The efficiency of a cooling tower depends upon its fill, the fill is made of rigid pvc or pp film of flame retardant quality with high heat exchange efficiency. The high efficiency fill reduces the motor input hp and assures uniform distribution of water, with minimum resistance to air flow. Below roll fillings is applied to newin brand counter flow round type & square type cooling towers, block/sheet fillings is applied to cross flow square type cooling towers. Material: pvc or pp or upvc Thickness: 0.35 mm Usage: for refrigerate Specification: cti Hs code: 84195000 Cooling method: counter flow Condition: new Temperature: -20 deg c to 50/65/95 degc Trademark: newin
We have several types of drift eliminator to meet different cooling towers' requirements. 1.Material: pvc 2.Reasonble price --order by pcs or by set, we couls install well in the factory 3. Fast delivery--- within 5 days after received payment 4. Hight quality Model no.: drift eliminator Material: pvc Condition: new Usage: cooling tower Trademark: newin Cooling method: counter flow or cross flow Certification: sgs, cti Warranty: one year Application: replace for cooling tower Specification: cti Hs code: 84195000
Water pump sepcial for cooling tower Output power: 0.18 to 30kw Power supply: produced by customers' requirements Type: totally fulled water proof Protection: ip55 Insulation class: f Model no.: water pump Structure: single-stage pump Power: electric Type: blade pump Usage: cooling tower Trademark: newin Origin: china Material: cast iron Assembly: pipeline pump Start up: start pump Warranty: one year Feature: waterproof Specification: ce, gb
Original motor, speed reducer, belts, fan blades, infill for spx(marley) cooling tower. Model no.: spx cooling tower Ventilation mode: mixing ventilation Air contact form: wet and dry Tower shape: round or square Application fields: industrial Condition: new Place of origin: marley china factory Cooling capacity: all model of spx cooling tower Package: wood packing Origin: china Cooling method: counter flow or cross flow Material: steel, stainless steel Air contact way: open Noise level: ultra low Certification: iso, ul, ce, sgs, cti Useage: replace for marley cooling tower Warranty: one year Trademark: newin Specification: cti
Scale & corrosion inhibitor , Bio-side,Elgee controll
Tower can be classified into plate tower and media-filling tower according to the structures. The working media can be water, oil, acid/alkali solution, emulsion, suspended emulsified solution and mixed gas and solution; it is widely applied into chemical engineering, petrochemical, metallurgy, light industry, textile, alkali-making, pharmacy, pesticide, galvanization, and electronic industries. Ktt can deliver chemical engineer project in a turnkey model, in which equipment manufacture, installation, commissioning, and operation and long-term after-sale services can be included in the whole engineering package.
Frp cooling towers machine-made frp corrugated plate and flat plate is a kind of plate produced by automated machine could be replaced with corrugated wall panel and flat bottom water trough plate plastered by hand. Automated machine production makes the selection of engineering design and user unit more flexible and practical, and will reduce the delivery time of frp cooling tower manufacturing , and the installation by the installation unit will be more convenient, which effectively improves frp cooling towers product quality and production efficiency, lowers production cost, reduces the production workload of frp cooling tower by about 70%, and saves the workload of cooling tower production workers and large amount of factory site. The corrugated plate and chassis flat plate outside of the cooling tower could adopt high-strength, corrosion-resistant and water-resistant frp plates; the corrugated plate and flat plate of different sizes, specifications and colors can be customized according to special requirement. Application: Zhongsheng frp cooling tower panel is specifically designed as a cladding solution for cooling tower. An ideal cooling tower panel High mechanical strength: composite of high-strength alkali-free glass fiber materials (as reinforcing materials) and unsaturated polyester resin, covered with m-benzol neopentyl glycol corrosion-resistant and water-resistant gel coat, featuring good weather resistance, mechanical strength and shock resistance. -light weight, -high corrosion resistance, -excellent weathering characteristics, -high-impact resistance - water-resistant -easy to repair - high mechanical strength - shaking resistance.
The cooling tower air inlet louver is also called air inlet grille, which is used to replace the air inlet shutter of the old cooling tower. The cooling tower air inlet louver is used by many cooling tower manufacturers because of its anti splash and anti sunlight. The cooling tower air inlet louvers can be used for cooling tower air inlets or other air inlets to block floating water. 300 Ton Cooling Tower vs 400 Ton Cooling Tower: A Comprehensive Comparison Introduction Cooling towers play a crucial role in industrial and commercial settings, maintaining optimal temperatures and ensuring efficient operations. Among the popular options are the 300 ton and 400 ton cooling towers. This article aims to compare these two types, helping you make an informed decision based on your specific needs.
Closed Circuit Cooling Tower Closed circuit cooling tower (also known as an evaporative air cooler or closed cooling tower) is the tubular heat exchanger placed in the tower, through the circulation of air, spray water and circulating water heat exchange to ensure the cooling effect. AUVC not only provides different shapes of cooling towers used in industries, such as round shape cooling towers and square cooling towers, but also offers closed cooling towers and open circuit cooling towers as well. The type of closed circuit cooling tower is widely used in iron and steel metallurgy, power electronics, machining, air conditioning system and other industries. How do closed circuit cooling towers work? Closed-circuit cooling towers make it possible to separate the evaporative circuit from the process circuit (customer circuit). A stainless-steel plate heat exchanger attached to the cooling tower, in its dedicated room, allows a glycol-free operation, and a simplified and unequalled ease of maintenance. The closed circuit cooling tower works as follows On the process side to be cooled (customer loop), the water to be cooled enters a plate heat exchanger connected to the tower and is cooled and discharged. The primary loop is closed and never comes into contact with air. On the secondary side of the cooling tower, the water is sucked out of the pool by a pump and circulated through a stainless steel plate heat exchanger. The water leaving the exchanger is piped to the top of the unit. This water is graded and evenly dispersed over the exchange surfaces by dispersers (also known as water distribution nozzles). Air driven by fans (axial or centrifugal) enters from the lower part of the cooling tower, is heated and saturated with water and exits from the upper part, passing between the exchange surfaces. Under the effect of the surface tension of the filler ladder, the water spreads uniformly and flows away over the entire height of the tower. The exchange surface is thus increased. The water cooled by forced ventilation falls freely into an inclined pool located at the bottom of the unit. Three reasons to choose a closed cooling tower No contamination in the primary circuit. Many civil and industrial processes require that process fluids be kept free from external environmental contamination: this is true, for example, of most food production processes. Closed-circuit cooling towers fulfil this need: in effect, the coils separate the process fluid from the ambient air drawn in by the fan, keeping it clean and contamination-free in a closed loop.
The cooling tower fan is located at the top of the cooling tower, which is directly connected with the motor or indirectly connected with the gearbox and pulley. The fan draws the hot air in the cooling tower after heat exchange from the top and guides the low-temperature air to enter from the air inlet of the bottom cooling tower. As a professional cooling tower manufacturer, we also provide plastic or FRP (fiberglass) cooling tower fans or fan blades at good prices. You can surely pick out what you need from the different types of industrial cooling tower fans below.
Closed Circuit Cooling Tower Closed circuit cooling tower (also known as an evaporative air cooler or closed cooling tower) is the tubular heat exchanger placed in the tower, through the circulation of air, spray water and circulating water heat exchange to ensure the cooling effect. AUVC not only provides different shapes of cooling towers used in industries, such as round shape cooling towers and square cooling towers, but also offers closed cooling towers and open circuit cooling towers as well. The type of closed circuit cooling tower is widely used in iron and steel metallurgy, power electronics, machining, air conditioning system and other industries. How do closed circuit cooling towers work? Closed-circuit cooling towers make it possible to separate the evaporative circuit from the process circuit (customer circuit). A stainless-steel plate heat exchanger attached to the cooling tower, in its dedicated room, allows a glycol-free operation, and a simplified and unequalled ease of maintenance. The closed circuit cooling tower works as follows On the process side to be cooled (customer loop), the water to be cooled enters a plate heat exchanger connected to the tower and is cooled and discharged. The primary loop is closed and never comes into contact with air. On the secondary side of the cooling tower, the water is sucked out of the pool by a pump and circulated through a stainless steel plate heat exchanger. The water leaving the exchanger is piped to the top of the unit. This water is graded and evenly dispersed over the exchange surfaces by dispersers (also known as water distribution nozzles). Air driven by fans (axial or centrifugal) enters from the lower part of the cooling tower, is heated and saturated with water and exits from the upper part, passing between the exchange surfaces. Under the effect of the surface tension of the filler ladder, the water spreads uniformly and flows away over the entire height of the tower. The exchange surface is thus increased. The water cooled by forced ventilation falls freely into an inclined pool located at the bottom of the unit. Types of Closed Type Cooling Tower
Cooling Tower Gearbox The gear reducer is designed as a kind of reduction equipment of a cooling tower, which is generally used for transmission equipment with low speed and large torque. It uses all levels of gear transmission to achieve the purpose of speed reduction. The gear is made of high strength low carbon alloy steel by carburizing and quenching, and it is widely used in metallurgy, mining, lifting, transportation, cement, construction, chemical industry, textile, printing, dyeing, pharmaceutical, and other fields. Advantages Low noise emission due to torsionally rigid housing Variable output bearing sizes for different ventilator types (depending on the ventilation track) Highest operational reliability due to one-piece housing, reinforced bearings and centrifugal disk on the ventilator shaft Additional cooling by means of a fan cooler on the input shaft Long service life due to optimized gearbox selection and use of high-grade materials Complete drive system from a single source As one of the professional cooling tower spare parts suppliers and cooling tower gearbox manufacturer, we provide different types of cooling tower parts, such as gearboxes. You can select what you need from the different types of cooling tower gearbox below.
Cooling Tower Motors Cooling tower motor is a new type of energy-saving and environmental protection improved motor, with protection grade of IP55, insulation grade of B, and power supply voltage of 380V and 50Hz. Generally, a closed waterproof motor is used in the cooling tower, which can operate for a long time in outdoor humid and high temperature environments. The cooling tower motor material is cast iron and aluminum shell. Derived from one of the most rugged motor platforms used in the most demanding industrial applications, direct drive motors are the right solution for operation in hot and humid environments in towers. Direct drives are ideally suited for cooling towers, air-cooled condensers and air-cooled heat exchangers.
Cross Flow Cooling Tower Cross flow cooling tower is an induced draft cooling tower that can cool water. Cross Flow Cooling Towers are a type of heat exchange system used in various industrial processes and HVAC (heating, ventilation, and air conditioning) systems to remove excess heat from the surroundings. These towers work on the principle of evaporative cooling, utilizing water and air to transfer heat from a process or a system.Cross flow cooling tower working: The water flows vertically from the top of the tower, and the air flows horizontally through the filler. The air flow is orthogonal to the water flow in the cooling tower. Advantage Compact Design: Cross Flow Cooling Towers have a more compact design compared to other types of cooling towers, making them suitable for installations with limited space or height constraints. Their vertical structure allows for efficient use of space. Energy Efficiency: These cooling towers typically consume less power due to their design and operation. The water distribution system and air movement mechanisms result in lower energy requirements, leading to reduced operational costs. Effective Water Distribution: The fill material inside Cross Flow Cooling Towers ensures even water distribution, maximizing the surface area available for heat exchange between water and air. This helps in achieving better cooling efficiency. Lower Noise Levels: Cross Flow Cooling Towers tend to produce less noise during operation compared to other types, which is advantageous when the cooling towers are located near residential areas or noise-sensitive environments. Easy Maintenance: The design simplicity of Cross Flow Cooling Towers makes them easier to maintain and clean. Access to internal components and fill material is typically more straightforward, simplifying maintenance tasks. Handling Varying Flow Rates: These cooling towers can handle varying water flow rates effectively, making them versatile and adaptable to changing process requirements or external conditions. Good Water Quality: The water exposed to air in the cooling process is less likely to get contaminated with debris, dust, or other impurities. This can help maintain better water quality and reduce the need for frequent water treatment. Improved Water Conservation: Cross Flow Cooling Towers can be designed with features like drift eliminators, which help minimize water loss due to evaporation. This contributes to water conservation efforts and reduces the overall water consumption of the cooling system. Suitable for Warm Climates: Cross Flow Cooling Towers are well-suited for warm climates because of their effective cooling capacity even when the surrounding air temperatures are relatively high.
Closed Circuit Cooling Tower Closed circuit cooling tower (also known as an evaporative air cooler or closed cooling tower) is the tubular heat exchanger placed in the tower, through the circulation of air, spray water and circulating water heat exchange to ensure the cooling effect. AUVC not only provides different shapes of cooling towers used in industries, such as round shape cooling towers and square cooling towers, but also offers closed cooling towers and open circuit cooling towers as well. The type of closed circuit cooling tower is widely used in iron and steel metallurgy, power electronics, machining, air conditioning system and other industries. How do closed circuit cooling towers work? Closed-circuit cooling towers make it possible to separate the evaporative circuit from the process circuit (customer circuit). A stainless-steel plate heat exchanger attached to the cooling tower, in its dedicated room, allows a glycol-free operation, and a simplified and unequalled ease of maintenance. The closed circuit cooling tower works as follows On the process side to be cooled (customer loop), the water to be cooled enters a plate heat exchanger connected to the tower and is cooled and discharged. The primary loop is closed and never comes into contact with air. On the secondary side of the cooling tower, the water is sucked out of the pool by a pump and circulated through a stainless steel plate heat exchanger. The water leaving the exchanger is piped to the top of the unit. This water is graded and evenly dispersed over the exchange surfaces by dispersers (also known as water distribution nozzles). Air driven by fans (axial or centrifugal) enters from the lower part of the cooling tower, is heated and saturated with water and exits from the upper part, passing between the exchange surfaces.
Cooling Tower Gearbox The gear reducer is designed as a kind of reduction equipment of a cooling tower, which is generally used for transmission equipment with low speed and large torque. It uses all levels of gear transmission to achieve the purpose of speed reduction. The gear is made of high strength low carbon alloy steel by carburizing and quenching, and it is widely used in metallurgy, mining, lifting, transportation, cement, construction, chemical industry, textile, printing, dyeing, pharmaceutical, and other fields. Advantages Low noise emission due to torsionally rigid housing Variable output bearing sizes for different ventilator types (depending on the ventilation track) Highest operational reliability due to one-piece housing, reinforced bearings and centrifugal disk on the ventilator shaft Additional cooling by means of a fan cooler on the input shaft Long service life due to optimized gearbox selection and use of high-grade materials Complete drive system from a single source As one of the professional cooling tower spare parts suppliers and cooling tower gearbox manufacturer, we provide different types of cooling tower parts, such as gearboxes. You can select what you need from the different types of cooling tower gearbox below.
Cooling Tower Motors Cooling tower motor is a new type of energy-saving and environmental protection improved motor, with protection grade of IP55, insulation grade of B, and power supply voltage of 380V and 50Hz. Generally, a closed waterproof motor is used in the cooling tower, which can operate for a long time in outdoor humid and high temperature environments. The cooling tower motor material is cast iron and aluminum shell. Derived from one of the most rugged motor platforms used in the most demanding industrial applications, direct drive motors are the right solution for operation in hot and humid environments in towers. Direct drives are ideally suited for cooling towers, air-cooled condensers and air-cooled heat exchangers.
Cross Flow Cooling Tower Cross flow cooling tower is an induced draft cooling tower that can cool water. Cross Flow Cooling Towers are a type of heat exchange system used in various industrial processes and HVAC (heating, ventilation, and air conditioning) systems to remove excess heat from the surroundings. These towers work on the principle of evaporative cooling, utilizing water and air to transfer heat from a process or a system.Cross flow cooling tower working: The water flows vertically from the top of the tower, and the air flows horizontally through the filler. The air flow is orthogonal to the water flow in the cooling tower. Advantage Compact Design: Cross Flow Cooling Towers have a more compact design compared to other types of cooling towers, making them suitable for installations with limited space or height constraints. Their vertical structure allows for efficient use of space. Energy Efficiency: These cooling towers typically consume less power due to their design and operation. The water distribution system and air movement mechanisms result in lower energy requirements, leading to reduced operational costs. Effective Water Distribution: The fill material inside Cross Flow Cooling Towers ensures even water distribution, maximizing the surface area available for heat exchange between water and air. This helps in achieving better cooling efficiency. Lower Noise Levels: Cross Flow Cooling Towers tend to produce less noise during operation compared to other types, which is advantageous when the cooling towers are located near residential areas or noise-sensitive environments. Easy Maintenance: The design simplicity of Cross Flow Cooling Towers makes them easier to maintain and clean. Access to internal components and fill material is typically more straightforward, simplifying maintenance tasks. Handling Varying Flow Rates: These cooling towers can handle varying water flow rates effectively, making them versatile and adaptable to changing process requirements or external conditions. Good Water Quality: The water exposed to air in the cooling process is less likely to get contaminated with debris, dust, or other impurities. This can help maintain better water quality and reduce the need for frequent water treatment. Improved Water Conservation: Cross Flow Cooling Towers can be designed with features like drift eliminators, which help minimize water loss due to evaporation. This contributes to water conservation efforts and reduces the overall water consumption of the cooling system. Suitable for Warm Climates: Cross Flow Cooling Towers are well-suited for warm climates because of their effective cooling capacity even when the surrounding air temperatures are relatively high.
Cooling Tower Pump Cooling tower water circulation pumps are critical to the chiller system they serve. Your chilled water system may even have more than one type of chilled water pump, with one main pump circulating water through the chiller and another main pump circulating water through the building. All chilled water or condensate pumps should have good seals, bearings, rotating parts and drive motors. Both circuits have controls, bypasses and valves that are often overlooked during inspection and maintenance. Pump filters should also be clean. Characteristics Of Cooling Tower Pump a.Stable operation: the absolute concentricity of the pump shaft and the excellent dynamic and static balance of the impeller ensure smooth operation without vibration. b.No leakage: cemented carbide seals of different materials ensure no leakage of different media. c.Low noise: the water pump supported by low noise bearing runs smoothly, and there is basically no noise except the weak sound of motor. d.Low failure rate: the structure is simple and reasonable, the key parts are equipped with international first-class quality, and the trouble free working time of the whole machine is greatly improved. e.Easy maintenance: easy to replace seals and bearings. f. Less land occupation: the outlet can be left, right and up, which is convenient for pipeline layout and installation and saves space.
Cooling Tower Spray Nozzles The nozzle of cooling tower is the component of water distribution in the cooling tower, which is made of ABS by one-time injection molding. Socket connection, firm connection, easy disassembly, not easy to block, nozzle water distribution is uniform, using cross water distribution method, hot water evenly distributed to the top of packing, can achieve full heat dissipation effect, can be widely used in circular and square counter flow tower. As a professional cooling tower spray nozzle manufacturer, we offer different types of water distribution spray nozzles for cooling towers. You can choose what you need from the following products. WHAT IS A COOLING TOWER NOZZLE? Cooling tower nozzles direct the hot water in need of cooling to the tower fill. These provide the water sprays to wet the fill. Uniform water distribution at the top of the fill is essential to achieve proper wetting of the entire fill surface. Nozzles can either be fixed in place and have either round or square spray patterns, or can be part of a rotating assembly as found in some circular cross-section towers. Cooling tower nozzles disperse water across the heat exchanger. They are usually made of PVC, glass or ceramic. Some nozzles are high-temperature resistant and have a non-clogging design. Cooling tower nozzles come in both cross flow and counter flow designs. SOME BENEFITS OF COOLING TOWER NOZZLES Non-Clogging Low Pressure Design Operational Adaptability Efficient Performance Virtually Maintenance-Free Unique Solid Cone Spray Ensures Consistent Distribution Easy Installation & Very Reliable Evenly Distributes Water Comes In Both Spray And Target, With Or Without Grommets
