Laaksh Institute is India’s leading specialist provider of IT professional courses. The Institute is a renowned global institute dedicated to providing courses in computer application, Web Development, Web Design, Cyber Security & Ethical Hacking, Data Science, Artificial Intelligence, Machine Learning, Computerised Accountant, and Computer Hardware & Networking, Python, C language, C Language with Data Structures and many more. https://laaksh.com/
1500.00 USD
"78WIN Asia được biết đến là nhà cái được cấp phép hoạt động bởi MGA Malta Châu Âu, Uỷ ban Giám Sát GC của Anh và được chính phủ Philippines bảo hộ. Đây là nhà cái đã hoàn tất tất cả các thủ tục đăng ký hợp pháp tại nước Anh, cụ thể là tại Quần đảo Virgin. Chính vì vậy, khi trở thành thành viên hay tham gia vào nhà cái này, người chơi hoàn toàn an tâm bởi nhà cái sẽ đảm bảo quyền lợi và bảo vệ thông tin người chơi một cách tốt nhất. Trải qua những năm tháng xây dựng và phát triển, 78WIN luôn nỗ lực không ngừng cải tiến các sản phẩm về trò chơi để đảm bảo mang đến cho người chơi sự hài lòng tuyệt đối. Website: https://78win.asia/ Email: 78winasia.contact@gmail.com"
Строительная компания «Деревянный дом» занимается строительством малоэтажных деревянных домов более 10 лет. Консультируем и проектируем дома под определённые задачи, помогаем подобрать проект, делаем каждый дом комфортным и удобным для проживания. Более подробную информацию можно посмотреть на https://der-dom.com.
The hot air type means that the heat carrier (such as hot air) contacts and dries the material to be dried. In the conduction type, the heat carrier does not directly contact the material to be dried, but the hot surface and the material contact each other. Wedge-shaped hollow blades are densely arranged on the hollow shaft, and the heat medium flows through the blades through the hollow shaft. The heat transfer area per unit of effective volume is very large, and the temperature of the heat medium is from -40 to 320°C, which can be water vapor or liquid type: such as hot water, heat transfer oil, etc. Indirectly transmitted to heating, no air is carried to take away heat, heat is used to heat materials, and heat loss is only for heat dissipation to the environment through the insulation layer of the body. The heat transfer surface of the wedge-shaped blade has a self-cleaning function, and the relative movement of the material particles and the wedge-shaped surface produces a scrubbing effect, which can wash off the attachments on the wedge-shaped surface, and maintain a clean heat transfer surface during the trial operation. The paddle dryer is composed of two to four paddle shafts that mesh with each other, a W-shaped shell with a jacket, a machine base and a transmission part. It is sent to the exhaust gas treatment device in a closed atmosphere to avoid environmental pollution. The dryer uses steam, hot water or heat transfer oil as the heating medium, and the shaft end is equipped with a rotary joint for the introduction and export of the heat medium. The heating medium is divided into two paths, which enter the jacket of the dryer shell and the inner cavity of the blade shaft respectively, and heat the body and the blade shaft at the same time to heat and dry the material by conduction heating. The material to be dried is continuously fed into the feeding port of the dryer quantitatively and continuously by the screw feeder. After the material enters the back of the machine, the material is turned over and stirred by the rotation of the paddle, and the heating interface is continuously updated. Heating to evaporate the surface water contained in the material. At the same time, with the rotation of the blade shaft, the material is conveyed in a spiral trajectory towards the discharge port, and the stirring is continued during the conveying, so that the water seeping out of the sludge continues to evaporate. Finally, the dry and uniform qualified products are discharged from the discharge port. a. The equipment has a compact structure and a small footprint of the device. It can be seen from the structure of the equipment that the heat required for drying is mainly provided by the walls of the hollow blades arranged on the hollow shaft, while the heat transfer from the walls of the jacket only accounts for a small part. Therefore, the heat transfer surface per unit volume of the equipment is large, which can save the floor space of the equipment and reduce the investment in infrastructure. b. High heat utilization rate. The sludge dryer is heated by conduction heating, and all heat transfer surfaces are covered with materials, which reduces heat loss; no hot air takes away heat, and the heat utilization rate can reach more than 90%.c. The wedge-shaped blade has self-cleaning ability, which can improve the heat transfer effect of the blade. The dispersing force generated by the combined movement of the inclined surface of the rotating blade and the particle or powder layer automatically removes the sludge attached to the heating inclined surface, and the blade maintains an efficient heat transfer function. In addition, due to the reverse rotation of the two-shaft paddles, alternately segmented compression (when the two-shaft paddle surfaces are closest to each other) and expansion (when the two-shaft paddle surfaces<a href> https://kuosiequipment.com/equipments/sludge-dryer/paddle-dryer/<a> are farthest apart), the stirring function ensures uniform heat transfer and improves the heat transfer effect. Low temperature sludge drying system Automatic dosing system China Pool Chemical Dosing System Automatic polymer preparation system
The hot air type means that the heat carrier (such as hot air) contacts and dries the material to be dried. In the conduction type, the heat carrier does not directly contact the material to be dried, but the hot surface and the material contact each other. Wedge-shaped hollow blades are densely arranged on the hollow shaft, and the heat medium flows through the blades through the hollow shaft. The heat transfer area per unit of effective volume is very large, and the temperature of the heat medium is from -40 to 320°C, which can be water vapor or liquid type: such as hot water, heat transfer oil, etc. Indirectly transmitted to heating, no air is carried to take away heat, heat is used to heat materials, and heat loss is only for heat dissipation to the environment through the insulation layer of the body. The heat transfer surface of the wedge-shaped blade has a self-cleaning function, and the relative movement of the material particles and the wedge-shaped surface produces a scrubbing effect, which can wash off the attachments on the wedge-shaped surface, and maintain a clean heat transfer surface during the trial operation. The paddle dryer is composed of two to four paddle shafts that mesh with each other, a W-shaped shell with a jacket, a machine base and a transmission part. It is sent to the exhaust gas treatment device in a closed atmosphere to avoid environmental pollution. The dryer uses steam, hot water or heat transfer oil as the heating medium, and the shaft end is equipped with a rotary joint for the introduction and export of the heat medium. The heating medium is divided into two paths, which enter the jacket of the dryer shell and the inner cavity of the blade shaft respectively, and heat the body and the blade shaft at the same time to heat and dry the material by conduction heating. The material to be dried is continuously fed into the feeding port of the dryer quantitatively and continuously by the screw feeder. After the material enters the back of the machine, the material is turned over and stirred by the rotation of the paddle, and the heating interface is continuously updated. Heating to evaporate the surface water contained in the material. At the same time, with the rotation of the blade shaft, the material is conveyed in a spiral trajectory towards the discharge port, and the stirring is continued during the conveying, so that the water seeping out of the sludge continues to evaporate. Finally, the dry and uniform qualified products are discharged from the discharge port. a. The equipment has a compact structure and a small footprint of the device. It can be seen from the structure of the equipment that the heat required for drying is mainly provided by the walls of the hollow blades arranged on the hollow shaft, while the heat transfer from the walls of the jacket only accounts for a small part. Therefore, the heat transfer surface per unit volume of the equipment is large, which can save the floor space of the equipment and reduce the investment in infrastructure. b. High heat utilization rate. The sludge dryer is heated by conduction heating, and all heat transfer surfaces are covered with materials, which reduces heat loss; no hot air takes away heat, and the heat utilization rate can reach more than 90%.c. The wedge-shaped blade has self-cleaning ability, which can improve the heat transfer effect of the blade. The dispersing force generated by the combined movement of the inclined surface of the rotating blade and the particle or powder layer automatically removes the sludge attached to the heating inclined surface, and the blade maintains an efficient heat transfer function. In addition, due to the reverse rotation of the two-shaft paddles, alternately segmented compression (when the two-shaft paddle surfaces are closest to each other) and expansion (when the two-shaft paddle surfaces<a href> https://kuosiequipment.com/equipments/sludge-dryer/paddle-dryer/<a> are farthest apart), the stirring function ensures uniform heat transfer and improves the heat transfer effect. Low temperature sludge drying system Automatic dosing system China Pool Chemical Dosing System Automatic polymer preparation system
The hot air type means that the heat carrier (such as hot air) contacts and dries the material to be dried. In the conduction type, the heat carrier does not directly contact the material to be dried, but the hot surface and the material contact each other. Wedge-shaped hollow blades are densely arranged on the hollow shaft, and the heat medium flows through the blades through the hollow shaft. The heat transfer area per unit of effective volume is very large, and the temperature of the heat medium is from -40 to 320°C, which can be water vapor or liquid type: such as hot water, heat transfer oil, etc. Indirectly transmitted to heating, no air is carried to take away heat, heat is used to heat materials, and heat loss is only for heat dissipation to the environment through the insulation layer of the body. The heat transfer surface of the wedge-shaped blade has a self-cleaning function, and the relative movement of the material particles and the wedge-shaped surface produces a scrubbing effect, which can wash off the attachments on the wedge-shaped surface, and maintain a clean heat transfer surface during the trial operation. The paddle dryer is composed of two to four paddle shafts that mesh with each other, a W-shaped shell with a jacket, a machine base and a transmission part. It is sent to the exhaust gas treatment device in a closed atmosphere to avoid environmental pollution. The dryer uses steam, hot water or heat transfer oil as the heating medium, and the shaft end is equipped with a rotary joint for the introduction and export of the heat medium. The heating medium is divided into two paths, which enter the jacket of the dryer shell and the inner cavity of the blade shaft respectively, and heat the body and the blade shaft at the same time to heat and dry the material by conduction heating. The material to be dried is continuously fed into the feeding port of the dryer quantitatively and continuously by the screw feeder. After the material enters the back of the machine, the material is turned over and stirred by the rotation of the paddle, and the heating interface is continuously updated. Heating to evaporate the surface water contained in the material. At the same time, with the rotation of the blade shaft, the material is conveyed in a spiral trajectory towards the discharge port, and the stirring is continued during the conveying, so that the water seeping out of the sludge continues to evaporate. Finally, the dry and uniform qualified products are discharged from the discharge port. a. The equipment has a compact structure and a small footprint of the device. It can be seen from the structure of the equipment that the heat required for drying is mainly provided by the walls of the hollow blades arranged on the hollow shaft, while the heat transfer from the walls of the jacket only accounts for a small part. Therefore, the heat transfer surface per unit volume of the equipment is large, which can save the floor space of the equipment and reduce the investment in infrastructure. b. High heat utilization rate. The sludge dryer is heated by conduction heating, and all heat transfer surfaces are covered with materials, which reduces heat loss; no hot air takes away heat, and the heat utilization rate can reach more than 90%.c. The wedge-shaped blade has self-cleaning ability, which can improve the heat transfer effect of the blade. The dispersing force generated by the combined movement of the inclined surface of the rotating blade and the particle or powder layer automatically removes the sludge attached to the heating inclined surface, and the blade maintains an efficient heat transfer function. In addition, due to the reverse rotation of the two-shaft paddles, alternately segmented compression (when the two-shaft paddle surfaces are closest to each other) and expansion (when the two-shaft paddle surfaces<a href> https://kuosiequipment.com/equipments/sludge-dryer/paddle-dryer/<a> are farthest apart), the stirring function ensures uniform heat transfer and improves the heat transfer effect. Low temperature sludge drying system Automatic dosing system China Pool Chemical Dosing System Automatic polymer preparation system
The hot air type means that the heat carrier (such as hot air) contacts and dries the material to be dried. In the conduction type, the heat carrier does not directly contact the material to be dried, but the hot surface and the material contact each other. Wedge-shaped hollow blades are densely arranged on the hollow shaft, and the heat medium flows through the blades through the hollow shaft. The heat transfer area per unit of effective volume is very large, and the temperature of the heat medium is from -40 to 320°C, which can be water vapor or liquid type: such as hot water, heat transfer oil, etc. Indirectly transmitted to heating, no air is carried to take away heat, heat is used to heat materials, and heat loss is only for heat dissipation to the environment through the insulation layer of the body. The heat transfer surface of the wedge-shaped blade has a self-cleaning function, and the relative movement of the material particles and the wedge-shaped surface produces a scrubbing effect, which can wash off the attachments on the wedge-shaped surface, and maintain a clean heat transfer surface during the trial operation. The paddle dryer is composed of two to four paddle shafts that mesh with each other, a W-shaped shell with a jacket, a machine base and a transmission part. It is sent to the exhaust gas treatment device in a closed atmosphere to avoid environmental pollution. The dryer uses steam, hot water or heat transfer oil as the heating medium, and the shaft end is equipped with a rotary joint for the introduction and export of the heat medium. The heating medium is divided into two paths, which enter the jacket of the dryer shell and the inner cavity of the blade shaft respectively, and heat the body and the blade shaft at the same time to heat and dry the material by conduction heating. The material to be dried is continuously fed into the feeding port of the dryer quantitatively and continuously by the screw feeder. After the material enters the back of the machine, the material is turned over and stirred by the rotation of the paddle, and the heating interface is continuously updated. Heating to evaporate the surface water contained in the material. At the same time, with the rotation of the blade shaft, the material is conveyed in a spiral trajectory towards the discharge port, and the stirring is continued during the conveying, so that the water seeping out of the sludge continues to evaporate. Finally, the dry and uniform qualified products are discharged from the discharge port. a. The equipment has a compact structure and a small footprint of the device. It can be seen from the structure of the equipment that the heat required for drying is mainly provided by the walls of the hollow blades arranged on the hollow shaft, while the heat transfer from the walls of the jacket only accounts for a small part. Therefore, the heat transfer surface per unit volume of the equipment is large, which can save the floor space of the equipment and reduce the investment in infrastructure. b. High heat utilization rate. The sludge dryer is heated by conduction heating, and all heat transfer surfaces are covered with materials, which reduces heat loss; no hot air takes away heat, and the heat utilization rate can reach more than 90%.c. The wedge-shaped blade has self-cleaning ability, which can improve the heat transfer effect of the blade. The dispersing force generated by the combined movement of the inclined surface of the rotating blade and the particle or powder layer automatically removes the sludge attached to the heating inclined surface, and the blade maintains an efficient heat transfer function. In addition, due to the reverse rotation of the two-shaft paddles, alternately segmented compression (when the two-shaft paddle surfaces are closest to each other) and expansion (when the two-shaft paddle surfaces<a href> https://kuosiequipment.com/equipments/sludge-dryer/paddle-dryer/<a> are farthest apart), the stirring function ensures uniform heat transfer and improves the heat transfer effect. Low temperature sludge drying system Automatic dosing system China Pool Chemical Dosing System Automatic polymer preparation system
The hot air type means that the heat carrier (such as hot air) contacts and dries the material to be dried. In the conduction type, the heat carrier does not directly contact the material to be dried, but the hot surface and the material contact each other. Wedge-shaped hollow blades are densely arranged on the hollow shaft, and the heat medium flows through the blades through the hollow shaft. The heat transfer area per unit of effective volume is very large, and the temperature of the heat medium is from -40 to 320°C, which can be water vapor or liquid type: such as hot water, heat transfer oil, etc. Indirectly transmitted to heating, no air is carried to take away heat, heat is used to heat materials, and heat loss is only for heat dissipation to the environment through the insulation layer of the body. The heat transfer surface of the wedge-shaped blade has a self-cleaning function, and the relative movement of the material particles and the wedge-shaped surface produces a scrubbing effect, which can wash off the attachments on the wedge-shaped surface, and maintain a clean heat transfer surface during the trial operation. The paddle dryer is composed of two to four paddle shafts that mesh with each other, a W-shaped shell with a jacket, a machine base and a transmission part. It is sent to the exhaust gas treatment device in a closed atmosphere to avoid environmental pollution. The dryer uses steam, hot water or heat transfer oil as the heating medium, and the shaft end is equipped with a rotary joint for the introduction and export of the heat medium. The heating medium is divided into two paths, which enter the jacket of the dryer shell and the inner cavity of the blade shaft respectively, and heat the body and the blade shaft at the same time to heat and dry the material by conduction heating. The material to be dried is continuously fed into the feeding port of the dryer quantitatively and continuously by the screw feeder. After the material enters the back of the machine, the material is turned over and stirred by the rotation of the paddle, and the heating interface is continuously updated. Heating to evaporate the surface water contained in the material. At the same time, with the rotation of the blade shaft, the material is conveyed in a spiral trajectory towards the discharge port, and the stirring is continued during the conveying, so that the water seeping out of the sludge continues to evaporate. Finally, the dry and uniform qualified products are discharged from the discharge port. a. The equipment has a compact structure and a small footprint of the device. It can be seen from the structure of the equipment that the heat required for drying is mainly provided by the walls of the hollow blades arranged on the hollow shaft, while the heat transfer from the walls of the jacket only accounts for a small part. Therefore, the heat transfer surface per unit volume of the equipment is large, which can save the floor space of the equipment and reduce the investment in infrastructure. b. High heat utilization rate. The sludge dryer is heated by conduction heating, and all heat transfer surfaces are covered with materials, which reduces heat loss; no hot air takes away heat, and the heat utilization rate can reach more than 90%.c. The wedge-shaped blade has self-cleaning ability, which can improve the heat transfer effect of the blade. The dispersing force generated by the combined movement of the inclined surface of the rotating blade and the particle or powder layer automatically removes the sludge attached to the heating inclined surface, and the blade maintains an efficient heat transfer function. In addition, due to the reverse rotation of the two-shaft paddles, alternately segmented compression (when the two-shaft paddle surfaces are closest to each other) and expansion (when the two-shaft paddle surfaces<a href> https://kuosiequipment.com/equipments/sludge-dryer/paddle-dryer/<a> are farthest apart), the stirring function ensures uniform heat transfer and improves the heat transfer effect. Low temperature sludge drying system Automatic dosing system China Pool Chemical Dosing System Automatic polymer preparation system
Russia, Moscow, Moscow
Медсестра на дом Москва и МО, Химки, Сходня, Новогорск, Красногорск, Нахабино, Дедовск, Одинцово, Коммунарка, Московский, Апрелевка, Подольск, Щербинка, Видное, Домодедово, Дзержинский, Люберцы, Некрасовка, Балашиха, Железнодорожный, Реутов, Новокосино, Мытищи, Щелково, Королев, Долгопрудный Медицинские услуги на дому: **капельницы с вашими препаратами, **капельницы при пищевом отравлении, **капельницы при ротавирусе, **капельницы в порт-системы, **капельницы при гриппе и простуде, ОРЗ и ОРВИ, **капельницы с препаратом Лаеннек, **капельницы с препаратом Глутатион, ** капельницы с Гептрал ** капельницы с Реамберин или Ремаксол **капельницы от похмелья, **внутривенные уколы (в/в инъекция), **внутримышечные уколы (в/м инъекция), **подкожные уколы (п/к инъекция), **аутогемотерапия, **кровопускание (гемоэксфузия) **перевязки, **обработка стом, **замена калоприемника, **обработка швов, **снятие швов, **клизмы, **установка внутривенного катетера, **установка мочевого катетера "Фолея", **снятие алкогольной интоксикации, **вывод из запоя. Стаж работы 14 лет.Имею высшую категорию. В наличии штатив для капельницы, действующий диплом и сертификат медицинской сестры. +79265293411 https://medsestra-na-dom.com/
The ozone generator (system) is mainly composed of: electronic control system, high-voltage discharge body, cooling system, and gas source system. 1. The ozone generating unit is the most basic component group for generating glow discharge to generate ozone. 2. The electrode distributes the conductor of the high voltage electric field in the ozone generating unit. 3. Glow discharge When the electric field strength between the two electrodes exceeds a certain value, the electrical conduction phenomenon in the gas manifested by luminescence. 4. Dielectric non-conductive insulating medium. In the ozone generating unit, it refers to the insulator between the two electrodes, which causes a stable glow discharge. 5. Dielectric strength The highest electric field strength that the dielectric material can withstand without being damaged. The gas source dew point of the ozone generator, ozone mass concentration, kilogram ozone power consumption, cooling method, trouble-free working time, etc. Classification 1 The ozone generator is divided into tube type (G) and plate type (B) according to the structure of the ozone generating unit. 2 Ozone generators are divided into power frequency (50~60Hz), intermediate frequency (400~1000Hz) and high frequency (>1000Hz) according to the discharge frequency. 3 Ozone generators are divided into small (5~100g/h), medium (>100~1000g/h) and large (>1000g/h) according to the ozone output. 4. Product selection points 1) For ozone systems with separate air treatment equipment, the air treatment equipment and its parameters must be marked separately. 2) The ozone system used for disinfection of swimming pool water should have interlocking protection functions such as circulating water pumps, ozone cabinets, and accident alarms. 3) The ozone system used for swimming pool water disinfection should have automatic dosing measures and safety alarm measures, such as: ozone leakage detection and alarm, electrical system short-circuit or overload alarm, cooling water and transformer over-temperature alarm, etc. 4) The ozone content in the swimming pool circulation system can be monitored and controlled online with ORP probe or ozone probe. 5) Manufacturers of ozone generators<a href>https://kuosiequipment.com/equipments/disinfection-system/ozone-generator/ <a> must provide detailed product information, product certification and industry approval certificates. 5. Construction and installation points 1) The base height of the ozone generator should not be less than 100mm, and the horizontal dimension should be 50~100mm larger than the box size on each side. 2) The operating channel in front of the ozone generator panel is at least 1000mm wide and 2000mm high, and there is at least one maintenance channel with a width of 500mm on the other three sides, and the height of the machine room is at least 2200mm. 3) The machine room where the ozone generator is installed should be well ventilated to ensure that the temperature and humidity do not exceed the requirements for the normal operation of the ozone generator. 4) The ozone detection device should be installed in the computer room where the ozone generator is installed. When the ozone concentration in the air exceeds the standard, an alarm should be given and the ozone generator should be turned off. 5) The swimming pool water treatment system using the ozone generator (system) should set up an ozone concentration monitoring system in the air beside the swimming pool. 6) The ozone generator should have protective grounding measures.
The sewage treatment process is divided into 3 levels: Primary treatment: Remove stones, sand, grease and grease from sewage by mechanical treatment such as grid, sedimentation or air flotation. Secondary treatment: biological treatment, the pollutants in the sewage are degraded and converted into sludge under the action of microorganisms. Tertiary Treatment: Advanced treatment of wastewater, including removal of nutrients and disinfection of wastewater by chlorine, UV radiation or ozone. Depending on treatment goals and water quality, some wastewater treatment processes do not include all of the above. Before the dewatering process begins, the sludge must pass through any mineral or organic chemicals such as coagulants and flocculants. After conditioning, the sludge is concentrated by dissolved air flotation, gravity belt, thickening drum/spiral drum or centrifuge. Once the conditioning step is complete, analysis of the most suitable sludge dewatering technology can begin. The choice of sludge treatment method depends on several factors, including characteristics, volume, time and available disposal options. Common dewatering options are plate and frame presses, membrane presses, box presses, belt presses, centrifuges and screw presses. The benefits of sludge dewatering reduce waste Sludge dewatering focuses on reducing weight and volume to minimize waste disposal costs. Therefore, water removal is the primary means of volume reduction until the sludge by-product can be disposed of economically. Water Treatment Process Steps: Dry, high-solids cakes mean lower costs. The use of dewatering equipment is an effective tool for managing sludge build-up, which can reduce transportation and storage costs. Wastewater recycling Once the sludge is dewatered and the treated water is free of hazards and contaminants, it can be recycled and reused by industry and the community. For example, steam power plants use reclaimed water to provide electricity services to communities. automation Many people consider filter presses to be labor-intensive equipment. In fact, sludge dewatering filter presses can be automated with automatic cloth washers, mechanically assisted filter cake release and complex control systems that allow communication with the main plant control system. protect environment Reduce the amount of waste to a more compact and easier-to-handle size. While the dry cake is disposed of, the reuse of the filtrate reduces the need for new water sources for municipal and industrial wastewater treatment, as well as the overall volume of water required for treatment.
The sewage treatment process is divided into 3 levels: Primary treatment: Remove stones, sand, grease and grease from sewage by mechanical treatment such as grid, sedimentation or air flotation. Secondary treatment: biological treatment, the pollutants in the sewage are degraded and converted into sludge under the action of microorganisms. Tertiary Treatment: Advanced treatment of wastewater, including removal of nutrients and disinfection of wastewater by chlorine, UV radiation or ozone. Depending on treatment goals and water quality, some wastewater treatment processes do not include all of the above. Before the dewatering process begins, the sludge must pass through any mineral or organic chemicals such as coagulants and flocculants. After conditioning, the sludge is concentrated by dissolved air flotation, gravity belt, thickening drum/spiral drum or centrifuge. Once the conditioning step is complete, analysis of the most suitable sludge dewatering technology can begin. The choice of sludge treatment method depends on several factors, including characteristics, volume, time and available disposal options. Common dewatering options are plate and frame presses, membrane presses, box presses, belt presses, centrifuges and screw presses. The benefits of sludge dewatering reduce waste Sludge dewatering focuses on reducing weight and volume to minimize waste disposal costs. Therefore, water removal is the primary means of volume reduction until the sludge by-product can be disposed of economically. Water Treatment Process Steps: Dry, high-solids cakes mean lower costs. The use of dewatering equipment is an effective tool for managing sludge build-up, which can reduce transportation and storage costs. Wastewater recycling Once the sludge is dewatered and the treated water is free of hazards and contaminants, it can be recycled and reused by industry and the community. For example, steam power plants use reclaimed water to provide electricity services to communities. automation Many people consider filter presses to be labor-intensive equipment. In fact, sludge dewatering filter presses can be automated with automatic cloth washers, mechanically assisted filter cake release and complex control systems that allow communication with the main plant control system. protect environment Reduce the amount of waste to a more compact and easier-to-handle size. While the dry cake is disposed of, the reuse of the filtrate reduces the need for new water sources for municipal and industrial wastewater treatment, as well as the overall volume of water required for treatment.
The sewage treatment process is divided into 3 levels: Primary treatment: Remove stones, sand, grease and grease from sewage by mechanical treatment such as grid, sedimentation or air flotation. Secondary treatment: biological treatment, the pollutants in the sewage are degraded and converted into sludge under the action of microorganisms. Tertiary Treatment: Advanced treatment of wastewater, including removal of nutrients and disinfection of wastewater by chlorine, UV radiation or ozone. Depending on treatment goals and water quality, some wastewater treatment processes do not include all of the above. Before the dewatering process begins, the sludge must pass through any mineral or organic chemicals such as coagulants and flocculants. After conditioning, the sludge is concentrated by dissolved air flotation, gravity belt, thickening drum/spiral drum or centrifuge. Once the conditioning step is complete, analysis of the most suitable sludge dewatering technology can begin. The choice of sludge treatment method depends on several factors, including characteristics, volume, time and available disposal options. Common dewatering options are plate and frame presses, membrane presses, box presses, belt presses, centrifuges and screw presses. The benefits of sludge dewatering reduce waste Sludge dewatering focuses on reducing weight and volume to minimize waste disposal costs. Therefore, water removal is the primary means of volume reduction until the sludge by-product can be disposed of economically. Water Treatment Process Steps: Dry, high-solids cakes mean lower costs. The use of dewatering equipment is an effective tool for managing sludge build-up, which can reduce transportation and storage costs. Wastewater recycling Once the sludge is dewatered and the treated water is free of hazards and contaminants, it can be recycled and reused by industry and the community. For example, steam power plants use reclaimed water to provide electricity services to communities. automation Many people consider filter presses to be labor-intensive equipment. In fact, sludge dewatering filter presses can be automated with automatic cloth washers, mechanically assisted filter cake release and complex control systems that allow communication with the main plant control system. protect environment Reduce the amount of waste to a more compact and easier-to-handle size. While the dry cake is disposed of, the reuse of the filtrate reduces the need for new water sources for municipal and industrial wastewater treatment, as well as the overall volume of water required for treatment.
The sewage treatment process is divided into 3 levels: Primary treatment: Remove stones, sand, grease and grease from sewage by mechanical treatment such as grid, sedimentation or air flotation. Secondary treatment: biological treatment, the pollutants in the sewage are degraded and converted into sludge under the action of microorganisms. Tertiary Treatment: Advanced treatment of wastewater, including removal of nutrients and disinfection of wastewater by chlorine, UV radiation or ozone. Depending on treatment goals and water quality, some wastewater treatment processes do not include all of the above. Before the dewatering process begins, the sludge must pass through any mineral or organic chemicals such as coagulants and flocculants. After conditioning, the sludge is concentrated by dissolved air flotation, gravity belt, thickening drum/spiral drum or centrifuge. Once the conditioning step is complete, analysis of the most suitable sludge dewatering technology can begin. The choice of sludge treatment method depends on several factors, including characteristics, volume, time and available disposal options. Common dewatering options are plate and frame presses, membrane presses, box presses, belt presses, centrifuges and screw presses. The benefits of sludge dewatering reduce waste Sludge dewatering focuses on reducing weight and volume to minimize waste disposal costs. Therefore, water removal is the primary means of volume reduction until the sludge by-product can be disposed of economically. Water Treatment Process Steps: Dry, high-solids cakes mean lower costs. The use of dewatering equipment is an effective tool for managing sludge build-up, which can reduce transportation and storage costs. Wastewater recycling Once the sludge is dewatered and the treated water is free of hazards and contaminants, it can be recycled and reused by industry and the community. For example, steam power plants use reclaimed water to provide electricity services to communities. automation Many people consider filter presses to be labor-intensive equipment. In fact, sludge dewatering filter presses can be automated with automatic cloth washers, mechanically assisted filter cake release and complex control systems that allow communication with the main plant control system. protect environment Reduce the amount of waste to a more compact and easier-to-handle size. While the dry cake is disposed of, the reuse of the filtrate reduces the need for new water sources for municipal and industrial wastewater treatment, as well as the overall volume of water required for treatment.
The sewage treatment process is divided into 3 levels: Primary treatment: Remove stones, sand, grease and grease from sewage by mechanical treatment such as grid, sedimentation or air flotation. Secondary treatment: biological treatment, the pollutants in the sewage are degraded and converted into sludge under the action of microorganisms. Tertiary Treatment: Advanced treatment of wastewater, including removal of nutrients and disinfection of wastewater by chlorine, UV radiation or ozone. Depending on treatment goals and water quality, some wastewater treatment processes do not include all of the above. Before the dewatering process begins, the sludge must pass through any mineral or organic chemicals such as coagulants and flocculants. After conditioning, the sludge is concentrated by dissolved air flotation, gravity belt, thickening drum/spiral drum or centrifuge. Once the conditioning step is complete, analysis of the most suitable sludge dewatering technology can begin. The choice of sludge treatment method depends on several factors, including characteristics, volume, time and available disposal options. Common dewatering options are plate and frame presses, membrane presses, box presses, belt presses, centrifuges and screw presses. The benefits of sludge dewatering reduce waste Sludge dewatering focuses on reducing weight and volume to minimize waste disposal costs. Therefore, water removal is the primary means of volume reduction until the sludge by-product can be disposed of economically. Water Treatment Process Steps: Dry, high-solids cakes mean lower costs. The use of dewatering equipment is an effective tool for managing sludge build-up, which can reduce transportation and storage costs. Wastewater recycling Once the sludge is dewatered and the treated water is free of hazards and contaminants, it can be recycled and reused by industry and the community. For example, steam power plants use reclaimed water to provide electricity services to communities. automation Many people consider filter presses to be labor-intensive equipment. In fact, sludge dewatering filter presses can be automated with automatic cloth washers, mechanically assisted filter cake release and complex control systems that allow communication with the main plant control system. protect environment Reduce the amount of waste to a more compact and easier-to-handle size. While the dry cake is disposed of, the reuse of the filtrate reduces the need for new water sources for municipal and industrial wastewater treatment, as well as the overall volume of water required for treatment.
The sewage treatment process is divided into 3 levels: Primary treatment: Remove stones, sand, grease and grease from sewage by mechanical treatment such as grid, sedimentation or air flotation. Secondary treatment: biological treatment, the pollutants in the sewage are degraded and converted into sludge under the action of microorganisms. Tertiary Treatment: Advanced treatment of wastewater, including removal of nutrients and disinfection of wastewater by chlorine, UV radiation or ozone. Depending on treatment goals and water quality, some wastewater treatment processes do not include all of the above. Before the dewatering process begins, the sludge must pass through any mineral or organic chemicals such as coagulants and flocculants. After conditioning, the sludge is concentrated by dissolved air flotation, gravity belt, thickening drum/spiral drum or centrifuge. Once the conditioning step is complete, analysis of the most suitable sludge dewatering technology can begin. The choice of sludge treatment method depends on several factors, including characteristics, volume, time and available disposal options. Common dewatering options are plate and frame presses, membrane presses, box presses, belt presses, centrifuges and screw presses. The benefits of sludge dewatering reduce waste Sludge dewatering focuses on reducing weight and volume to minimize waste disposal costs. Therefore, water removal is the primary means of volume reduction until the sludge by-product can be disposed of economically. Water Treatment Process Steps: Dry, high-solids cakes mean lower costs. The use of dewatering equipment is an effective tool for managing sludge build-up, which can reduce transportation and storage costs. Wastewater recycling Once the sludge is dewatered and the treated water is free of hazards and contaminants, it can be recycled and reused by industry and the community. For example, steam power plants use reclaimed water to provide electricity services to communities. automation Many people consider filter presses to be labor-intensive equipment. In fact, sludge dewatering filter presses can be automated with automatic cloth washers, mechanically assisted filter cake release and complex control systems that allow communication with the main plant control system. protect environment Reduce the amount of waste to a more compact and easier-to-handle size. While the dry cake is disposed of, the reuse of the filtrate reduces the need for new water sources for municipal and industrial wastewater treatment, as well as the overall volume of water required for treatment.
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A level sensor (hydrostatic level gauge/level transmitter/level sensor/water level sensor) is a pressure sensor that measures a level. Static input type liquid level transmitter (gauge) is based on the measured hydrostatic principle of proportional to the height of the liquid, USES the overseas advanced isolation diffusion silicon sensing element or sensitive ceramic capacitance pressure sensor, the static pressure is converted to electrical signals, after temperature compensation and the linear correction, converted into a standard electrical signals (usually 4 ~ 20 ma / 1 ~ 5 VDC). Divided into two kinds: one kind is contact, including single/double flange static pressure flange differential pressure transmitter, liquid level ball float liquid level transmitter, magnetic liquid level transmitter, the inputting type liquid level transmitter, electric ball float liquid level transmitter, electric float liquid level transmitter, capacitive liquid level transmitter, magnetostrictive liquid level transmitter, servo liquid level transmitter, etc. The second type is non-contact type, divided into ultrasonic level transmitter, radar level transmitter and so on. Hydrostatic INPUT LEVEL transmitter (liquid level meter) is suitable for petrochemical industry, metallurgy, electric power, pharmaceutical, water supply and drainage, environmental protection and other systems and industries of all kinds of medium level measurement. The delicate structure, simple adjustment and flexible installation provide convenience for users to use easily. 4~20mA, 0~ 5V, 0~10mA and other standard signal output methods can be selected by users according to their needs. The input liquid level transmitter uses hydrostatic principle to measure liquid level, which is an important application of pressure sensor. Special cable with ventilation catheter in the middle and special sealing technology are used to ensure the watertightness of the sensor, and make the reference pressure chamber communicated with the ambient pressure, so as to ensure the high precision and high stability of the measurement. The liquid level switch is a controller that keeps the water level constant by opening the water discharge or inlet valve according to the signal output of the liquid level sensor. It can also be said that the output of the liquid level switch is a switch signal. The liquid level switch should first determine the height of the liquid level and output the switch signal according to this height. The liquid level sensor converts the height of the liquid level into the form of electrical signals for output. We can process electrical signals such as PLC, data collector or professional display connected to output liquid level height. There is a liquid level switch and level sensor although the principle is the same. But the liquid level switch is the switch control circuit, and the liquid level sensor is equivalent to the voltage change, change the current with the circuit element. There are five types of sensors: 1. Pontoon level sensor The buoy type liquid level transmitter is a magnetic floating ball into a buoy, and the liquid level sensor is designed according to the principle of Archimedes buoyancy. The pontoon level transmitter uses the tiny metal film strain sensing technology to measure the liquid level, boundary or density. It can be set up by pressing the button on the spot when working. 2, floating ball type liquid level sensor Ball float liquid level transmitter ducts, the signal is measured by the magnetic floating ball, unit, the electronic unit, junction box and install a composition, the proportion of general magnetic float is less than 0.5, can float on the surface and move up and down along the measuring tube, intraductal equipped with measuring element, it can will be under outer magnetic liquid level measurement signal into the resistance of the signal is proportional to liquid level change, And the electronic unit is converted into 4~20mA or other standard signal output. The liquid level sensor is a modular circuit, which has the advantages of acid resistance, moisture resistance, shock resistance, corrosion resistance, etc. The circuit contains constant current feedback circuit and internal protection circuit, which can make the output maximum current not more than 28mA, so it can reliably protect the power supply and make the secondary instrument is not damaged. 3, static pressure type liquid level sensor The transmitter uses the liquid static pressure measurement principle to work, it generally uses silicon pressure transducer to measure the pressure into electrical signal, and then through the amplifier circuit amplification and compensation circuit compensation, and finally output with 4~20mA or 0~10mA current. Main technical parameters: Process: diffuse silicon ceramic capacitor sapphire capacitor optional. Split integral optional, range :0-- 0.5-- 200 meters, output: 4-- 20mA (2 wire system) Power supply: 7.5-- 36VDC recommended 24VDCBM-2100 /CBM-2700 input hydrostatic level meter is a reliable anticorrosion probe with ceramic measuring unit for level measurement of clean water, sewage and salt water. GY500 input split type liquid level transmitter adopts diffused silicon piezoresistive core,316 stainless steel structure, shell adopts isolation and explosion-proof design, the input level gauge is mainly suitable for river, underground water level, reservoir, water tower and container level measurement and control. Circuit using signal isolation amplification, frequency interception interference design (anti-interference ability, anti-lightning) overvoltage protection, current protection, impact resistance, anti-corrosion design. Main technical parameters: Measuring medium: water, oil, and other liquid pressure type: gauge pressure, absolute pressure (no default gauge pressure required) Measuring range: 0~300m intermediate measuring range optional comprehensive accuracy: 0.1%FS output signal: 4~20mA(two-line system), 0~5V, 1~5V, 0~10V(three-line system) Supply voltage: 12~36VDC medium temperature: -30~60℃ ambient temperature: -40~85℃ zero point temperature drift: ≤±0.05%FS℃ range temperature drift: ≤±0.05%FS℃ compensation temperature: 0~70℃ Safety overload: 150%FS Limit overload: 200%FS Sampling frequency: ≤2ms Load capacity :(current type)250~ 1425ω (voltage type)≥ 2kω Seal Grade: IP68 long-term stability: 0.1%FS/ year vibration impact: within the mechanical vibration frequency of 20Hz~1000Hz, the output change is less than 0.1%FS mechanical connection (threaded interface): input type (submersible type)] Functional features: good stability, full degree, zero long-term stability up to 0.1%FS/ year. In the compensation temperature range of 0 ~ 70 ℃, the temperature drift is lower than 0.1%FS, and it is lower than 0.3%FS in the whole allowable operating temperature range. With reverse protection, current limiting protection circuit, in the installation of positive and negative polarity reverse connection will not damage the transmitter, abnormal transmitter will automatically limit the current within 35MA. Solid structure, no moving parts, high reliability, long service life. Convenient installation, simple structure, economic and durable.
КОММЕРЧЕСКОЕ ПРЕДЛО­ЖЕНИЕ Здравствуйте меня зовут Иванов Илья Вад­имович Я занимаюсь производ­ством металлоконстру­кций, сотрудничаю со стро­ительными компаниями. 🚧ПРОДАЖА СТРОИТЕЛЬН­ЫХ ОГРАЖДЕНИЙ🚧 Цены на строительные ограждения в Казани (за ОДНУ секцию) ⛔ Секция ограждения Н=1,6м. 1440 руб. Секция ограждения Н=2,0м. 1640 руб. * ограждения соотве­тствуют требованиям ГАТИ * можем изготовить ограждения необходим­ого вам размера Строительные огражде­ния и сфера их приме­нения Мобильные строитель­ные ограждения приме­няют для разделения объекта на котором производятся работы и участков повышенной опасности. К таким работам относятся пр­оведение ремонта на дорогах, движение сп­ец техники, массовые мероприятия и др. Изделия представляет собой цельно металли­ческий каркас в сетк­ой, на само стоящих ножках. Сбоку присут­ствуют специальные пазы для соединения ограждений между собо­й. Доставка строительных ограждений Неотъемлемой частью является доставка строительных огражден­ий на объекта заказч­ика. Мы с удовольств­ием доставим к вам на площадку секции ма­шинами – манипулятор­ами или газелью. Стоимость доставки строительных огражден­ий с нашего производ­ства на Ваш объект, можете уточнить у на­шего специалиста по телефону: ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ 📞8-903-341-01-06 ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ​ ✅ WHATSAPP или✅ Tel­egram Техническая информац­ия строительных огра­ждений Назначение: для стр­оительной площадки, Габаритные размеры, мм: в зависимости от вида строительных ограждений Тип ограждения: инве­нтарное строительное мобильное Просвет от земли, мм: от 120 Материал изготовлени­я: профильная труба 20*20 мм, сетка 100*­100*3 мм Тип покрытия: серая грунтовка ( по требо­ваниям ГАТИ ) 🚷🚷🚷 Временное строитель­ное ограждение – это конструкция, примен­яемая на территории заказчика, чтобы огр­адить определенную площадь участка или ограничить доступ люд­ей. Ограждения служат барьером, препятст­вующим проникновению на опасные и закрыт­ые зоны объекты Звоните по любым воп­росам 24/7🕛 ☎+79033410106(WhatsApp или Telegr­am)
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