Valves weight chart in kg, mm, PDF delivers essential specifications for critical industrial operations. Professional engineers and purchasing managers rely on comprehensive weight data covering gate valves, ball valves, globe valves, and butterfly valves to optimize logistics planning, structural support calculations, and cost-effective procurement decisions.
Comprehensive Weight Specifications for Industrial Valves - Complete Reference Guide
Detailed Weight Chart for Industrial Valves - Technical Specifications Database
Valve Type | Size (DN/mm) | Material | Weight (kg) | Flange Rating | End Connection | Actuator Weight (kg) | Total Weight (kg) | Application Category |
Gate Valve | 15 | Carbon Steel | 2.5 | PN16 | Flanged | 0.8 | 3.3 | Light Industrial |
Gate Valve | 20 | Carbon Steel | 3.2 | PN16 | Flanged | 0.8 | 4.0 | Process Control |
Gate Valve | 25 | Carbon Steel | 4.2 | PN16 | Flanged | 1.2 | 5.4 | Chemical Processing |
Gate Valve | 32 | Carbon Steel | 5.8 | PN16 | Flanged | 1.2 | 7.0 | Water Treatment |
Gate Valve | 40 | Carbon Steel | 6.9 | PN16 | Flanged | 1.5 | 8.4 | Municipal Systems |
Gate Valve | 50 | Carbon Steel | 8.7 | PN16 | Flanged | 1.8 | 10.5 | Chemical Processing |
Gate Valve | 65 | Carbon Steel | 11.4 | PN25 | Flanged | 2.3 | 13.7 | Industrial Process |
Gate Valve | 80 | Carbon Steel | 15.3 | PN25 | Flanged | 2.8 | 18.1 | Oil & Gas |
Gate Valve | 100 | Carbon Steel | 22.8 | PN25 | Flanged | 3.5 | 26.3 | Power Generation |
Gate Valve | 125 | Carbon Steel | 32.1 | PN40 | Flanged | 4.2 | 36.3 | Petrochemical |
Gate Valve | 150 | Carbon Steel | 45.6 | PN40 | Flanged | 5.8 | 51.4 | Heavy Industrial |
Gate Valve | 200 | Carbon Steel | 78.2 | PN40 | Flanged | 8.5 | 86.7 | Pipeline Systems |
Gate Valve | 250 | Carbon Steel | 125.4 | PN63 | Flanged | 12.3 | 137.7 | Major Infrastructure |
Ball Valve | 15 | Stainless Steel | 1.8 | PN40 | Threaded | 0.5 | 2.3 | Food Processing |
Ball Valve | 20 | Stainless Steel | 2.4 | PN40 | Threaded | 0.5 | 2.9 | Pharmaceutical |
Ball Valve | 25 | Stainless Steel | 3.1 | PN40 | Flanged | 0.8 | 3.9 | Dairy Industry |
Ball Valve | 32 | Stainless Steel | 4.2 | PN63 | Flanged | 1.0 | 5.2 | Chemical Plants |
Ball Valve | 40 | Stainless Steel | 5.1 | PN63 | Flanged | 1.2 | 6.3 | Marine Applications |
Ball Valve | 50 | Stainless Steel | 6.9 | PN63 | Flanged | 1.5 | 8.4 | High Purity Systems |
Ball Valve | 65 | Stainless Steel | 9.2 | PN63 | Flanged | 2.0 | 11.2 | Process Industries |
Ball Valve | 80 | Stainless Steel | 12.4 | PN63 | Flanged | 2.5 | 14.9 | Chemical Plants |
Ball Valve | 100 | Stainless Steel | 18.7 | PN100 | Flanged | 3.2 | 21.9 | High Pressure Systems |
Ball Valve | 125 | Stainless Steel | 26.8 | PN100 | Flanged | 4.1 | 30.9 | Critical Applications |
Ball Valve | 150 | Stainless Steel | 35.2 | PN100 | Flanged | 5.5 | 40.7 | Aerospace Industry |
Globe Valve | 15 | Cast Iron | 3.2 | PN16 | Threaded | 0.6 | 3.8 | HVAC Systems |
Globe Valve | 20 | Cast Iron | 4.1 | PN16 | Threaded | 0.6 | 4.7 | Building Services |
Globe Valve | 25 | Cast Iron | 5.8 | PN16 | Flanged | 1.0 | 6.8 | HVAC Systems |
Globe Valve | 32 | Cast Iron | 7.2 | PN16 | Flanged | 1.2 | 8.4 | Water Distribution |
Globe Valve | 40 | Cast Iron | 8.9 | PN16 | Flanged | 1.4 | 10.3 | Cooling Systems |
Globe Valve | 50 | Cast Iron | 11.5 | PN16 | Flanged | 1.8 | 13.3 | Water Treatment |
Globe Valve | 65 | Cast Iron | 15.2 | PN25 | Flanged | 2.2 | 17.4 | Steam Systems |
Globe Valve | 80 | Cast Iron | 19.8 | PN25 | Flanged | 2.8 | 22.6 | Municipal Water |
Globe Valve | 100 | Cast Iron | 28.3 | PN25 | Flanged | 3.5 | 31.8 | Building Services |
Globe Valve | 125 | Cast Iron | 38.7 | PN40 | Flanged | 4.2 | 42.9 | Industrial Steam |
Butterfly Valve | 50 | Ductile Iron | 6.8 | PN16 | Wafer | 2.1 | 8.9 | Water Systems |
Butterfly Valve | 65 | Ductile Iron | 8.4 | PN16 | Wafer | 2.5 | 10.9 | HVAC Applications |
Butterfly Valve | 80 | Ductile Iron | 10.7 | PN16 | Wafer | 3.2 | 13.9 | Fire Protection |
Butterfly Valve | 100 | Ductile Iron | 14.2 | PN16 | Wafer | 4.1 | 18.3 | Water Distribution |
Butterfly Valve | 125 | Ductile Iron | 18.5 | PN16 | Lug | 5.2 | 23.7 | Irrigation Systems |
Butterfly Valve | 150 | Ductile Iron | 21.7 | PN16 | Lug | 6.8 | 28.5 | Irrigation Systems |
Butterfly Valve | 200 | Ductile Iron | 32.4 | PN25 | Lug | 9.5 | 41.9 | Large Bore Applications |
Butterfly Valve | 250 | Ductile Iron | 45.8 | PN25 | Lug | 12.8 | 58.6 | Water Treatment Plants |
Butterfly Valve | 300 | Ductile Iron | 58.9 | PN25 | Lug | 16.2 | 75.1 | Industrial Cooling |
Butterfly Valve | 350 | Ductile Iron | 74.3 | PN40 | Flanged | 20.1 | 94.4 | Power Generation |
Butterfly Valve | 400 | Ductile Iron | 89.6 | PN40 | Flanged | 24.8 | 114.4 | Major Infrastructure |
Premium Material Specifications and Advanced B2B Portal Integration
Material composition significantly impacts valve weight calculations, with carbon steel valves typically weighing 15-20% more than equivalent stainless steel models, while cast iron construction reduces weight by approximately 10-15% compared to forged steel alternatives. Advanced B2B portal systems enable efficient valve procurement through integrated weight databases and specification filtering capabilities, allowing purchasing professionals to compare multiple valve options simultaneously while considering weight implications for transportation costs and project logistics. Construction teams rely on precise valve weight specifications to select appropriate lifting equipment and develop safe installation procedures, where crane capacity planning, rigging specifications, and support structure requirements depend heavily on accurate weight data provided in comprehensive valve charts.
Modern valve procurement increasingly relies on digital documentation systems that provide instant access to weight charts, technical drawings, and performance data through cloud-based platforms that facilitate collaboration between engineering teams, procurement specialists, and suppliers throughout project lifecycles. Advanced logistics platforms, including pipex.ai, integrate weight calculations with route optimization algorithms to minimize transportation expenses while ensuring timely delivery schedules. Industrial valve manufacturers maintain strict weight tolerances typically within ±5% of published specifications through quality control procedures, while sophisticated valve selection software incorporates weight considerations alongside performance parameters to recommend optimal valve solutions. Professional engineers and project managers benefit from detailed valve weight specifications for accurate structural calculations, transportation planning, and installation scheduling, enabling streamlined procurement processes, reduced project timelines, and enhanced operational efficiency for industrial facilities, power plants, chemical processing facilities, and water treatment systems.