Rotary dryer The usage of rotary dryer: Rotary dryert is widely used for drying materials in the industries of cemet, mine, contruction, chemical, food, compoud fertilizer, etc. Feeding and discharging unit is installed with thermocouple to control drier temperature. The temperature change of dryer's feeding end can be indicated by the thermometer to control the inner drier temperature ( generally 250-350C) The structure of rotary dryer: Rotary dryer machine is mainly composed of shell, back and forth supporting wheel, feeding and discharging unit and gear cap. The accessories which are not in the the scope of this machine include firebox, feeding and discharging equipment, dust catcher, etc. The working structure of Rotary dryer: Rotary dryer adopts direct flow type of heating with heat soure from firing unit. The material to be dried is pushed back immindiately by spiral board when enters the shell from feeding tank and feeding chute. Because the drier is installed in slope, material flows to the back end under gravity and rotation force, meanwhile, it is lifted by board repeatedly and thrown down accordingly, which make the material form even curtain, and exchange heat sufficiently with inner the heat flow. In the end, water in the material is dried by repeatedly scattering. Our rotary dryer's advantages are as follows: The process of dryer is very advanced, which takes fast drying with high temperature, high heat transfer coefficient, high heat efficiency and large drying capacity. Air flow drying combines with the high speed agitation drying, which disperses the viscid material sufficiently and improves the contact area of material and thermal medium, thereby improves the process of drying It takes special scrapings device into the dryer so that avoid the material from sticking the wall. Wide application, easy operation, light maintainence work and stable quality. ZK Rotary Dryer is widely used in the field of building materials metallurgies, chemical industry, cement and so on. It can dry slag, coal powder, mining powder, clay, sand, limestone and so on. It is made into rotary body, lifting blade, driving device, supporting device etc. The dryer has advantages of reason able structure, high efficiency, low energy consumption and convenient for transportation. We supply the following dryer, wet material rotary dryer, sand dryer, sawdust dryer, coal slime dryer, bentonite dryer, ore concentrate dryer, gypsum dryer.
TOPTITECH's Customized Titanium Cathode Plate for PEMFC Electrolysis is specifically designed to meet the demanding requirements of Proton Exchange Membrane Fuel Cell (PEMFC) systems. Crafted from premium-grade GR1 titanium, the cathode plates serve as an essential component in the PEM electrolysis cell, working in conjunction with titanium anodes to facilitate efficient electrochemical processes. Specifications Material: titanium Grade: GR1 Size: Customized by the drawing Certificate: ISO9001 Surface treatment: Polishing, pickling, sandblasting, brushing precious metals Features Exceptional Performance Tailored Dimensions and Configurations Precision Engineering Long-lasting Durability Enhanced Catalytic Activity Sustainable and Cost-effective Applications Proton Exchange Membrane Fuel Cells (PEMFC): Our cathode plates are specifically designed for use in PEMFC systems, where they play a crucial role in facilitating efficient electrochemical processes. They are utilized in PEM electrolysis cells as essential components, working in conjunction with titanium anodes to enable hydrogen production and other electrochemical reactions. Hydrogen Generation: The Customized Titanium Cathode Plate is an integral part of the electrolysis process for hydrogen generation. It provides a reliable and durable platform for the electrochemical splitting of water into hydrogen and oxygen gases, contributing to the production of clean and sustainable energy. Energy Storage and Conversion: Our cathode plates find application in energy storage and conversion systems that rely on PEMFC technology. They enable the efficient conversion of chemical energy into electrical energy, making them suitable for various applications such as portable power systems, backup power supplies, and electric vehicles. Research and Development: Our cathode plates are utilized in research laboratories and academic institutions for studying and advancing the field of PEMFC electrolysis. They provide a reliable and customizable platform for conducting experiments, optimizing cell design, and investigating new electrochemical processes. Industrial Applications: Our Customized Titanium Cathode Plate finds application in industrial settings where PEMFC electrolysis is employed for large-scale hydrogen production. Industries such as chemical manufacturing, electronics, and transportation can benefit from the efficient and sustainable hydrogen generation facilitated by our cathode plates. Environmental Sustainability: With the increasing focus on clean and sustainable energy solutions, our cathode plates contribute to the development of environmentally friendly technologies. By enabling efficient PEMFC electrolysis, they support the transition towards a greener future with reduced carbon emissions.
At Kendall, we pride ourselves on delivering top-tier cold storage solutions designed to meet the diverse needs of our clients. Our extensive range of equipment ensures optimal performance, reliability, and efficiency in various applications. Among our standout offerings are the Water-cooled Screw Condensing Units, engineered to provide exceptional cooling capabilities for a wide range of temperature requirements. These units are perfect for businesses seeking robust and reliable cooling solutions tailored to their specific needs. Specifications Semi-Hermetic Low-Temperature Storage Screw Condensing Unit (-20~-15): Designed for low-temperature storage applications, this unit ensures stable and efficient cooling in demanding conditions. It is ideal for cold storage facilities that require precise temperature control, such as food processing plants, pharmaceutical storage, and chemical processing industries. Semi-Hermetic Water Cooled Screw Compressor Unit (-5~5): The unit is perfect for medium-temperature applications, providing consistent cooling performance. Suitable for a variety of uses, including refrigerated warehouses, beverage storage, and dairy processing, it ensures products are kept at optimal conditions to maintain their quality and safety. Semi-Hermetic Water Cooled Screw Compressor Rack (-5~5): Featuring multiple compressors in a single rack, this system offers enhanced reliability and flexibility. It's ideal for large-scale operations where redundancy and scalability are critical, such as in logistics centers and large food distribution hubs. Semi-Hermetic Water Cooled Screw Compressor Unit Top Quality (-20~-15): The premium unit is engineered for superior performance and durability in extremely low-temperature environments. It is perfect for applications requiring rigorous temperature control, such as deep freeze storage facilities and specialized industrial processes. Why Choose Kendall's Water-cooled Screw Condensing Units? Engineering: Our units are designed with cutting-edge technology to ensure optimal performance and energy efficiency. The semi-hermetic design reduces the risk of refrigerant leakage, enhancing operational reliability. Quality Assurance: Each unit undergoes rigorous testing to ensure it meets our stringent quality criteria. Comprehensive Support: From initial consultation to installation and ongoing maintenance, Kendall offers comprehensive support to ensure your cold storage solutions perform flawlessly. Our team of experts is always on hand to provide guidance and technical assistance.
In the field of biodiversity conservation and agricultural research, the proper preservation of plant samples is crucial. As an efficient device for cryogenic storage, KGSQ liquid nitrogen tanks provide a stable and safe cryogenic storage environment for plant samples, livestock frozen essence, scientific research, medical and biological samples, ensuring the activity and genetic stability of the samples. Diverse model selection KGSQ liquid nitrogen tanks offer a variety of models to meet storage solutions of different scales and needs. Small 6-liter, 10-liter and 15-liter tanks are suitable for storing plant samples or transporting small amounts of liquid nitrogen for a short period of time. For users who need larger capacity, we provide 30-liter and 35-liter medium-sized liquid nitrogen tanks, 65-liter, 95-liter, 115-liter, 145-liter, 175-liter and other large-sized liquid nitrogen tanks commonly used in scientific research experiments, as well as 350-1800-liter intelligent gas phase cryogenic tanks, the latter of which is particularly suitable for long-term storage of large quantities of samples. Vacuum insulation technology KGSQ liquid nitrogen tank adopts advanced vacuum insulation technology, combined with glass fiber reinforced plastic neck tube and special material cover plug design, effectively blocking heat transfer, reducing liquid nitrogen volatilization, and ensuring that plant samples are safely and effectively protected at low temperatures of -196�°C. At the same time, the vacuum warranty of KGSQ liquid nitrogen tank is up to 5 years, and its excellent insulation performance and stable storage conditions provide a reliable protective barrier for plant samples. High-strength material and multi-layer vacuum interlayer Our liquid nitrogen tank is made of high-strength aviation aluminum material, combined with multi-layer vacuum interlayer design, which not only improves the durability of the tank, but also realizes long-term cryogenic storage of plant samples. Whether it is pollen, callus, somatic embryos, or seeds, in vitro meristems and dormant buds, they can maintain their activity and genetic stability in liquid nitrogen tanks. Easy to operate, safe and reliable KGSQ liquid nitrogen tanks are equipped with accessories such as liquid nitrogen pumps, trolleys or intelligent liquid level monitors, making the storage and access of plant samples safer and more convenient. The intelligent monitoring system can replenish liquid nitrogen in time to avoid oxidation and cell resuscitation, ensuring the safe storage of samples. Choose KGSQ liquid nitrogen tank to provide a safe, stable and efficient storage environment for your plant samples. Our liquid nitrogen tanks are not only technologically advanced, but also demonstrate a deep understanding of user needs in detail.
Portable liquid nitrogen tanks, with their lightweight design and easy operation, are ideal for use in laboratories, healthcare organisations and the livestock industry. Available in a wide range of sizes from 1 litre to 10 litres, the KGSQ liquid nitrogen tanks provide the perfect solution for both small laboratory sample and liquid nitrogen storage and large scale livestock frozen sperm transport. Product Features: Diversified capacity options: 1 litre, 2 litres, 3 litres, 6 litres, 10 litres, with various specifications, there is always one for you. A variety of calibre design: 1 litre and 2 litre calibre is 35mm, 3 litre calibre is 50mm, 6 litre and 10 litre have 50-210mm calibre, adapting to the needs of various occasions and ensuring the safe storage of samples of different sizes. Complete accessories: the portable liquid nitrogen tank comes standard with a locking lid, PU protective sleeve, polyurethane foam neck plug, and 3 round buckets. Although the model is small, the storage capacity is not small: among them, the commonly used 3-10 litre liquid nitrogen tank can be placed in 6 round buckets, and the size of the buckets is about 38mm*120mm. When frozen fine tube is 0.25ml, each bucket can store about 298 pcs, the whole can be loaded with about 1788 pcs; when frozen fine tube is 0.5ml, each bucket can store about 132 pcs, the whole can be loaded with about 792 pcs. 2 litres, the size of the bucket is a little smaller, the amount of frozen fine tube is 204, 90 pcs or so. In addition, there are. High-strength aluminium alloy material: lightweight and durable, easy to carry, adapt to a variety of working environments. High vacuum multi-layer adiabatic: effectively reduce the daily evaporation of liquid nitrogen, prolong the preservation time of the sample. 5-year vacuum quality assurance: our commitment to product quality, so that you can use without worry. Technical parameters highlights: Model YDS-2-30: static liquid nitrogen preservation period up to 30 days. (3 litre 50 is the same) Model YDS-6-50: Static liquid nitrogen preservation period up to 63 days. Model YDS-10-50: Static liquid nitrogen shelf life up to 98 days.
Livestock liquid nitrogen tanks are widely used in the breeding industry, especially in the freezing and storage of sperm and long-distance large-scale breeding. They play an irreplaceable role. It emerged with the emergence of modern breeding technology. As market demand continues to improve, its capacity and performance have become richer and more perfect over time. With better insulation effects, it provides strong support for the rapid development of livestock production and breeding of fine breeds. Strong germplasm conservation support. Today, the capacity range of livestock liquid nitrogen tanks covers 2-35 liters, with 4 types of calibers available, and can be used in both portable and long-term storage types. Letâ??s talk about portable liquid nitrogen tanks first; We know that semen collection is indispensable for animal husbandry and breeding. It must first be collected â?? stored â?? before it can be used for subsequent breeding and preserve the fertility of improved seeds. Therefore, the field work of breeding personnel is indispensable, that is, going out to collect semen. The environment involved in semen collection cannot always be flat roads, but is mostly in mountainous areas or pastures where breeding is concentrated. The terrain is rugged and requires portable liquid nitrogen tanks that are lightweight and small in size, such as 6 liters and 10 liters. Secondly, for transportation purposes, such as artificial insemination, breeding, etc., the well-preserved sperm need to be transferred to other areas for insemination. The distance may be long or short, and it is often necessary to travel by vehicle. The storage capacity of the container and the swaying on the road need to be taken into consideration. The 16-liter livestock liquid nitrogen tank designed for transportation is more suitable. The small and short tank has a low center of gravity and a stable chassis, which is more stable and reduces the stress on the neck tube to ensure the safety of the container and sperm. In addition, long-term sperm storage at home involves centralized storage after semen collection. The number of sperm will continue to increase, and the frequency of rehydration must be considered. If it is too high, it may easily cause frequent temperature fluctuations in the livestock liquid nitrogen tank; it is also necessary to consider the retrieval frequency. Convenient, generally choose large diameter. Considering the 30 liters and 35 liters with 125mm port, it is the best choice. Depending on the purpose of use and the sperm count, you can choose just what you need! If you still dont know how to choose, you can contact the livestock liquid nitrogen tank manufacturer for recommendations from professionals!
Green chili scientifically known as Capsicum annuum is a popular spice that can be exported from India It is known for its vibrant green color distinct heat and versatile culinary uses When describing green chili for exporting from India you can focus on its quality varieties sizes heat level appearance flavor culinary uses and potential applications Heres an expanded description India is known for producing highquality green chilies and we are committed to providing you with superior chilies that meet your expectations and satisfy the demands of your customers We ensure a reliable supply of fresh and spicy green chilies that add flavor and excitement to your culinary creations Appearance Green chilies have a vibrant green color and a slender elongated shape The skin is smooth and shiny and the texture is crisp The size and shape of green chilies may vary depending on the variety Quality and Sourcing We prioritize the quality of our green chili throughout the sourcing and exporting process Our green chilies are carefully sourced from trusted farmers who follow best agricultural practices to ensure superior quality We ensure that our chilies are fresh free from pests or diseases and meet the highest quality standards Varieties and Sizes India offers a variety of green chili cultivars each with its own unique characteristics Some common green chili varieties include Jalapeno Serrano Thai and Bhavnagri These varieties may vary in size shape heat level and culinary applications We can provide green chilies in different sizes ranging from small to medium and large based on your requirements Heat Level Green chilies are known for their spiciness which is measured on the Scoville scale The heat level can vary among different varieties and individual chilies We can provide green chilies with varying heat levels from mild to hot based on your preferences Flavor and Heat Green chilies offer a distinctive heat and flavor profile They are known for their fiery spicy taste that adds a kick to various dishes The heat is accompanied by a fresh tangy and slightly fruity flavor The intensity of the heat can range from mild to very hot depending on the variety Culinary Uses Green chilies are widely used in various cuisines for their spicy flavor Some popular culinary uses of green chilies include Seasonings and Spices Green chilies are often used as a key ingredient in spice blends marinades and rubs They add heat and depth to curries sauces and stirfries
Auto parts low volume production The biggest advantage of low-volume manufacturing is that the practice of small batch manufacturing can be more efficient, increasing the flexibility of the design process, minimizing the occurrence of risk, and shortening the time to market. Low Volume Tooling Low volume tooling refers to the process of creating tooling or molds for the production of a relatively small number of parts or components. This is in contrast to high volume tooling, which is used for the mass production of large quantities of parts. Low volume tooling is often used in situations where the cost of high volume tooling is prohibitive, or where the production volume is not high enough to justify the cost of high volume tooling. Low volume tooling can also be used to quickly produce small quantities of parts for prototyping or testing purposes. There are a number of different low volume tooling techniques that can be used, depending on the specific requirements of the project. Some common techniques include: 3D Printing: 3D printing can be used to create molds or tooling for small production runs. This is particularly useful for creating complex shapes or designs that would be difficult or expensive to produce using traditional machining techniques. Soft Tooling: Soft tooling refers to the use of molds or tooling made from materials such as silicone or urethane. Soft tooling is typically less expensive than hard tooling and can be produced more quickly, making it a good option for low volume production runs. Rapid Tooling: Rapid tooling involves the use of rapid prototyping techniques to quickly create tooling or molds for low volume production runs. This is a good option for situations where time is a critical factor and quick production is required. CNC Machining: CNC machining can be used to create low volume tooling for the production of small quantities of parts. This is a good option for situations where the parts require a high degree of accuracy and precision. What Is Low-Volume Manufacturing Low-volume manufacturing refers to the production of a relatively small number of products or parts, typically between 50 and 10,000 units, using traditional manufacturing processes such as injection molding, CNC machining, or casting. It is an ideal solution for companies that need to produce small quantities of products, prototypes, or components for testing, marketing, or initial production runs. Compared to high-volume manufacturing, which is used to produce millions of products at a low cost per unit, low-volume manufacturing is more flexible and can quickly adapt to changes in design or product specifications. It is also more cost-effective than high-volume production for small runs, as it avoids the high tooling and setup costs associated with large-scale production.
Industrial equipment Brazed plate heat exchanger is a new type of high-efficiency heat exchanger made of a series of metal sheets with a certain corrugated shape stacked and brazed. Thin rectangular channels are formed between various plates, and heat is exchanged through the plates. Compared with the conventional shell and tube heat exchanger, its heat transfer coefficient is much higher under the same flow resistance and pump power consumption, and it has a tendency to replace the shell and tube heat exchanger within the applicable range. Applications: Refrigeration: used as condenser and evaporator b. HVAC: intermediate heat exchangers used in conjunction with boilers, intermediate heat exchangers in high-rise buildings, etc. c. Chemical industry: soda ash industry, ammonia synthesis, alcohol fermentation, resin synthesis cooling, etc. d. Metallurgical industry: heating or cooling of aluminate mother liquor, cooling of steelmaking process, etc. e. Machinery industry: cooling of various quenching fluids, cooling of reducer lubricating oil, etc. Design Parameters Flow range: 1-2000 m3/h Working pressure: vacuum-8.2MPa Operating temperature: -195-538C Interface size: 1"-DN300 welding, flange, thread and other connection forms Corrosion resistance: Welding seal without rubber gasket, choice of various metal and alloy materials, super corrosion resistance, longer service life. Application field: Crude oil, natural gas purification and chemical products; chemical industry; pharmaceutical and specific chemicals; injection control systems; HVAC, district heating, thermal power plants; food processing; cooling tower heat recovery Process requirements Pickling temperature: Raising the pickling temperature is conducive to improving the descaling effect. If the temperature is too high, it will aggravate the corrosion of the pickling solution to the heat exchanger plates. Through repeated tests, it is found that the pickling temperature should be controlled at 60. 2) Concentration of pickling solution: According to repeated tests, the pickling solution should be prepared according to the concentration of formic acid 81.0%, water 17.0%, buffer 1.2%, and surfactant 0.8%, and the cleaning effect is excellent. 3) Pickling method and time: The pickling method should be carried out by a combination of static soaking and dynamic circulation. The pickling time is static soaking for 2h first, and then dynamic circulation for 3~4h. During the pickling process, samples should be taken frequently to test the pickling concentration. When the difference between the two adjacent test concentrations is less than 0.2%, the pickling reaction can be considered to be over. 4) Passivation treatment: After pickling, most of the scale and metal oxides on the surface of the plate heat exchanger will be dissolved and fallen off, exposing new metal, which is very easy to corrode. The sheet is passivated.
Concrete Block Maker A concrete block maker, often referred to as a concrete block machine or concrete block manufacturing machine, is a device used in the construction industry to produce concrete blocks, which are essential building materials for various types of structures. These machines automate the process of creating concrete blocks, which are commonly used for walls, pavements, and other load-bearing structures. Features Mold Options: Concrete block makers often come with interchangeable molds that allow you to produce blocks of different sizes, shapes, and designs. This versatility is useful for accommodating various construction needs. Automation Levels: Concrete block makers can range from manual machines that require human operation for each step, to semi-automatic and fully automatic machines that handle many processes automatically, including feeding, compaction, and demolding. Vibration System: Many machines incorporate a vibration system that helps to compact the concrete mixture in the mold, ensuring that the blocks have a dense and uniform structure. Hydraulic or Mechanical Systems: The compaction process can be driven by hydraulic or mechanical systems, both of which apply pressure to the concrete mixture. Hydraulic systems are often preferred for their precision and ability to exert consistent pressure. Curing System: Some advanced machines include a curing system that helps accelerate the curing process, allowing for quicker block turnover and reduced curing time. Control Panel: Automatic and semi-automatic machines typically have a control panel that allows operators to adjust settings, monitor the production process, and troubleshoot issues. Batching System: In some machines, an automated batching system accurately measures and mixes the raw materials in the correct proportions, ensuring consistent block quality. High Production Capacity: Depending on the model, concrete block makers can produce a significant number of blocks per hour, making them suitable for large-scale construction projects. Quality Control Sensors: Some machines have sensors that monitor the density, moisture, and strength of the blocks, ensuring that they meet quality standards. Energy Efficiency: Some modern machines are designed with energy-saving features to reduce power consumption during operation. User-Friendly Design: Manufacturers often prioritize user-friendly interfaces and ergonomic designs to make operation and maintenance easier for operators. Durability and Materials: High-quality machines are constructed from durable materials that can withstand the harsh conditions of a construction environment. Safety Features: Safety mechanisms such as emergency stop buttons, safety guards, and sensors are integrated into many machines to protect operators during operation.
Dipotassium Phosphate Food Grade/ Tech Grade/ Dipotassium Phosphate (DKP): Chemical Property: Dipotassium phosphate (DKP), also known as potassium phosphate dibasic, has the chemical formula K2HPO4. It is a salt that exists as a white, crystalline powder or granules. DKP is highly soluble in water, which facilitates its use in various applications. It contains two potassium (K+) cations and one hydrogen phosphate (HPO4^2-) anion in its chemical structure. Applications: Dipotassium phosphate is utilized in a range of industries due to its properties as a nutrient source, pH regulator, and food additive. Food and Beverage Industry: DKP is commonly used as a food additive in the food and beverage industry. It acts as a buffering agent to control acidity and pH levels in various products, including processed foods, beverages, and dairy products. It also works as a sequestrant, helping to improve the stability and texture of certain food items. Nutritional Supplements: In the production of nutritional supplements, DKP can be used as a source of both potassium and phosphorus, essential nutrients for human health. These supplements might target individuals with specific dietary needs or deficiencies. Bakery and Baking Powder: DKP is sometimes used in baking powder formulations. It interacts with other ingredients, like baking soda (sodium bicarbonate), to release carbon dioxide gas and leaven baked goods. pH Buffering and pH Control: Due to its ability to regulate pH, DKP is used in various industrial processes where maintaining a specific pH range is crucial. This can include water treatment, chemical manufacturing, and certain laboratory applications. Pharmaceuticals and Medicine: DKP might be used in pharmaceuticals and medicine for its pH-regulating properties, as well as its potential use as a source of essential nutrients in certain formulations. Water Treatment: In water treatment processes, DKP can be used to adjust pH levels and reduce the corrosiveness of water. It's also used to inhibit the formation of scale and deposits in pipes and equipment. Laboratory and Research: DKP is utilized in laboratory settings for various purposes, including as a component in buffer solutions used in experiments requiring specific pH conditions. Dipotassium phosphate's versatility in balancing pH levels, providing essential nutrients, and enhancing stability makes it a valuable ingredient in multiple industries. As with any chemical, its application should be handled with care to ensure proper dosing and to mitigate potential environmental impacts. FORMULA: K2HPO4 CAS NO: 7758-11-4 / 16788-57-1 EINECS: 231-834-5 ORIGIN: China Port of Loading: Xiamen MOQ: 17MT ETD: 10 Days Customization: Yes Package: 25kg/1000kg/1250kg/1300kg Bags
Diammonium Phosphate DAP Food Grade/ Tech Grade/ Electronic Grade Diammonium Phosphate (DAP): Chemical Property: Diammonium phosphate (DAP) is a compound with the chemical formula (NH4)2HPO4. It is a highly soluble salt that appears as a white, crystalline powder. DAP contains two ammonium (NH4+) cations and one hydrogen phosphate (HPO4^2-) anion in its structure. This composition provides a source of both nitrogen and phosphorus, making DAP a valuable fertilizer and nutrient supplement. Applications: Diammonium phosphate finds applications primarily in agriculture as a fertilizer, but it also has uses in other industries: Agriculture and Fertilizers: DAP is one of the most commonly used fertilizers worldwide. Its high nitrogen content supports plant growth and leaf development, while phosphorus promotes root growth, flowering, and fruiting. The ammonium component of DAP also contributes to pH control in soil, which can be important for optimizing nutrient availability to plants. Nutrient Supplement: DAP can be used as a nutrient supplement for both plants and animals. In animal feed, it provides a source of nitrogen and phosphorus, essential for growth and overall health. Industrial Processes: DAP is utilized in various industrial applications. For instance, it's used as a fire retardant and flame inhibitor in certain materials due to its ability to release ammonium compounds that resist combustion. Water Treatment: In water treatment processes, DAP can be used to reduce pH levels, control scale formation in pipes, and adjust the alkalinity of water. Yeast Nutrient: In the brewing and fermentation industries, DAP is used as a nutrient for yeast during the fermentation process. It provides nitrogen necessary for yeast growth and alcohol production. Laboratory and Research: DAP is sometimes employed in laboratories for specific applications, such as in the preparation of buffer solutions or as a source of nutrients in cell culture media. Explosives Manufacturing: While not a common application, DAP has been used in the production of certain explosives due to its chemical properties. DAP's versatility stems from its dual nutrient content of nitrogen and phosphorus, making it valuable for promoting plant growth and supporting various industrial processes. When using DAP, it's important to consider proper dosing and application methods to ensure optimal results and minimize any potential environmental impacts. FORMULA: (NH4)2HPO4 CAS NO: 7783-28-0 EINECS: 231-987-8 ORIGIN: China Port of Loading: Chongqing MOQ: 25MT ETD: 25-30 Customization: Yes Package: 25kg/1000kg/1250kg/1300kg Bags
TMAP with N:P:K 12:61:0, Food Grade, Tech Grade and electronic Grade Monoammonium Phosphate (MAP): Chemical Property: Monoammonium phosphate (MAP) is a chemical compound with the formula NH4H2PO4. It is a white crystalline powder that is highly soluble in water. MAP is an acidic salt with a low pH, making it suitable for applications where acidic conditions are desired. It contains both ammonium (NH4+) and phosphate (H2PO4-) ions, making it a source of both nitrogen and phosphorus nutrients. Applications: Monoammonium phosphate has a wide range of applications in various industries due to its properties as a fertilizer, fire retardant, and food additive. Agriculture and Fertilizers: MAP is commonly used as a fertilizer in agriculture. It serves as a source of both nitrogen and phosphorus, essential nutrients for plant growth. The high solubility of MAP ensures that plants can readily absorb these nutrients, promoting healthy root development, flowering, and fruiting. It is particularly beneficial for crops that require early-season nitrogen and phosphorus supplementation. Fire Retardant: MAP is also used as a fire retardant in both the agriculture and forestry sectors. When applied to plants or materials, it releases ammonium and phosphate compounds that can act as flame inhibitors, reducing the flammability of the treated material. This makes it valuable for preventing and controlling wildfires and protecting valuable crops. Food Additive: In the food industry, MAP is used as a leavening agent in baking. It reacts with baking soda (sodium bicarbonate) to produce carbon dioxide gas, which helps dough rise and gives baked goods their desired texture. It is commonly found in baking powders and self-rising flour. Industrial Applications: MAP is used in various industrial processes, including water treatment. It can be used to reduce the pH of water and control scale formation in boilers and cooling systems. It is also used in some metal cleaning and finishing operations. Nutrition Supplements: MAP is sometimes used in the formulation of nutritional supplements, especially in cases where a controlled release of both nitrogen and phosphorus is needed, such as in plant fertilizers for hydroponic systems or aquarium plant care. pH Adjustment: Due to its acidic nature, MAP can be used to adjust the pH of various solutions, including in some laboratory settings and industrial processes where maintaining a specific pH range is crucial. Monoammonium phosphate's versatility stems from its ability to provide essential nutrients, modify fire behavior, and contribute to various chemical reactions across multiple industries. However, its usage should be managed responsibly to ensure optimal results and minimal environmental impact. FORMULA: NH4H2PO4 CAS NO.: 7722-76-1 EINECS: 231-764-5 ORIGIN: China Port of Loading: Chongqing MOQ: 25 MT ETD: 25-30 Days Customization: Yes Package: 25KG/ 1000KG/1250KG/1300KG Bags
Casting iron balls include high chromium balls, medium chromium balls and low chromium balls. Quality index of high chromium casting ball: The chromium content of the high chromium ball is 10.0% or more. The carbon content is between 1.80% and 3.20%. According to national standards, the hardness of the high chromium ball must be no less than 58hrc, and the impact value should be greater than or equal to 3.0j/cm2. To achieve this hardness, the high chromium ball must be quenched and tempered at high temperature. At present, there are two methods for quenching high chromium balls in China, including oil quenching and wind quenching. If the test hardness of the high chromium ball is lower than 54HRC, it means that it has not been quenched. Quality index of medium chromium casting ball The specified chromium content of the medium chromium ball ranges from 3.0% to 7.0%, and the carbon content is between 1.80% and 3.20%. Its impact value should not be less than 2.0j/cm2. According to national standards, the hardness of the chrome ball should be greater than or equal to 47hrc. In order to ensure quality, medium chromium balls should be tempered at high temperature to eliminate casting stress. If the surface of the iron ball is black and red, it proves that the iron ball has been tempered at high temperature. If the surface of the iron ball still has the metal color, we can judge that the iron ball has not undergone high temperature tempering treatment. Quality index of low chromium casting ball Generally speaking, the chromium content of the low chromium ball is 0.5% to 2.5%, and the carbon content is from 1.80% to 3.20%. Therefore, according to the national standard, the hardness of the low chromium ball should be no less than 45hrc, and the impact value should be no less than 1.5j/cm2. Low chromium balls also need high temperature tempering treatment to ensure quality. This treatment can eliminate casting stress. If the surface of the iron ball is dark red, it indicates that it has undergone high temperature tempering treatment. If the surface is still metallic color, it means that the iron ball has not been tempered at high temperature. Casting iron balls are usually used in various large-scale mines, cement plants, chemical plants, power plants, quartz sand plants, silica sand plants, etc.
Kolang Kaling is small to medium in size, averaging 5-7 centimeters in diameter, and has a slightly lopsided, globose to oval shape. The outer shell is smooth, firm, and hard, transforming from green to yellow-black when mature and bearing brown-black spots and discoloration at all stages of maturity. Underneath the thick shell, three translucent-white seeds are chewy and soft, encased in a fibrous interior. The fleshy seeds can be easily removed, and Kolang Kaling has a rubbery texture with a mild, neutral flavor. Seasons/Availability Kolang Kaling is available year-round in tropical regions of Asia and Southeast Asia. Current Facts Kolang Kaling, botanically classified as Arenga pinnata, are fruits that grow on a tropical palm that can reach up to twenty meters in height and belongs to the Arecaceae family. The Arenga pinnata palm is highly cultivated for its sap, fruit, bark, and leaves, and is found along river banks and forests in Southeast Asia. Also known as Buah Tap in Indonesia and Kaong in the Philippines, Kolang Kaling is favored for its neutral flavor and is popularly consumed as a chewy snack soaked in syrup or consumed as a topping on dessert. Nutritional Value Kolang Kaling contains some vitamin C, manganese, phosphorus, fiber, potassium, iron, and calcium. Applications Kolang Kaling is best suited for cooked preparations such as boiling, and the immature fruits are the preferred state for consumption. The fruit is removed from the outer, fibrous shell and then boiled to create a soft and chewy texture. It can also be cooked in syrup or flavored sodas to add sweetness and coloring. In the Philippines, Koland Kaling is flavored with red and green syrups to create a colorful fruit salad that is traditionally served at holiday meals. The fruit is also served as a topping on haluhalo, also known as halo-halo, which is a crushed ice dessert mixed with evaporated milk and topped with fruits, red beans, ube, grass jelly, and ice cream. During Ramadan, the fruits are found in kolak, which is a banana compote that is used to break fasts. In addition to using the fruits whole, Kolang Kaling can be cooked into jams or preserved in syrup for extended use. Fresh Kolang Kaling should be immediately consumed for best flavor, but the preserved, canned versions will keep for a couple of months when stored in the refrigerator. Geography/History Kolang Kaling is native to the tropical regions of Southeast Asia and has been growing wild since ancient times. Today the palm is also found in select areas in Asia, and the fruit is cultivated on a large scale for resale in local markets in Indonesia, the Philippines, Malaysia, Hawaii, India, Thailand, and China.
0.4mm Ti felt from for LGDL in electrolyzer is a versatile material with a wide range of applications in various industries including aerospace, chemical processing and energy. The material sinters titanium fibers together to form a porous structure. The result is a lightweight, high-strength material with unique mechanical and thermal properties. 0.4mm Ti felt from TOPTITECH for LGDL in electrolyzer can be used in hydrogen production and fuel cell stacks as the LGDL (Liquid/Gas Diffusion Layer). Titanium fiber mat is a promising material for electrolyzers due to its high thermal/electrical conductivity and great mechanical qualities. High corrosion resistance at high positive overpotential, for example, even in severely acidic and humid circumstances. Parameter Material: Titanium Size: 1500 1200mm Fiber size: 20 microns-40 microns Thickness: 0.20mm 0.25mm 0.40mm 0.60mm 0.8mm Porosity: 60% 75% Features 1.3D Mesh Porous Structure: 2.Strong corrosion resistance; 3.Best Electrolytic Performance: 4.High porosity and current density; 5.The pore size distribution is uniform. Features 1.3D mesh porous structure. This allows for excellent permeability and efficient electrolyte transport. This unique structure also provides a large surface area for electrochemical reactions to occur, resulting in improved performance. 2.Strong corrosion resistance. This makes it a reliable choice for use in harsh environments. This feature ensures that the product maintains its structural integrity and performance over time, even when exposed to corrosive substances. 3.Best Electrolytic Performance. When it comes to electrolytic performance, this product is a top performer. Its design allows for high porosity and current density, meaning that it can efficiently transfer electrical charge between the electrodes and the electrolyte. This results in improved energy conversion and overall system efficiency. 4.Uniform pore size distribution. This feature ensures that the electrolyte can flow evenly throughout the structure, providing consistent performance and minimizing the risk of localized damage or failure. Craft The process is to make titanium wire into micron-scale fiber through special process. The porous material is then made by laying down and sintering titanium fibers. The unique three-dimensional fiber network and fully connected pore structure will endow it with a series of special functions.
The PTO shaft 2 Series is one of the types of power transmission devices that transfers energy from an agricultural tractor or another source to an engineered implement or attachment. It's an upgrade of the 1 Series PTO shaft, made for applications where greater power and torque are needed. It is the 2 Series PTO shaft comes with an increased diameter and higher torque capacity when compared to its predecessor, the 1 Series PTO shaft. This makes it ideal for industrial and heavy-duty agricultural applications. Similar to the 1 Series PTO shaft, the 2 Series PTO shaft also includes six primary components: the tractor end yoke and universal connection, the intermediate tube safety shield, the spline yoke, and the yoke at the end of the implement. The components are paired to create a stable powerful power transmission. This shaft was made with a larger torque capacity, which makes it suited for uses such as large-scale tilling cultivation heavy-duty, and other tasks that are highly demanded. It's also compatible with a wide range of attachments and implements which includes those that are designed specifically to work with us with the 1 Series PTO shaft. This versatility makes it a preferred choice for people who own many different pieces of equipment to run. Overall The 2-Series PTO shaft offers an efficient and reliable power transfer system for industrial and agricultural applications that are heavy-duty. It's built to handle the demands of power applications with the goal of ensuring operator safety and comfort to users. #2 Series PTO Shaft Parts There are a few main components that make up the 2 Series PTO shaft: Tractor Yoke: This joins the PTO shaft onto the tractor's PTO output shaft, which supplies the power for the rest part of the PTO shaft assembly. Universal Joint - This component connects the yoke at the end of the tractor with the tube that is intermediate permitting the transfer of power to an attachment or implement and allowing some movement flexibility. Intermediate Tube Intermediate Tube - This is a hollow tube made of metal that connects the universal joint and the splined yoke, giving stability and support in the PTO shaft in its entirety. Spline Yoke â?? This can be attached to an attachment or implement and has a set of splines that connect with the female shaft that is connected to the attachment or implement to allow an exchange of energy. Safety Shield Safety Shield - A cover made of metal that covers the rotating PTO shaft assembly, which prevents accidents due to entanglement by protecting the driveline. Implement End Yoke This piece connects to the splined yoke and transmits power to the attachment or implement.
Powder sintered filter elements for filtration are a type of porous filter made by sintering metal powders into a solid structure with interconnected pores. Powder sintered filter elements for filtration have a high surface area and are capable of filtering particles from liquids and gases. They are commonly used in applications where high temperatures and corrosive environments are present, such as in chemical processing, oil and gas refining, and power generation. Parameters Material: titanium powder Craft: sintering Size: customized Features 1.Precise Filtration: Powder sintered filter elements can be designed with a specific pore size to provide precise filtration of particles and contaminants, down to the submicron level. 2.High Dirt Holding Capacity: Powder sintered filter elements have a high dirt holding capacity, meaning they can retain a large amount of particulate matter before requiring replacement or cleaning. 3.Reusability: Powder sintered filter elements can be easily cleaned and reused, making them a cost-effective solution in applications where frequent filter replacement is required. 4.Customizable Shapes and Sizes: Powder sintered filter elements can be manufactured in a range of shapes and sizes, including cylinders, discs, cones, and tubes, to fit specific applications and equipment. Applications Powder sintered filter elements are a versatile and effective solution for a wide range of filtration applications, particularly where high temperatures, corrosive environments, and precise filtration is required. Chemical Processing: Powder sintered filter elements are used for the filtration of corrosive chemicals and solvents, such as acids, alkalis, and organic compounds. They are also used for the separation of catalysts and the purification of process streams. Oil and Gas: Powder sintered filter elements are used in oil and gas processing for the removal of contaminants, such as sand, scale, and other solid particles. They are also used for the filtration of natural gas, as well as in fuel and hydraulic systems. Food and Beverage: Powder sintered filter elements are used in the food and beverage industry for the filtration of liquids, such as juices, beer, and wine. They are also used for the removal of impurities and contaminants, such as bacteria and particles. Pharmaceuticals: Powder sintered filter elements are used in the pharmaceutical industry for the filtration of liquids and gases in the manufacturing process of drugs and vaccines. They are also used for the removal of contaminants, such as bacteria, viruses, and particles. Water Treatment: Powder sintered filter elements are used for the removal of impurities and contaminants in water treatment applications. They are used for the filtration of drinking water, wastewater, and industrial process water.
The 77 series of high-performance PTO drive shafts provide the most popular drive shaft solutions for the lawn and turf industries. These PTO drive shafts come as complete assembly from tractor to the implement. They are made for long-term heavy-duty use and are able to meet the demands of large-scale farms and contractors. PTO shafts for tractor and Wide-angle CV PTO shafts can be adaptable to standard PTO driveshafts that are available on the market. Specifications of the 77 Series PTO Shaft The Easy Lock Guard Set Length 60.00 inches 1524 mm Outside Diameter 7.72 inches 196 millimeters Shipping Dimensions 60" L 60" L 7.72" H 60" L x 7.72" H 7.72" W 150.2cm L x 20cm H 20cm W Shipping Volume 3575.90 in3 58599 cm3 Shipping Weight 4.30 pounds 2 kilograms Weight 4.30 pounds 2 kilograms Yoke And Shaft HP@1000RPM 264 HP The power of 197 kilowatts HP@540RPM 172 HP 128 Kilowatts Length 32.75 inches 832 mm Dimensions of Shipping 34.25" L 3.6" H 5.75" W 95cm L x 87cm H 15cm W Shipping Volume 677.92 in3 11109 cm3 Kit of Bearings And Cross Diameter of Bearing 1.77 inches 45 millimeters Bearing Spannel 4.95 inches 126 millimeters Diameter of Bearing 1.77 inches 45 millimeters Bearing Spang 4.95 inches 126 millimeters Height 1.77 inches 45 millimeters HP@1000RPM 264 HP 197 Kilowatts HP@540RPM 172 HP 128 Kilowatts Kit Type E Length 4.95 inches 126 millimeters Interval of Lubrication 50.00 Dimensions of Shipping 4.957" L 1.772" H 4.957" W 13cm L x 5cm H 13cm W Shipping Volume 43.54 in3 713 cm3 Snap Ring Location External Width 4.95 inches 126 millimeters 7 Series replacement Parts Weasler PTO Shafts Parts Are you searching for an reliable source of PTO drive shaft components? At HZPT we offer everything you require to boost the performance of your tractors and implements. We have a variety of PTO shaft assemblies and components from top-quality manufacturers in the field. Our vast inventory lets us offer the products at competitive prices. In our assortment of tractor PTO shafts there's everything from shafts and yokes to rolling pins and drivetrains. We'd love to hear from you when you're struggling to decide the best products for your machine. Our team of experts can guide you to the proper direction.
An electrical panel is what? An electrical panel, also known as a breaker panel, is a metal box with a door that is typically incorporated into a wall in a secluded area of your home. All of your home's breaker switches are located inside. Breaker switches can be turned on and off. They are designed to automatically shut off when there is too much electrical current flowing through them. There is a main circuit breaker in the electrical panel that regulates the electricity to the entire house. Also, you'll see individual breakers, each of which is in charge of supplying electricity to a different area of your house. The section of the house that each breaker regulates should be noted on the device's label. In some older homes, fuses are used in place of breakers. There won't be any switches on your electrical panel if you have a fuse box; instead, there will be screw-in fuses. You can have trouble getting insurance or your premiums might go up if your house still has a fuse box. Fuse issues and home insurance are discussed lower down the page. Your home's electricity is supplied via an electrical metre outside, which then travels to your electrical panel. With the main breaker in your electrical panel, you can stop this primary electricity supply. You may also find out the amperage of your electrical service from your main breaker (amperage is the strength of the electrical current). KDM Global, a renowned maker of electrical panels from India, has earned impressive market recognition. To satisfy the high industrial standards, we provide a full range of products. Our technically competent staff carefully makes our items in compliance with industry standards to provide products of a high calibre on a global scale. Our own manufacturing facility has the most recent technologies available. This helps us improve our Power Control Panel to a level that is superior to that of other countries. To ensure dependable operation, our experts use premium quality raw materials while creating Electrical Panel Board.Sending us inquiries about the products is encouraged from interested customers. We provide our products at competitive prices as one of the top suppliers and exporters of Electrical Control Panels. What features does a manufacturer of electrical panels offer in their products? The electrical panel houses numerous circuit breakers that are connected to a circuit that delivers power to various commercial and industrial sectors, including automobile manufacturing, chemical manufacturing, and refineries. They are mostly utilised to supply energy for the operation of large machinery and factories. It genuinely has the appearance of a steel box and evenly covers all the wires and circuits inside it, protecting your circuits from harm and fire.They are available in a variety of specifications to meet the needs of various businesses since they operate at various voltages or current levels.