube bundle from the reboiler section where the residual reboiled liquid called the bottoms product, Kettle Reboiler Type Heat Exchanger bundle is kept covered with liquid.Kettle reboilers are reliable in that they can handle high vaporization of up to 80 percent and are easy to maintain. The liquid from the bottom of the tower flows through the tube bundle and exits as condensate. Kettle reboilers are very simple and reliable. Kettle Reboiler Type Heat Exchanger may require pumping of the column bottoms liquid into the kettle, there may be sufficient liquid head to deliver the liquid into the reboiler. Kettle Reboiler Type Heat Exchanger reboiler type, steam flows through the tube bundle and exits as condensate. The liquid from the bottom of the tower, commonly called the bottoms, flows through the shell side. A restraining device controls the liquid level over the bundle. The high level of vaporization makes it prone to fouling, and these reboilers are expensive due to their large shell size and maintenance.   Specifications : Kettle reboilers are heat exchangers typically used to provide heat to the bottom of industrial distillation columns. In a typical classical distillation column, all the vapor driving the separation comes from the reboiler. The reboiler receives a liquid stream from the column bottom and may partially or completely vaporize that stream. Steam usually provides heat required for the vaporization. Applications : Kettle reboilers the liquid from the bottom of a distillation column to generate vapors which are returned to the column to drive the distillation separation. Proper reboiler operation is effective distillation. Advantages : The reboiler receives a liquid stream from the column bottom and may partially, completely vaporize that stream. Steam usually provides heat required for the vaporization. https://www.fitzerincorporation.in/paddy-dryer-heat-exchanger.htm https://www.fitzerincorporation.in/paddy-dryer-heat-exchanger.htm Wed, 18 Feb 2026 00:00:00 +0530 Leveraging on rich expertise and advanced manufacturing facility, we are counted as one of the reckoned manufacturers and exporters of Paddy Dryer Heat Exchanger. Quality is our prime focus, hence we source tested quality materials from authentic vendors to manufacture these heat exchangers as per industrial standards. Finds application in chemical, oil and refinery plants, our Paddy Dryer Heat Exchanger is demanded among our clients for its impeccable performance, easy installation and rust proof finish.    Features of Paddy Dryer Heat Exchanger :   Uniform and reliable heat transfer Rust proof body Hassle free installation https://www.fitzerincorporation.in/air-cooled-heat-exchanger.htm https://www.fitzerincorporation.in/air-cooled-heat-exchanger.htm Mon, 29 Sep 2025 00:00:00 +0530 Introduction to air-cooled heat exchangers   Water shortage and increasing costs, together with more recent concerns about water pollution and cooling tower plumes, have greatly reduced industry's use of water cooled heat exchangers. Consequently, when further heat integration within the plant is not possible, it is now usual to reject heat directly to the atmosphere, and a large proportion of the process cooling in refineries and chemical plants takes place in Air Cooled Heat Exchangers (AC-HEs).   There is also increasing use of Air Cooled Condensers for power stations. The basic principles are the same but these are specialized items and are normally configured as an A-frame or "roof type". These condensers may be very large-the condensers for a 4000 MW power station in South Africa have over 2300 tube bundles, 288 fans each 9.1 m in diameter and a total plot area 500 m X 70 m.   AC-HEs for process plants are normally just called Aircoolers, but should not be confused with devices for cooling air (best described as Air Chillers).   The design of an AC-HE is more complex than for a Shell and Tube Heat Exchanger, as there are many more components and variables.   The structure of an AC-HE is painted or galvanized, depending on customer specification. However, the costs are roughly the same if a multiple coat paint system is specified. Often the painted units are more expensive. There seems to be a trend toward more galvanized structures because they require virtually no maintenance. Painted structures require touch-up after installation and they often rust anyway. Air-cooled heat exchangers are used extensively throughout the oil and gas industry, from upstream production to refineries and petrochemical plants, under high pressure and high temperature conditions, as well as corrosive fluids and environments. https://www.fitzerincorporation.in/refrigeration-process-equipment.htm https://www.fitzerincorporation.in/refrigeration-process-equipment.htm Wed, 01 Jun 2022 00:00:00 +0530 https://www.fitzerincorporation.in/fully-welded-plate-heat-exchanger.htm https://www.fitzerincorporation.in/fully-welded-plate-heat-exchanger.htm Fri, 20 Feb 2026 00:00:00 +0530 The heat exchange plate of the fully welded plate heat exchanger is made of special stainless steel and pressed with a special mold. The surface is smooth and not easy to scale. Its unique corrugated design enables the fluid to generate turbulent flow even at low flow rates, and has high heat transfer efficiency. No non-metallic sealing material is used, so it has high temperature and pressure resistance. It can be used for extreme working conditions with a working temperature of 300°C and a pressure of 3.0Mpa. The advantage is that it has a corrugated plate structure similar to the plate heat exchanger. At the same time, it adopts a more advanced all-welding process to seal, no gasket design, and a variety of metal and alloy materials to choose from, ensuring the applicable temperature of the all-welded plate heat exchanger. Almost all heat exchange process occasions from -195℃ to 538℃ and working pressure from vacuum to 8.2MPa. And it has the characteristics of compact structure, efficient heat transfer and flexible use. https://www.fitzerincorporation.in/aluminum-fabrication-equipment.htm https://www.fitzerincorporation.in/aluminum-fabrication-equipment.htm Fri, 18 Aug 2023 00:00:00 +0530 3mm Aluminium Fabrication is a non-ferrous metal as it didn't consist of iron and due to non-ferrous metal which is more difficult to do fabrication as well as TIG welding on it compare to ferrous metal. Aluminum needs three times more heating power than ferrous metal like stainless steel. Grinding and buffing on Aluminium is quite difficult as it becomes soft and sticky during the Fabrication process.   We are offering Aluminum Sheet Metal Fabrication Service to our client. Our name is reckoned amongst leading and reputed industry for providing Aluminum Panel Fabrication. This Aluminum Panel Work service is provided by us as per the client’s needs. The Aluminum Panel Work  is done by our experts from best quality material and in various specifications. Owing to the rich industrial experience and expertise in this business, we are involved in providing Stainless Steel Fabrication Service. https://www.fitzerincorporation.in/immersion-water-heater.htm https://www.fitzerincorporation.in/immersion-water-heater.htm Wed, 18 Feb 2026 00:00:00 +0530 Immersion Heaters, These heaters are available in wide selection of rates, sizes and sheath materials suitable for the heating requirements of oil, water, and Chemical. Moisture resistant and explosion proof models are also available. All immersion heaters we offer you, including heaters for hazardous locations.   Features: Sheath Material starting from SS304, 321 COPPER, SS 316. MGO Insulation. Precisely design with uniform heat distribution. High Strength. CUSTOMIZED SIZE & DESIGN Brass as well M.S. & SS flanges IS available. Silver Brazing. Industries & Applications: Radiant Heating Dies and Manifolds. Immersion Heating. Solar. To Heat Up water in any Industries. Textile Industries. https://www.fitzerincorporation.in/ice-building-tank-ibt.htm https://www.fitzerincorporation.in/ice-building-tank-ibt.htm Fri, 20 Feb 2026 00:00:00 +0530 IBT is a system, which stores energy in the form of ICE. It is applicable in Dairy Industry for quick process in short time with certain limit of power load.   FREON AS A REFRIGERANT: Features: No need of civil & fabrication work at customer site Easy to lift & shift Energy efficient Better insulation Advantages: Requires less connected power load The ice water intensively cools the product without any risk Power supply is not required once ice formation is completed No requirement of Cooling Tower and water supply (For Air-Cooled type) Wide capacity with storage tank upto 1,00,000 Ltr./33,000 KG ice formation per day Cooling energy storage capacity upto 900 TR/Day   AMMONIA AS A REFRIGERANT: Features: Option-1 Portable IBT No need of civil & fabrication work at customer site Easy to lift & shift Energy efficient Better insulation Features: Option-2 M.S. fabricated IBT at customer site with civil construction Customised IBT Energy efficient Better insulation Advantages: Requires less connected power load The ice water intensively cools the product without any risk Power supply is not required once ice formation is completed Wide range of storage tank Cooling energy storage https://www.fitzerincorporation.in/steam-accumulators.htm https://www.fitzerincorporation.in/steam-accumulators.htm Wed, 18 Feb 2026 00:00:00 +0530 Steam Accumulator is a pressure tank made up of steel contain hot water and steam under pressure steam accumulator is a type of energy storage device. Accumulators are modern boilers are small in size, Efficient and high responsive change in loads. Steam accumulators is an extension of the energy storage capacity of boilers, steam boilers have a certain capacity for producing and supplying steam. For example: when the demand for steam from the plant is low and the boiler can generate more than required steam the excess steam is introduced into a mass of water stored under pressure. FUNCTION OF STEAM ACCUMULATOR Steam Accumulator is a pressure tank made up of steel contain hot water and steam under pressure steam accumulator is a type of energy storage device. Accumulators are Morden boilers are small in size, Efficient and high responsive change in loads.   Excellent performance High operational frequency Quality tested Operated at optimum efficiency   USES OF STEAM ACCUMULATOR Steam Accumulator is a pressure tank made up of steel contain hot water and steam under pressure steam accumulator is a type of energy storage device. Accumulators are modern boilers are small in size, Efficient and high responsive change in loads. Steam accumulators is an extension of the energy storage capacity of boilers, steam boilers have a certain capacity for producing and supplying steam. For example: when the demand for steam from the plant is low and the boiler can generate more than required steam the excess steam is introduced into a mass of water stored under pressure.   DESIGNING SPECIFICATION FOR STEAM ACCUMULATOR Accumulator is constructed in the form of cylindrical, horizontal steel tank type of the tanks are based on the customer requirement and application. Data required for Steam Accumulators are as fallows   Capacity Flow rate Temperature Charging pressure   Discharging pressure https://www.fitzerincorporation.in/industrial-air-washers.htm https://www.fitzerincorporation.in/industrial-air-washers.htm Fri, 20 Feb 2026 00:00:00 +0530 Air washers are industrial cooling equipment used to maintain desired space temperature and humidity condition for comfort or process requirements.   Working of Air Washer: In Air Washers air comes in direct contact with  water which is sprayed over cellulose pads .As the hot air come in contact with water ,water evaporates and carries away heat of air in the process.  The outlet condition of air depends upon the difference between Dry bulb and wet bulb temperature of ambient air.   Air washer with improved efficiency: FITZER - The manufacturer of air washer also provides innovated compact Air Washers with 3 or 4 side pads for more area coverage and better cooling efficiency.   Features Single speed wired Remote controller with single phasing and overload protection. Multi speed option with VFD to control air flow as per requirement. Low running cost compared to Air Conditioners. Rust free Stainless Steel Tanks. AMCA Certified Centrifugal Blowers. IE2 Efficiency, IP 55 Protected Electric Motors of Siemens /ABB/CG/Havells make. Very Effective cooling in hot & dry climate areas. Unique and non-clogging type water distribution system. Auto water drain facility. You will also get a gamut of added benefits of using them in any industrial area where proper cooling and ventilation is required to ensure comfortable working environment.   BENEFITS OF AIR WASHERS   Air washers reduces temperature upto 19 Deg C in Hot & Dry Climates. Consumes upto 80% less electricity than refrigerated air conditioning. Air washer Technology is Economic, natural & sustainable. Air washer Improves indoor air quality by removing fumes & odours. Evaporative cooling efficiency increases as temperature rises. Delivers 100% fresh, filtered, healthy Natural air. Submersible type water pump for continuous water supply. No need to close doors & windows. Improves productivity in industries through fresh, clean & cool air. Low Capex & Opex.   Advantages of Air washers Air washers has the advantage of being an hybrid appliance, a combination of an air purifier and a humidifier. Like conventional humidifiers, air washer adds therapeutic moisture to the air.   And, like a conventional air purifier, an air washer removes symptom-triggering allergens from the air. Therefore, they not only cool the air but have the capability of soothing your uncomfortable dry air symptoms and easing your allergies.   Fan Features The fans are of international standard and are AMCA certified. Centrifugal blower forward / backward curved as per static pressure requirements. The fans are static and dynamically balanced. Electric Motors TEFC Squirrel Cage Induction Motor, IP 55 Protected VFD Compatible induction motor of Standard make Siemens/CG/Havells /ABB etc. Cooling Pads High quality Evaporative Cooling Pads CELdek-Munters/ Hu-Tek / Eco-Cool make are used in Air washer for high saturation and cooling efficiency upto 90%. The Cooling Pad of Air Washers  is made of cellulose ( Pulp ) sheet and available in 5 &  7mm flute sizes. The Cellulose Pad is cross-corrugated and coated with anti-rot, rigidifying and wetting agent. https://www.fitzerincorporation.in/electronic-drum-level-indicator.htm https://www.fitzerincorporation.in/electronic-drum-level-indicator.htm Tue, 07 Oct 2025 00:00:00 +0530 electronic drum level indicator is an advanced electronic water level monitoring system. an edli system includes multiple probes fitted to a water column and connected to an electronic unit, which is widely accepted as a reliable & maintenance free equipment. pressure parts available for applications upto 207 bar at 370°c as standard. electronics available in various configurations and include type 201, type 202 and type 202b. features choice of 8 to 48 channels for various levels of visibility depending on site requirement available for pressure rating upto 207 bar (3000psi) @ saturated temperature dual power supply with 100% redundancy and power supply failure indication (ac/dc) self diagnostic features to detect open-circuit/short-circuit/ probe contamination/ internal component/ ground failure fully validated trip logic eliminates spurious trip fully configurable multiple spco/dpco relay outputs with energized/de-energized and time delay output options multiple remote display facility opto-isolated dual 4-20ma analogue output digital water level indicator in mm (optional) available for hazardous zone (explosion proof) and super-critical application   approvals :   quality system accredited to iso 9001 design approval of pressure parts, operational and field testing of the system third party inspection, testing and certification by approved international agencies certification of explosion proof to international standard for use in hazardous area   operating principle the technology uses resistivity discrimination between steam and water to provide indication detection level is dependent on water purity and boiler operating conditions i.e. temperature and pressure of boiler sensing element is a probe with an insulated tip inserted in a side-arm water column. voltage is applied to the tip: conduction occurs between the tip and the inside wall of the column resistance 0.1m ohm indicates steam i.e. probe is in steam. an electronic discrimination circuit is used to discriminate the probe resistance and generate the display logic accordingly a vertical display of multiple green/red leds provide resolution for the water level indication   components: water column probe electronic unit remote display unit probe cable     https://www.fitzerincorporation.in/rice-mill-heat-exchanger.htm https://www.fitzerincorporation.in/rice-mill-heat-exchanger.htm Fri, 20 Feb 2026 00:00:00 +0530 We are prominent manufacturers & suppliers of Rice mill Heat Exchangers from India. We are appreciated in the worldwide market and are offered at the competitive prices. We are able to maintain the trust and allegiance of our clients by constantly supplying products at par with international quality standards.   Product Details: Application Food Process Industry, Power Generation, Hydraulic and Industrial Process, Mining & Construction Industry, Pharmaceutical industry Medium Used Oil, Water, Air Inlet Temperature as per requirement Type Air-Cooled Outlet Temperature as per requirement Flow Rate (L/min) as per requirement Maximum Working Pressure (in PSI) 300 psi Rice Mil   Furthermore, the range is used in the following: Heat Recovery project. Paper manufacture industries. Printing industries. Wet processing machinery for textile industries. Plywood industries. Food processing Industries. Chemical & fertilizer industries. https://www.fitzerincorporation.in/glass-tube-rotameter.htm https://www.fitzerincorporation.in/glass-tube-rotameter.htm Mon, 06 Oct 2025 00:00:00 +0530 FITZER Glass Tube Rotameters [FITZER/GTR-150] are precision flow measuring instruments designed for accurate indication of liquid and gas flow rates in closed pipelines. Built with durable borosilicate glass tubes and corrosion-resistant wetted parts, they ensure long service life, high visibility, and reliable performance across various industrial applications.   Applications Chemical and Petrochemical Industries Water & Wastewater Treatment Plants Pharmaceutical and Food Processing Units Laboratories and R&D Centers HVAC & Process Cooling Systems   Advantages Clear, easy-to-read scale with high visibility Excellent chemical resistance Compact and economical design Simple installation and low maintenance https://www.fitzerincorporation.in/metal-tube-rotameter.htm https://www.fitzerincorporation.in/metal-tube-rotameter.htm Thu, 19 Feb 2026 00:00:00 +0530 FITZER Metal Tube Rotameters [FITZER/MTR-200] are robust, industrial-grade flow measuring instruments designed for accurate measurement of liquids, gases, and steam under high-pressure and high-temperature conditions. These rotameters feature a tapered metal tube with a magnetic float and pointer assembly, ensuring precise and vibration-free flow indication even in harsh process environments.   Applications Chemical & Petrochemical Plants Refineries & Power Plants Water & Wastewater Treatment Systems Pharmaceutical & Food Processing Units HVAC, Cooling & Boiler Feed Systems Advantages Rugged all-metal construction for durability Suitable for opaque, corrosive, or high-pressure fluids Optional electronic transmitter for remote monitoring Maintenance-free, vibration-resistant design Long service life with high repeatability Packaging & Delivery   Packaging Type: Wooden Box / Export Standard Delivery Time: 4-5 weeks (depending on specification) Minimum Order Quantity: 1 unit https://www.fitzerincorporation.in/u-tube-absolute-pressure-mercury-filled-manometer.htm https://www.fitzerincorporation.in/u-tube-absolute-pressure-mercury-filled-manometer.htm Thu, 09 Oct 2025 00:00:00 +0530 Fitzer Incorporation offers precision-engineered U-Tube Absolute Pressure Mercury-Filled Manometers designed for accurate and reliable measurement of absolute, differential, and gauge pressure in laboratory and industrial applications. In process of Chemical, Pharmaceuticals, Food Industries, Fertilizer, Oil Industries, Process Engineering Industries and where accurate measurement of absolute pressure vacuum require in its last stages. The manometer consists of a transparent glass U-tube partially filled with high-purity mercury, providing a direct and visual indication of pressure difference. One leg of the tube is connected to the process pressure source, while the other is sealed under vacuum to measure absolute pressure with exceptional stability and repeatability.   Ideal for: Calibration setups, test benches, HVAC systems, fluid mechanics labs, and industrial process instrumentation.   Key Features:   High-accuracy absolute pressure measurement Transparent borosilicate glass U-tube for clear mercury column visibility Scale graduated in mmHg / cmHg / kPa / bar (as per requirement) Mercury filling ensures stable readings with minimal temperature effect Wall-mounting or stand-mounting options Suitable for air, non-corrosive gases, and clean dry process applications Compact, easy to maintain, and long-life design   Technical Specifications: ParameterDetails TypeU-Tube Mercury-Filled Manometer Measurement Range0–760 mmHg (customizable up to 2000 mmHg) FluidTriple-distilled Mercury Tube MaterialBorosilicate Glass ScaleScale milky white PVC with Black marking lines and figures Accuracy±0.25% F.S. End ConnectionBrass / SS304 / SS316 MountingWall / Panel / Portable Stand Operating TemperatureUp to 60°C ApplicationAbsolute, Differential, and Gauge Pressure Measurement   Applications: Calibration laboratories HVAC & clean-room testing Research and educational institutes Industrial process monitoring Instrumentation and control systems   Material of Construction: Tube: Borosilicate Glass Scale Plate: Scale milky white PVC with Black marking lines and figures End Fittings: SS316 / Brass Filling Medium: Pure Mercury   Brand: FITZER Origin: India Availability: Ready Stock / Made to Order MOQ: 1 Unit https://www.fitzerincorporation.in/high-pressure-safety-valve.htm https://www.fitzerincorporation.in/high-pressure-safety-valve.htm Fri, 10 Oct 2025 00:00:00 +0530 FITZER offers a range of High Pressure Safety Relief Valves designed for critical protection of pressurized systems operating up to 500 bar and 1000 bar. These valves ensure safe and reliable pressure release, preventing equipment damage, leakage, or catastrophic failure in high-pressure lines. Each valve is precision-engineered and factory-tested, ensuring consistent performance, repeatability, and leak-tight sealing even under extreme pressure and temperature conditions. Suitable for gas, liquid, and hydraulic systems across process industries, our safety valves conform to international safety and performance standards. Key Features: Pressure range up to 1000 bar (100 MPa) Compact and rugged stainless steel construction Factory calibrated and hydrotested Bubble-tight sealing at seat Adjustable or fixed pressure setting options Designed for quick release and reliable reseating Compatible with gas, air, water, oil, and hydraulic fluids Easy installation and maintenance Technical Specifications: ParameterDetails Type High Pressure Safety Relief Valve Pressure Range 0–500 bar / 0–1000 bar (customizable) Body Material SS316 / SS316L / Monel (optional) Seat & Trim SS316 / PTFE / Viton End Connection 1/4" to 1” NPT (F) / BSP / Welded Set Pressure As per customer requirement Temperature Range -20°C to +200°C Discharge Type Direct spring-loaded / Poppet type Leakage Class Class VI (API 527) Test Certificate Hydrotest, Set Pressure, and Leak Test Report Standard API 520 / ASME Sec VIII Div. 1 Applications: High pressure gas & liquid systems Hydraulic test benches CO₂ and compressed gas plants Industrial gas cylinders and manifolds Cryogenic and petrochemical applications Power plants, OEM equipment, and R&D facilities Material of Construction: Body: SS316 / SS316L Spring: SS316 Seat: PTFE / Viton Adjusting Screw: SS304 Gasket & Seal: PTFE Brand: Fitzer Origin: India Pressure Rating: 500 bar / 1000 bar Availability: Made to Order   MOQ: 1 Unit https://www.fitzerincorporation.in/co-based-chillers.htm https://www.fitzerincorporation.in/co-based-chillers.htm Tue, 04 Nov 2025 00:00:00 +0530 CO₂ Based Chillers are advanced, eco-friendly cooling systems designed to deliver high performance, energy efficiency, and sustainability. Each unit is custom-engineered for specific process cooling applications and is continuously tested for a wide range of industrial and commercial uses.   These chillers operate efficiently across medium, low, and ultra-low temperature ranges, making them ideal for demanding environments that require precise temperature control and long-term reliability.   Applications:   Supermarket & Retail Refrigeration Industrial Gas Cooling Cold Storages & Freezing Plants Process Cooling in Food, Pharma & Chemical Industries General Industrial Cooling Requirements   Key Features:   ✅ Eco-Friendly Refrigerant: Utilizes natural CO₂ (R-744) — non-toxic, non-flammable, and ozone-safe ✅ Energy Efficient Design: Optimized components ensure high COP and reduced power consumption ✅ Hazardous Area Certified: ATEX, Zone-2, IIA, T3 approved for safety-critical environments ✅ High-Grade Materials: All wetted parts in stainless steel, PED certified for durability ✅ Global Quality Components: GEA screw compressor, ABB ATEX motor, Siemens PLC ✅ Plug-and-Play Unit: Factory-assembled, skid-mounted, and tested ✅ Remote Control: PLC + HMI touchscreen interface for seamless operation ✅ Low Maintenance: Simple design, corrosion-resistant construction, and long service life ✅ Make in India: Designed and manufactured in India with world-class standards Technical Highlights:   Refrigerant: CO₂ (R-744) Cooling Capacity: Custom-built as per client requirement Temperature Range: Medium to ultra-low (as per application) Applications: Industrial & Commercial Cooling   Standard Accessories:   PED Certified Suction Accumulator & Liquid Receiver SS Oil Separator with Demister Danfoss Electronic Expansion Valve Honeywell Pressure/Temperature Transmitters SS Instrument Tubing & Swagelok Fittings Siemens PLC & 7” HMI for Control & Monitoring   🌍 Future Sustainability & Carbon Emission Impact FITZER's CO₂ Based Chiller Technology represents a major step forward in sustainable industrial refrigeration. By using carbon dioxide (R-744) — a natural refrigerant with zero ozone depletion potential (ODP) and an ultra-low global warming potential (GWP ≈ 1) — these chillers directly contribute to reducing carbon emissions and meeting future global climate goals. As the world moves away from synthetic refrigerants like R-22, R-134a, and R-404A, which have high GWP values, CO₂-based systems offer a clean, future-ready alternative that aligns with upcoming F-Gas and HFC phase-out regulations. In addition, CO₂ chillers operate with higher energy efficiency in low-temperature applications, leading to lower electricity usage and reduced indirect emissions. Over a system’s life cycle, this translates into: Up to 40% lower total greenhouse gas impact Reduced operational carbon footprint Compliance with ESG, LEED, and green certification standards   By adopting this technology today, industries future-proof their operations against environmental regulations while enhancing brand image as a sustainable manufacturer.   https://www.fitzerincorporation.in/graphite-plate-and-frame-heat-exchanger.htm https://www.fitzerincorporation.in/graphite-plate-and-frame-heat-exchanger.htm Mon, 24 Nov 2025 00:00:00 +0530 Graphite Plate & Frame heat exchangers are designed to cool down or heat up ultra-corrosive chemicals. Safety, reliability, and performance in the long-term are our primary considerations when we size, design and manufacture our impervious graphite plate heat exchangers.  Key benefits: Efficiency 2 to 3 times higher efficiency: These units deliver 2–3 times greater efficiency compared to conventional heat exchangers, allowing for a much more compact design. The high internal turbulence significantly increases the film heat transfer coefficient, resulting in superior thermal performance.   Corrosion Resistance Exceptional resistance to aggressive acids: Our range of impervious graphite plate heat exchangers offers highly customized solutions for ultra-corrosive heat transfer applications. They provide excellent corrosion resistance to strong acids including HCl, HF, H₂SO₄, and HBr.   However, they exhibit limited resistance to oxidizing agents such as Cl₂ and high-concentration H₂SO₄ (above 65%), as well as caustic solutions like KOH and NaOH.   Modular Design Ultra-compact and fully customizable: Every impervious graphite plate heat exchanger is designed with a modular architecture, enabling precise adaptation to specific process requirements. The number and dimensions of plates, along with process and service-side flow passes, can be customized to achieve optimal velocities, pressure drops, and heat transfer efficiency.     All graphite plates are precision-machined after impregnation, ensuring a perfectly smooth heat transfer surface and delivering excellent corrosion resistance along with long-term operational reliability.   Design:  Modular design: number of plates, size of plates and number of passes can be adjusted Different plate sizes: GP 25 and GP 40 PTFE lined steel nozzles Thermal expansion compensation ensured by helicoidal springs   MOC:  The material used for these heat exchangers is the same as that for block heat exchangers, with a high thermal conductivity of approximately 130 W/m.K. GAB GPX 1, GPX 1T , or GPX 2 plates Pressure plates and flanges: PTFE carbon steel Tie rods, nuts, bolts, washers, springs: stainless steel PTFE gaskets between the plates   Features: Design pressure: up to 6 bars in standard  Design temperature: -30°C to +200°C (-22°F to 392°F) Heat transfer area: up to 29m² Nozzle sizes: DN80 / DN100 PN16   Design:according to European PED, ASME code on request https://www.fitzerincorporation.in/rupture-discs.htm https://www.fitzerincorporation.in/rupture-discs.htm Thu, 27 Nov 2025 00:00:00 +0530 Rupture Disc Manufacturer – Product Overview A rupture disc (also called bursting disc) is a highly reliable pressure safety device engineered to protect industrial equipment, processes, and personnel from dangerous overpressure or vacuum conditions. When the system pressure reaches the disc’s predefined burst limit, the disc ruptures instantly, allowing excess pressure to escape and preventing catastrophic equipment failure. What is a Rupture Disc? A rupture disc is a non-reclosing pressure relief device installed in pipelines, vessels, reactors, heat exchangers, storage tanks, and other pressurized systems. It is precision-designed to burst at a specific pressure rating, ensuring immediate, fail-safe protection. Key Functions Safely relieves excess pressure Prevents explosions and system damage Protects personnel and equipment Enables safe operation of high-pressure processes Construction & Materials Rupture discs are manufactured using high-grade materials based on process requirements: Stainless steel Nickel, Inconel, Monel Aluminum Graphite PTFE / Plastic materials These materials offer excellent performance in high-temperature, corrosive, abrasive, or hazardous industrial environments. Applications Rupture discs are widely used in: Chemical & Petrochemical Plants Pharmaceuticals & API Processing Oil & Gas Industry Food & Beverage Processing Power Plants & Boilers Tanks, Pressure Vessels & Reactors Pipelines & Storage Systems Cryogenic and Vacuum Systems Advantages of Rupture Discs No moving parts → Zero mechanical failure Maintenance-free since there is no wear mechanism Instant response to sudden pressure spikes Cost-effective compared to safety relief valves Can be used with relief valves for dual protection High accuracy in burst pressure rating Suitable for extreme environments (temperature, corrosion, explosive atmosphere) Combination With Relief Valves Rupture discs are often installed upstream of a safety relief valve to:   Protect the valve from corrosion or contamination Improve sealing performance Reduce leakage Enhance system safety and redundancy   Uses of Rupture Discs Rupture discs are widely applied wherever reliable pressure relief is essential to safeguard equipment, processes, and personnel from dangerous overpressure or vacuum conditions. Key applications include:   Pressure Vessels: Installed in boilers, reactors, and other pressure vessels to prevent excessive pressure buildup and reduce the risk of explosions. Pipelines: Used in pipelines to protect the system from overpressure caused by blockages, pump malfunctions, or sudden pressure spikes. Chemical & Petrochemical Processes: Provide safety against pressure surges resulting from chemical reactions, thermal expansion, or equipment failure. Aerospace & Aviation: Applied in aircraft fuel tanks, hydraulic systems, and other components to manage overpressure and vacuum conditions. Pharmaceutical & Biotech Industries: Protect sensitive processing equipment from overpressure due to reactions or unexpected operational issues. Food & Beverage Processing: Ensure safety in storage tanks and production equipment by providing effective pressure relief during processing operations. https://www.fitzerincorporation.in/panel-air-conditioners.htm https://www.fitzerincorporation.in/panel-air-conditioners.htm Thu, 27 Nov 2025 00:00:00 +0530 FITZER panel air conditioner units are a perfect solution for cooling electrical and electronic control panels. Engineered with a deep understanding of high sensible cooling requirements, these units are built for continuous, long-hour operation. Their robust components and high-reliability electronics, combined with a high-ambient design, ensure uninterrupted performance of your machines throughout the year.   The range is available in multiple capacities from 250 to 10000 W/h on a single chassis, with flexible mounting, power supply, and refrigerant options to meet diverse application needs.   Product Features   Energy Efficient Design Optimized for reduced power consumption and long-term performance. Balanced System Architecture Ensures stable, reliable cooling across all operating conditions. High Ambient Temperature Compatibility Designed to perform efficiently even in elevated ambient temperatures. High-Efficiency Heat Exchanger & Airflow System Delivers superior heat transfer and optimal air circulation. Durable GI Sheet Metal Construction (Powder-Coated) Provides strong corrosion resistance and long service life. Maximum Utilization of Natural Heat Transfer Principles Engineered for scientifically optimized thermal performance. Easy-Mount Studs for Quick Installation Simplifies setup, saving time and effort. CE Certified – European Conformity Meets international safety and quality standards.   Available on request in a stainless steel 304 body, with top-mount and customized power supply options.   Due to continuous product enhancements and ongoing innovation, FITZER reserves the right to modify the design, technical specifications, and dimensions without prior notice. https://www.fitzerincorporation.in/welded-plate-heat-exchanger.htm https://www.fitzerincorporation.in/welded-plate-heat-exchanger.htm Wed, 18 Feb 2026 00:00:00 +0530 Bloc Type Welded Plate Heat Exchanger is made up of plate pack and frame. The plate pack is formed by welding a certain number of plates, then it is installed into a frame, which is configured by four corner girders, top and bottom plates and four side covers.  Welded Block Plate Heat Exchangers deliver high heat-transfer efficiency in a compact footprint, ideal for high pressure / high temperature and aggressive media where gasketed plate exchangers are not suitable. We manufacture and supply Welded Block Plate Heat Exchangers designed for demanding process duties in chemical, petrochemical, refinery, and power applications. The plate pack is fully welded (gasket-free), enabling safe operation with high pressures, high temperatures, and corrosive fluids. Its compact design reduces space requirement and improves thermal performance compared to conventional shell & tube in many duties. Key Benefits   Gasket-free welded construction (low leakage risk) Handles higher pressure/temperature than gasketed PHE High turbulence → high heat transfer coefficient Compact, low hold-up, faster response Suitable for fouling / aggressive services (design dependent) Specification: Material: SS304 / SS316 / SS316L / Duplex / Titanium / Hastelloy (as required) Shape: Rectangular Block / Skid Mounted Assembly (as applicable) Capacity: As per duty (Heat Load) / Flow rate (custom) Temperature Range: -20°C to 350°C (typical; as per design) Brand Name: FITZER Condition: New Voltage: Not Applicable (Heat Exchanger) Type: Welded Block Plate Heat Exchanger Specifications (paste-ready)   Construction: Fully welded plate block (no gaskets in plate pack) Flow Arrangement: Counter-current / Parallel / Multi-pass (as required) Design Pressure: Up to 45 bar (custom) Test Pressure: 60 bar Design Temperature: Up to 150 to 450 °C (custom) Heat Transfer Area: 4 to 865 m² (as per duty) Connections: Flanged / ANSI / DIN / BS (as required) Media: Water, oil, chemicals, solvents, refrigerants (compatibility as per MOC) Gasket: AFLAS, GRAPHITE, KLINGERSIL Mounting: Floor / Skid mounted, lifting lugs provided Testing: Hydro test, pneumatic/leak test as per standards Standards: As per customer specification / applicable codes Others Specifications  Applications: Heater, cooler, condenser, evaporator, heat recovery, interchanger Industries: Chemical, Petrochemical, Refinery, Power, Pharma, Food (as suitable) Advantages: Compact, high efficiency, low maintenance, leak-safe design Optional: Insulation, vent & drain, instrumentation nozzles, bypass line, skid piping welded block plate heat exchanger, welded plate heat exchanger, block type heat exchanger, gasket free plate exchanger, compact heat exchanger, high pressure heat exchanger, chemical heat exchanger, heat recovery exchanger   https://www.fitzerincorporation.in/glass-lined-reactors.htm https://www.fitzerincorporation.in/glass-lined-reactors.htm Wed, 18 Feb 2026 00:00:00 +0530 Glass Lined Reactors (GLR) are engineered for highly corrosive chemical processes, offering excellent resistance to acids, alkalis, and solvents. Suitable for chemical, pharma, dyes, agrochemical and specialty process industries. Industrial Supplies / Chemical Reactors / Process Equipment We manufacture and supply Glass Lined Reactors (GLR) designed for safe and efficient reaction, mixing, heating and cooling operations in corrosive environments. Our reactors feature a robust MS/SS outer shell with high-quality glass enamel lining to deliver superior corrosion resistance, long service life, and contamination-free processing—ideal for demanding chemical and pharmaceutical applications. Key Features High corrosion resistance against most acids/alkalis/solvents Smooth, non-stick surface for easy cleaning and reduced product contamination Jacketed design for effective heating/cooling (hot oil/steam/chilled water) Heavy-duty agitation system for uniform mixing and heat transfer Vacuum/pressure capable designs as per requirement Suitable for batch processes and critical applications   Applications Chemical processing, Pharma & API, Dyes & Pigments, Agrochemicals, Resin & Polymers, Specialty Chemicals, Intermediates. 5) Technical Specifications Capacity: 50 L to 40,000 L MOC (Shell): MS / SS304 / SS316 Design Pressure: 6 kg/cm² (g) Design Temp: -25 to 200 °C Jacket Type: Half coil / Limpet coil / Conventional jacket Agitator Type: Anchor / Turbine / Pitched Blade / Helical Ribbon RPM: as per requirement. Nozzles: As per P&ID / customer requirement Mounting: Leg / Skirt / Lugs Testing: Spark test, hydro test, vacuum test (as applicable) glass lined reactor, glr reactor, glass lined vessel, enamel reactor, chemical reactor vessel, jacketed reactor, pharma reactor, corrosion resistant reactor, stirred tank reactor, glass lined tank. https://www.fitzerincorporation.in/heavy-duty-industrial-exhaust-fan.htm https://www.fitzerincorporation.in/heavy-duty-industrial-exhaust-fan.htm Thu, 19 Feb 2026 00:00:00 +0530 Heavy Duty Industrial Exhaust Fan – High Airflow Ventilation Fan Industrial Exhaust Fan (Wall / Roof Mounted) – Heavy Duty Heavy Duty Axial Exhaust Fan for Factory Ventilation Heavy Duty Industrial Exhaust Fans are designed for high-volume air extraction in factories, warehouses, boiler rooms, and process areas. Robust construction ensures continuous duty, improved ventilation, and heat/fume removal. We supply heavy duty industrial exhaust fans for reliable ventilation and air extraction in industrial environments. Built with a strong impeller and rigid housing, these fans are suitable for high airflow applications such as heat removal, fume/smoke extraction, and general air exchange. Available in multiple sizes with direct drive or belt drive options, and optional guards/louvers for safe and efficient operation. FITZER Exhaust Fan is engineered to draw out polluted, stagnant indoor air and replace it with fresh outside air—creating a healthier, cooler, and more productive environment inside industrial and commercial premises. Air becomes “polluted” when it carries excessive hot air, humidity, carbon dioxide, chemical vapors, dust, fungal spores, and unpleasant odors. The FITZER Exhaust Fan combats this by ejecting contaminated indoor air and enabling continuous intake of clean air, helping maintain proper ventilation even in large, high-occupancy areas. FITTER Exhaust Fans are essential not only for comfort, but also for protecting goods, equipment, and buildings. Proper exhaust ventilation helps prevent damage caused by mildew formation, chemical deposition, corrosion, and overheating, thereby extending the life of stored materials and workplace infrastructure. They are equally critical for human health and safety in environments where indoor air tends to become stagnant due to poor airflow. In many modern facilities, self-propelled turbo ventilators alone are not sufficient to remove trapped heat effectively. FITZER Fiberglass Exhaust Fans deliver significantly stronger ventilation—up to 10× more effective than standard turbo ventilators—ensuring higher air exchange, improved comfort, and a noticeably fresher atmosphere across large premises.   Result: more fresh air, lower heat build-up, reduced odor and humidity, and a cleaner, more pleasant working environment. Key Features Heavy-gauge body with durable finish High air volume with efficient impeller design Low noise options available (as per design) Direct drive / belt drive options Suitable for continuous operation Optional bird screen, safety guard, backdraft shutter, rain hood Applications   Factories, warehouses, workshops, foundries, paint shops, boiler rooms, kitchens, HVAC exhaust, parking ventilation, heat & fume extraction. Different Industrial Names   Industrial Exhaust Fan Heavy Duty Exhaust Fan Factory Exhaust Fan Industrial Ventilation Fan Air Extraction Fan / Air Extractor Wall Mounted Exhaust Fan Roof Exhaust Fan / Roof Ventilator Fan Axial Flow Exhaust Fan / Tube Axial Fan FRP Exhaust Fan / Fiberglass Exhaust Fan Chemical Fume Exhaust Fan Smoke Exhaust Fan Dust Exhaust Fan High Volume Low Speed (HVLS) Exhaust (only if applicable) Corrosion Resistant Exhaust Fan (FRP/SS models) Applications   Removal of hot air and reduction of heat build-up Exhaust of humidity / moisture to prevent condensation and mildew Extraction of dust-laden air from production/packing areas Removal of chemical fumes / vapors / odors Improvement of air changes per hour (ACH) in large premises Ventilation for stagnant air zones and enclosed areas Support for fresh air intake alongside louvers/air inlets Protection of equipment, inventory, and building from overheating and deposits