WA強力型スラリーポンプ
強力スラリーポンプとは何ですか?
WA シリーズの高耐久スラリー ポンプは片持ち梁式、水平、天然ゴムまたは硬質金属でライニングされています。 遠心スラリーポンプ。これらは、冶金、鉱業、石炭、電力、建材、その他の産業部門で研磨性の高い高密度スラリーを処理できるように設計されています。
強力ポンプ仕様
サイズ: 1インチ~22インチ
能力: 3.6-5400 m3/h
水深:6~125m
ハンドリング固体: 0-130mm
濃度: 0%-70%
材質:ハイパークロム合金、 ゴム、ポリウレタン、 セラミック、ステンレスなど
AIER® WA Heavy Duty Slurry Pump
スラリーポンプの特長
1. WA シリーズ ポンプのフレーム プレートには、交換可能な硬質金属または圧力成形エラストマー ライナーが付いています。インペラは超硬合金または圧力成形されたエラストマーライナーで作られています。
2. WAシリーズの軸封はパッキンシール、遠心シール、メカニカルシールが可能です。
3. 吐出分岐は、ご要望に応じて 45 度間隔で配置でき、設置や用途に合わせて 8 つの位置に方向付けることができます。オプションとして、Vベルト、フレキシブルカップリング、ギアボックス、油圧カプラ可変周波数、シリコン制御速度など、多くの駆動モードが用意されています。その中でも、フレキシブルシャフトカップリング駆動とVベルトは、低コストで取り付けが簡単なことが特徴です。
4. In harsh conditions with sand, sludge, rocks and mud, ordinary slurry pumps tend to clog, wear and fail frequently.. But our heavy-duty slurry pumps are highly resistant to wear and corrosion, which means that the 当社のスラリーポンプの耐用年数 他のメーカーのポンプより優れています。
ヘビーデューティポンプの典型的な用途
当社の WA ヘビーデューティ スラリー ポンプは耐摩耗性と耐腐食性に優れているため、幅広い用途で使用されています。
1. SAGミル排出、ボールミル排出、ロッドミル排出。
2. ニッケル酸スラリー、粗い砂、粗い尾鉱、リン酸塩マトリックス、鉱物濃縮物。
3. 重質培地、テンサイ、浚渫、底灰/フライアッシュ、石灰粉砕、オイルサンド、ミネラルサンド、細鉱滓、スラグ造粒、リン酸、石炭、浮遊選鉱、プロセスケミカル、紙パルプ、FGD、サイクロンフィードなど。
パンプス表記
| 200WA-ST: | 100WAJ-D: |
| 200:出口径:mm | 100:出口径:mm |
| WA: ポンプの種類: クロム合金ライニング | WAJ: ポンプの種類: ゴムライニング |
| ST:フレームプレートタイプ | D:フレームプレートタイプ |
ポンプの問題を解決する方法を学ぶには、 お問い合わせ today! We are the slurry pump manufacturer that can help you solve your problems.
建設設計
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ケーシング 鋳鉄またはダクタイル鋳鉄の分割ケーシング半分には摩耗ライナーが含まれており、高い作動圧力能力を提供します。
交換可能な超硬合金ライナーと成形エラストマーライナー |
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インペラ インペラは、成形されたエラストマーまたは超硬合金のいずれかでありえます。深いサイドのシールベーンがシール圧力を軽減し、再循環を最小限に抑えます。 鋳造インペラねじはスラリーに適しています。 |
Mating faces in hard metal liners are tapered to allow positive alignment during assembly and allow components to be easily removed for replacement.
ポンプ部材質
| 部品名 | 材料 | 仕様 | HRC | 応用 | OEM コード |
| ライナーとインペラ | 金属 | AB27: 23%-30% クロム白鉄 | ≥56 | pH 5 ~ 12 のより高い摩耗状態に使用されます。 | A05 |
| AB15: 14%-18% クロム白鉄 | ≥59 | より高い摩耗状態に使用されます | A07 | ||
| AB29: 27%-29% クロム白鉄 | 43 | 特に FGD の低 pH 条件に使用されます。また、pH 4 以上の低酸性条件および脱硫設備にも使用できます。 | A49 | ||
| AB33: 33%-37% クロム白鉄 | リン石膏、硝酸、硝酸、リン酸塩などのpH1以上の酸化スラリーを輸送できます。 | A33 | |||
| ゴム | R08 | ||||
| R26 | |||||
| R33 | |||||
| R55 | |||||
| エクスペラ&エクスペラリング | 金属 | B27: 23%-30% クロム白鉄 | ≥56 | pH 5 ~ 12 のより高い摩耗状態に使用されます。 | A05 |
| ねずみ鋳鉄 | G01 | ||||
| スタッフィングボックス | 金属 | AB27: 23%-30% クロム白鉄 | ≥56 | pH 5 ~ 12 のより高い摩耗状態に使用されます。 | A05 |
| ねずみ鋳鉄 | G01 | ||||
| フレーム/カバープレート、ベアリングハウス、ベース | 金属 | ねずみ鋳鉄 | G01 | ||
| ダクタイル鋳鉄 | D21 | ||||
| 軸 | 金属 | 炭素鋼 | E05 | ||
| シャフトスリーブ、ランタンリング/リストリクター、ネックリング、グランドボルト | ステンレス鋼 | 4Cr13 | C21 | ||
| 304SS | C22 | ||||
| 316SS | C23 | ||||
| ジョイントリング&シール | ゴム | ブチル | S21 | ||
| EPDMゴム | S01 | ||||
| ニトリル | S10 | ||||
| ハイパロン | S31 | ||||
| ネオプレン | S44/S42 | ||||
| バイトン | S50 |
伝送モジュールの設計
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大径ポンプシャフト、円筒形 オイル潤滑またはグリース潤滑を使用する重荷重、メトリックベアリングの構築。連続的にオープンされ、少量で高信頼性の構造が特徴です。 |
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シャフトベアリングアセンブリ オーバーハングの短い大径シャフトにより、たわみや振動を最小限に抑えます。 耐久性の高いローラーベアリングは、取り外し可能なベアリングカートリッジに収納されています。 ポンプベース 最小限のボルトでポンプをベースに固定し、ベアリング ハウジングの下の使いやすい位置にインペラを調整します。 防水カバーにより漏水の飛散を防ぎます。 保護カバーにより軸受ブラケットからの漏水を防ぎます。
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シャフトシールモジュールの設計
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1.梱包箱 2. フロントランタンリング 3. 梱包 4.パッキングランド 5. シャフトスリーブ |
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1.リリースグランド 2.エクスペラー 3. 梱包 4.パッキンガスケット 5. ランタンリング 6. パッキンググランド 7. オイルカップ |
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GRJメカニカルシール GRGタイプは希釈が許されない液体に使用します。 HRJメカニカルシール HRJタイプは液体可希釈用です。 摩擦部の材質には高硬度セラミックとその合金を採用。高い耐摩耗性と耐振れ性を備え、さまざまな条件下でお客様が満足できるシール効果を保証します。
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パフォーマンスカーブ
設置寸法
スラリーポンプインペラの選定
Slurry pump impeller is one of the most important parts of centrifugal slurry pumps. Depending on the application, slurry pump impeller selection is crucial to slurry pump performance. Slurry applications can be especially hard on the impeller of slurry pumps because of their abrasive nature. In order slurry pumps operates efficiently and stand up to the test of time, impeller has to be selected properly for slurry pumps.
1. スラリーポンプ羽根車タイプ
スラリー ポンプ インペラには 3 つの異なるタイプがあります。オープン、クローズ、セミオープン。アプリケーションに応じて、それぞれに独自の長所と短所があります。固体の取り扱いに適したものや、高効率に適したものもあります。
Any type of impeller can be used in slurry applications, but closed slurry pump impellers are more common because they are high efficient and abrasion Resistance,. Open slurry pump impellers are usually used well for high concentration solids as they are less likely to clog. For example, the small fibers in paper stock which, in high densities, may have a tendency to clog the impeller. Pumping slurry can be difficult.
2. スラリーポンプのインペラサイズ
The size of slurry pump impeller must be considered to ensure it holds up against abrasive wear. Slurry pump impellers are generally larger in size when compared to slurry pumps for less abrasive liquids. The more “meat” the impeller has, the better it will hold up to the task of pumping harsh slurry mixtures. Just think of slurry pump impeller as a football team’s offensive line. These players are usually large and slow. Throughout the whole game they are beaten up, over and over again, but expected to withstand the abuse. You wouldn’t want small players in this position, just like you wouldn’t want a small impeller on your slurry pumps.
3. スラリーポンプ速度
Process speed doesn’t have anything to do with choosing slurry pump impeller, but it does have an effect on the life of slurry pump impeller. It is important to find the sweet spot that allows the slurry pump to run as slow as possible, but fast enough to keep solids from settling and clogging. If pumping too fast, the slurry can quickly erode the impeller due to its abrasive nature. This is why it is important to select a larger impeller if possible.
When dealing with slurry, you generally want to go bigger and slower. The thicker the impeller, the better it will hold up. The slower the pump, the less erosion will inflict on the impeller. However, the impeller isn’t the only thing to worry in slurry pump when dealing with slurry. Tough, durable materials of construction are necessary most of the time. Metal slurry pump liners and wear plates are common in slurry applications.
スラリーポンプの設置
横型スラリーポンプの設置
The mounting and installation of horizontal slurry pumps are generally subject to a number of considerations, including floor space, overhead space for lifting and the likelihood of flooding from spills. Pumps in critical services are often paired in duty/standby mode so that maintenance can be carried out on one pump while the other is running.
Large slurry pumps with high-energy motors - and perhaps with speed reduction gearboxes - would generally be mounted with the shaft axes in the same horizontal plane for ease of maintenance access.
A slurry pump with a belt drive may have the motor mounted beside it if there is sufficient floor space. However, if floor space is limited or there is a risk of flooding, the motor can be mounted above it either directly overhead (also known as “C drive”) or to its rear (reverse overhead mounting or “Z drive”).
Vertical Slurry Pump Installation
Vertical cantilever shaft sump pumps should be selected so that the suction inlet is close to the sump floor. If shaft length is limited by the required running speed and power to be transmitted, a suction pipe (generally two meters long) may be fitted to the suction branch to ensure the sump can be emptied.
Understanding Heavy Duty Slurry Pumps and Their Industrial Applications
A heavy duty slurry pump is a specialized pumping solution designed to handle highly abrasive and dense slurries in demanding industrial applications. Unlike standard pumps, these heavy-duty units are engineered to provide durability, high efficiency, and long operational life in challenging conditions. The structural design of a heavy duty slurry pump includes robust casings, wear-resistant impellers, and reinforced shafts that allow it to manage slurries containing coarse particles, sand, gravel, and mineral residues without excessive wear.
The industrial slurry pump is widely used across multiple sectors, including mining, coal preparation, metallurgical processing, and chemical industries. In mining operations, it efficiently transports slurry from excavation sites to processing facilities, managing high particle loads without compromising flow rates. In coal washing and processing plants, heavy duty slurry pumps handle thick mixtures of coal and water, maintaining continuous operation under severe abrasion conditions.
Metallurgical plants benefit from heavy duty slurry pumps by moving corrosive and abrasive process fluids such as tailings, smelting residues, and acidic solutions. The pump’s materials, typically high-chrome alloys or specialized metals, provide excellent wear resistance and corrosion protection. This ensures consistent operation and reduces downtime, which is crucial for industrial processes with tight production schedules.
A reliable slurry pump supplier will offer pumps with modular designs, allowing for easy replacement of wear parts like impellers and liners. This minimizes maintenance costs and downtime, enhancing productivity in demanding industrial environments. Furthermore, many industrial slurry pumps come in different configurations, including horizontal, vertical, and high-capacity models, enabling customization for specific applications.
In addition to industrial use, heavy duty slurry pumps are critical in water treatment and dredging operations where solid-laden fluids need to be transported efficiently. Their robust construction, combined with advanced hydraulic design, allows them to handle large flow volumes and high concentrations of solids, ensuring reliable performance across all applications.
In summary, a heavy duty slurry pump is a durable, efficient, and versatile solution for handling abrasive and corrosive slurries in various industrial sectors. Partnering with a professional slurry pump supplier ensures access to high-quality pumps that meet operational demands and provide long-term reliability.
Key Advantages of Heavy Duty Slurry Pumps in Abrasive Environments
Heavy duty slurry pumps are specifically designed to withstand the challenges posed by abrasive and corrosive industrial fluids. Their key advantage lies in their ability to operate efficiently under extreme wear conditions while maintaining high flow and pressure. Unlike standard pumps, heavy duty models use wear-resistant materials such as high-chrome iron or stainless steel alloys, which dramatically reduce the effects of erosion from solid particles in slurries.
In highly abrasive environments, such as mining and mineral processing, these pumps can handle slurries with high solids content and large particle sizes. This ensures consistent flow rates without frequent repairs or maintenance shutdowns. Choosing a heavy duty slurry pump from a reputable slurry pump supplier guarantees enhanced durability and reliability in these challenging conditions.
Another advantage is the robust structural design. Industrial slurry pumps are reinforced with thick casings, optimized impeller geometry, and heavy-duty shafts that resist bending and wear. This allows for continuous operation in industrial environments with abrasive fluids, reducing downtime and maintenance costs. Additionally, many pumps are designed with modular components, enabling easy replacement of worn parts such as liners and impellers, which extends the pump’s operational lifespan.
The adaptability of heavy duty slurry pumps also sets them apart. They are available in horizontal and vertical configurations and can be customized for specific flow rates, head requirements, and slurry characteristics. This flexibility makes them suitable for a wide range of applications, from transporting tailings in mining operations to moving chemical slurries in metallurgical plants.
Energy efficiency is another significant advantage. The optimized hydraulic design of these pumps ensures high efficiency even under abrasive conditions, reducing power consumption and operational costs. Industrial facilities that rely on industrial slurry pumps can achieve long-term savings while maintaining reliable performance.
In conclusion, heavy duty slurry pumps offer unmatched durability, wear resistance, and operational efficiency in abrasive environments. By sourcing from a qualified slurry pump supplier, industries can ensure reliable performance, reduced maintenance, and cost-effective operation over extended periods.
Comparing Heavy Duty Slurry Pumps vs Standard Slurry Pumps
When selecting a pump for industrial slurry applications, understanding the differences between heavy duty slurry pumps and standard slurry pumps is essential. Heavy duty pumps are engineered for extreme conditions, whereas standard pumps are suitable for less abrasive and lower solids concentration environments.
A heavy duty slurry pump typically features reinforced casings, high-strength shafts, and wear-resistant impellers made from high-chrome alloys or stainless steel. In contrast, standard slurry pumps often use less durable materials that are prone to rapid erosion when handling abrasive slurries. This material difference directly impacts the lifespan and reliability of the pump in demanding applications.
Another critical difference is the capacity to handle high solids content. Heavy duty pumps can transport slurries containing large particles, high concentrations of solids, and abrasive mixtures, making them ideal for mining, mineral processing, and coal preparation. Standard pumps are limited in this regard and may experience frequent clogging or wear if used beyond their specifications.
Maintenance requirements also vary. A heavy duty slurry pump is designed for modular replacement of wear components such as liners, impellers, and bearings, which reduces downtime and simplifies servicing. Standard pumps may require more frequent overhauls or complete replacements, increasing operational costs and reducing productivity. Partnering with a professional slurry pump supplier ensures access to high-quality heavy duty pumps and replacement parts, optimizing long-term performance.
Finally, heavy duty pumps are often optimized for higher flow rates and pressures, allowing them to handle more demanding industrial processes efficiently. Standard pumps, while sufficient for lighter applications, may struggle under extended operation in high-load environments.
