Шламовый насос с высоким напором WG

Введение в насос

ТЕХНИЧЕСКИЕ ХАРАКТЕРИСТИКИ:

Размер: 65-300 мм
Производительность: 37-1919м3/ч
Голова: 5-94м
Передача твердых тел: 0-90 мм
Концентрация: Макс.70%
Макс.давление:Макс.4,5 МПа
Материалы: сплав гиперхрома и т. д.

AIER® WG High Efficiency Slurry Pump

In order to meet the requirements on the development of the electric power, metallurgy and coal industries, our company has designed and developed WG(P) Series up-to-date general slurry pump with large capacity, high head, multi-stages in series to remove ash & sludge and to deliver liquid-solids mixture, based on the experience of slurry pump design and manufacture for many years, and abstracting the research results of advanced technology from home and abroad.

Функции

Современный дизайн CAD, супергидравлические характеристики, высокая эффективность и более низкая скорость истирания;

Широкий проход, незасоряемость и хорошие характеристики NPSH;

Уплотнение экспеллера в сочетании с уплотнением набивки и механическим уплотнением используется для предотвращения утечки суспензии;

Конструкция надежности обеспечивает длительное время безотказной работы (среднее время между событиями);

Метрический подшипник с масляной смазкой, разумные системы смазки и охлаждения обеспечивают работу подшипника при низких температурах;

Материалы влажных деталей обладают хорошими противоизносными и антикоррозийными свойствами;

Насос можно использовать для удаления золы из морской воды, чтобы предотвратить коррозию морской воды, соли и тумана, а также электрохимическую коррозию;

Насос может работать последовательно с многоступенчатым насосом в пределах допустимого давления.

Преимуществами насоса являются разумная конструкция, высокая эффективность, надежная работа и простота обслуживания. Его можно широко использовать для обработки смесей, содержащих абразивные и агрессивные твердые вещества, в электроэнергетике, металлургии, шахтах, угольной промышленности, строительных материалах и химической промышленности, особенно для удаления золы и шлама на электростанциях.

Обозначение насоса

100WG(P):

100: Диаметр выхода (мм)

WG: Шламовый насос с высоким напором

П: Многоступенчатые насосы (1-2 ступень без маркировки)

Шламовый насос WG представляет собой горизонтальный, одноступенчатый, консольный, с двойным корпусом, центробежный шламовый насос с одним всасыванием. Насос вращается по часовой стрелке, если смотреть со стороны привода.

Мокрая часть насосов WG и WGP при одинаковом диаметре выпускного отверстия может быть взаимозаменяемой. Их габаритные установочные размеры также одинаковы. В качестве приводной части шламового насоса WG(P) использована горизонтальная разъемная рама с масляной смазкой и двумя комплектами систем водяного охлаждения внутри и снаружи. При необходимости возможна подача охлаждающей воды. Подготовленное соединение для охлаждающей воды и давление охлаждающей воды можно увидеть в таблице 1.

Two kinds of shaft seal – expeller seal combined with packing and mechanical seal.

Механическое уплотнение, подаваемое затворной водой под высоким давлением, рекомендуется при последовательной эксплуатации насоса, а уплотнение экспеллера в сочетании с набивкой используется в одноступенчатом насосе.

Давление воды и количество всех видов уплотнений вала следующие:

1) Давление уплотняющей воды

Для одноступенчатого насоса с экспеллерным уплотнением, совмещенным с набивкой, давление воды уплотнения вала составляет 0,2-0,3 МПа.

Для многоступенчатой ​​последовательной работы с уплотнением экспеллера в сочетании с сальниковым уплотнением давление затворной воды должно составлять: Наименьшее давление затворной воды n-й ступени = Hi + 0.7Hn Where: n ≥2.

Для механического уплотнения давление затворной воды каждой ступени насоса на 0,1 МПа выше, чем давление на выходе насоса.

2) Давление затворной воды (см. таблицу 1)

Таблица 1: Параметры затворной воды

Строительный Проект

Материал детали насоса

Кривая производительности

Установочные размеры

The Role of High Head Slurry Pumps in Long-Distance Slurry Transport Systems 

A high head slurry pump plays a pivotal role in transporting abrasive and dense slurries over long distances and significant vertical heights. Unlike standard industrial slurry pumps, high head pumps are specifically engineered to provide the increased pressure necessary for long pipeline systems, ensuring the efficient and consistent movement of solids-laden fluids.

In industries such as mining, mineral processing, coal preparation, and dredging, materials often need to be transported through extended pipelines, sometimes spanning hundreds of meters. The combination of high solids content, abrasive particles, and long transport distances makes conventional pumps unsuitable, as they may fail under high head conditions or suffer from excessive wear. A high head slurry pump addresses these challenges by delivering reliable performance while maintaining operational efficiency.

The design of a high head slurry pump emphasizes durability and resistance to wear. Casings and impellers are often made of high-chrome alloys or wear-resistant metals, allowing the pump to handle abrasive slurries with minimal erosion. Many slurry pump manufacturers also offer customizable options, such as modular impellers and liners, enabling easy maintenance and replacement, thereby reducing downtime and maintenance costs.

Additionally, high head slurry pumps are engineered for optimal hydraulic performance. Their impeller and volute designs minimize energy loss, allowing slurries to be transported at higher pressures without overloading the motor or increasing operational costs. This energy-efficient design is particularly important in industrial settings, where large volumes of slurry must be moved continuously over extended distances.

Applications of high head slurry pumps include tailings disposal, long-distance slurry transport from mines to processing plants, and chemical slurry movement in metallurgical operations. Their ability to sustain high pressures and manage abrasive fluids reliably makes them a critical component in industrial processes.

In conclusion, a high head slurry pump is essential for long-distance slurry transport systems, offering high pressure, durability, and efficiency. Selecting a reliable slurry pump manufacturer ensures that your plant receives a customized, high-performance solution tailored to demanding industrial applications.

How High Head Slurry Pumps Improve Efficiency in Mining and Processing Plants 

Mining and mineral processing plants require robust equipment capable of handling abrasive slurries with high solids content. A high head slurry pump is integral in these facilities, enhancing efficiency, reducing energy consumption, and minimizing maintenance needs. By delivering high pressure and flow over long distances, these pumps streamline material handling and improve overall plant productivity.

In mining operations, tailings and ore slurries often need to be transported from extraction sites to processing plants or storage areas. A high head slurry pump is specifically designed to handle this workload, maintaining consistent flow rates even with challenging slurry compositions. This ensures that production lines run smoothly without bottlenecks or downtime caused by pump failure.

The efficiency of a high head slurry pump also translates to energy savings. Advanced impeller designs and optimized hydraulic profiles reduce friction losses and pump energy requirements. Many industrial slurry pumps from reputable slurry pump manufacturers are designed with high efficiency in mind, allowing plants to lower operational costs while maintaining the required throughput.

Maintenance is another area where high head slurry pumps provide advantages. These pumps are constructed with wear-resistant materials such as high-chrome alloys or alloy steels, minimizing erosion from abrasive particles. Replaceable liners and impellers allow maintenance teams to perform targeted repairs without dismantling the entire pump system, reducing downtime and labor costs.
Furthermore, these pumps are available in various configurations, including horizontal and vertical designs, enabling flexible installation in confined or challenging spaces. The modular construction also supports scalability, allowing mining and processing plants to adjust pump capacity as operational needs evolve.

In summary, using a high head slurry pump in mining and processing plants improves slurry transport efficiency, reduces energy consumption, and minimizes maintenance costs. Partnering with a reliable slurry pump manufacturer ensures access to high-quality, durable pumps capable of withstanding abrasive industrial conditions while delivering long-term performance.

Material Selection for High Head Slurry Pumps: Metal vs Alloy 

Selecting the appropriate material for a high head slurry pump is crucial to maximize performance, wear resistance, and operational lifespan. Industrial applications often involve abrasive and corrosive slurries, which can quickly erode or damage pumps made from unsuitable materials. Choosing between metal and alloy construction depends on the specific process requirements and the slurry’s characteristics.

Traditional metal slurry pumps are typically made of ductile iron or stainless steel, offering robust structural strength and corrosion resistance. These materials are suitable for moderate abrasiveness and provide reliable long-term service. However, in highly abrasive conditions, such as those found in mining or mineral processing, standard metals may wear quickly, leading to reduced efficiency and increased maintenance costs.

Alloy construction, especially high-chrome or nickel-chrome alloys, offers superior wear resistance and hardness, making them ideal for heavy-duty industrial slurry transport. A high head slurry pump made from these materials can handle slurries with high solids concentrations and large particle sizes without rapid erosion. The enhanced durability ensures continuous operation with minimal downtime, which is essential for high-capacity industrial processes.

Many slurry pump manufacturers offer modular designs that allow clients to choose between metal or alloy liners and impellers based on operational needs. This flexibility enables plants to optimize pump longevity and reduce maintenance frequency. Additionally, alloy materials can improve hydraulic performance by maintaining smooth surfaces within the pump, reducing energy losses and improving overall efficiency.

The selection of materials also impacts cost-effectiveness. While alloy pumps may have higher initial investment costs compared to standard metals, their extended service life and reduced maintenance requirements often result in lower total operational costs over time. Industrial facilities that prioritize reliability and efficiency benefit significantly from investing in high-quality alloy high head slurry pumps.

In conclusion, material selection for a high head slurry pump plays a decisive role in durability, efficiency, and cost-effectiveness. Whether using metal or alloy construction, choosing a reliable slurry pump manufacturer ensures that the pump is tailored to handle demanding industrial slurries while providing long-term operational performance.