SKID MOUNTED PUMPS AND STEAM TURBINES

Rotary Machines Pvt Ltd (RMPL) is an integrator and distributor of API and NON-API Pumps delivering complete skid mounted solutions to customers in India, USA, Canada and Mexico. RMPL offers complete integrated solutions with pumps, motors, compressors and terbines.

Metallic Gasket Manufacturers in India: Excellence in Precision and Durability

India's industrial growth has seen significant advancements over the past few decades, leading to a surge in demand for high-quality components across various sectors. Among these critical components, gaskets play an essential role in ensuring leak-proof and reliable sealing solutions, particularly in high-temperature and high-pressure applications. Metallic gaskets, renowned for their durability, temperature resistance, and robust performance, are now pivotal in industries such as automotive, oil and gas, petrochemical, and power generation.

In this context, metallic gasket manufacturers in India have emerged as key players in delivering solutions that meet global standards.The Importance of Metallic GasketsA gasket is a mechanical seal that fills the space between two or more mating surfaces, preventing leakage when under compression. Unlike non-metallic gaskets, metallic gaskets are designed to withstand extreme conditions due to their composition, which often includes materials like stainless steel, copper, and other metal alloys. The need for these high-performance gaskets has pushed metallic gasket manufacturers in India to innovate and meet the stringent requirements of various applications

.Technological Advancements Driving Growth

The past few years have witnessed significant technological advancements among metallic gasket manufacturers in India. Companies have invested heavily in modern production techniques, such as CNC machining, laser cutting, and advanced welding processes. These state-of-the-art technologies ensure that the gaskets produced are of the highest quality, conforming to international standards like ASME and API. Moreover, manufacturers have been focusing on research and development to create custom solutions tailored to specific customer needs. This customization helps industries tackle unique challenges related to high-pressure sealing, corrosive environments, and extreme thermal cycles

.Key Sectors Benefiting from Metallic Gaskets

The automotive industry is one of the major beneficiaries of high-quality gaskets, relying on metallic gasket manufacturers in India for parts that support engine assemblies, exhaust systems, and turbochargers. The reliability and performance of these gaskets are crucial for vehicles operating under varying temperatures and pressures, ensuring safety and efficiency.The oil and gas sector also depends heavily on the expertise of metallic gasket manufacturers in India for solutions that can endure harsh conditions and high pressures found in pipelines and refineries. Similarly, power plants, especially those that use steam turbines, require gaskets that maintain integrity under intense heat and pressure. India's leading manufacturers have stepped up to these challenges by producing gaskets that not only meet domestic demands but also find markets overseas

.Challenges and Solutions

The competitive landscape for metallic gasket manufacturers in India does come with its set of challenges. The sector faces issues related to raw material procurement, maintaining quality control, and ensuring sustainability. To combat these challenges, many manufacturers are adopting eco-friendly practices, such as recycling metal scraps and minimizing energy consumption during production.Additionally, certification and compliance have become non-negotiable, with companies adopting ISO 9001 and ISO 14001 standards to remain credible and attract both domestic and international clients. The move towards sustainable manufacturing is gaining traction, ensuring that metallic gasket manufacturers in India are not only competitive but also environmentally conscious.

The Future Outlook

The future of metallic gasket manufacturers in India looks promising, driven by continuous industrial growth and the expansion of sectors like renewable energy and advanced automotive manufacturing. As global markets look to diversify their supply chains, India stands as an attractive option due to its competitive pricing, skilled workforce, and adherence to international quality standards

.In conclusion, the metallic gasket manufacturers in India have positioned themselves as essential contributors to the industrial ecosystem. With investments in technology, a commitment to quality, and a focus on sustainability, these manufacturers are set to capture greater market share and play a pivotal role in the global supply chain.

Inconel 625 Flanges Manufacturers in India

Introduction

Inconel 625, a nickel-based superalloy, is renowned for its exceptional strength, corrosion resistance, and ability to withstand high temperatures. Flanges made from Inconel 625 are critical components in various industries where performance and reliability are paramount. This blog explores the unique attributes, specifications, applications, and industry implications of Inconel 625 flanges, with a focus on the offerings of Sankalp Alloys Overseas.

Product Overview

Inconel (nickel-chromium-molybdenum alloy) 625 flanges are utilized in environments where ordinary stainless steels and other materials would fail. Their robustness and resistance to oxidation and carburization make them suitable for the harshest conditions. Sankalp Alloys Overseas provides a comprehensive range of Inconel 625 flanges, ensuring high-quality standards and catering to diverse industry needs.

Specifications

Dimensions: ANSI B16.5, ANSI B16.47 Series A & B, MSS SP44, ASA, API-605, AWWA, Custom Drawings

Standards: ASTM, ASME Flanges, ANSI Flanges, DIN Flanges, EN Flanges, BS Flanges etc.

Specifications: ASTM B564 / ASME SB 564

Size: 1 / 2” to 36″

Class: 150#, 300#, 600#, 900#, 1500#, 2500#, PN6, PN10, PN16, PN25, PN40, PN64 etc.

Grade: Inconel 625 – UNS N06625

Applications

Inconel 625 flanges are employed in various applications due to their excellent mechanical properties and resistance to extreme environments:

Aerospace: Jet engines, exhaust systems, and turbine seals.

Marine: Seawater equipment, underwater applications, and submersibles.

Chemical Processing: Acid production, chemical reactors, and mixing tanks.

Oil and Gas: Offshore drilling, riser systems, and heat exchangers.

Power Generation: Nuclear reactors, steam generators, and turbine blades.

Implications on Industries

1. Enhanced Performance:

Aerospace: Ensures reliability and safety in high-stress environments.

Marine: Provides longevity and durability in corrosive seawater conditions.

Chemical Processing: Withstands aggressive chemicals, reducing maintenance costs.

2. Cost Efficiency:

Oil and Gas: Minimizes downtime and replacement frequency, enhancing operational efficiency.

Power Generation: Increases service life of critical components, leading to cost savings over time.

3. Sustainability:

Environmental Protection: Reduced emissions and improved efficiency in high-temperature applications.

Resource Management: Longevity of components reduces material waste and environmental impact.

Conclusion Inconel 625 flanges are integral to many industries, offering unmatched performance in extreme conditions. Sankalp Alloys Overseas provides high-quality Inconel 625 flanges, ensuring reliability and efficiency across various applications. Their robust specifications and versatile applications make them a preferred choice for industries demanding high performance and longevity. Investing in Inconel 625 flanges from Sankalp Alloys Overseas guarantees quality, durability, and superior performance, making them a wise choice for industry leaders.

Efficient OEM Pumps Replacement Mechanical Seals: Optimal Functionality

Advancements in Mechanical Sealing Solutions: A Comprehensive Overview

In the realm of industrial machinery, effective sealing solutions are crucial for ensuring optimal performance, reliability, and safety. Mechanical seals play a pivotal role in preventing leakage and contamination in various applications, ranging from pumps and compressors to agitators and mixers. This article delves into the world of mechanical sealing solutions, exploring topics such as mechanical seal failure analysis, cartridge mechanical seals, OEM pumps replacement mechanical seals, dry gas mechanical seals, online steam joints, gland packing seal manufacturers, and the significance of API 682 mechanical seals.

Mechanical Seal Failure Analysis

Mechanical seal failure can lead to significant downtime, increased maintenance costs, and potential safety hazards. Understanding the root causes of failure is essential for improving seal reliability. Common factors contributing to mechanical seal failures include improper installation, inadequate lubrication, abrasive particles, and thermal cycling. A thorough failure analysis helps identify these issues and implement preventive measures. Regular maintenance, proper training for personnel involved in seal installation, and adherence to manufacturer guidelines are essential to minimize the risk of failure.

Cartridge Mechanical Seals

Cartridge mechanical seals have gained popularity due to their ease of installation and maintenance. Unlike traditional component seals, cartridge seals come pre-assembled, simplifying the installation process. This design minimizes the risk of installation errors and ensures consistent performance. Cartridge seals are particularly beneficial in applications where quick replacements are necessary, reducing downtime and improving overall operational efficiency. Their modular construction also allows for easy retrofitting into existing equipment, making them a versatile choice for various industrial settings.

OEM Pumps Replacement Mechanical Seals

Original Equipment Manufacturer (OEM) pumps are often equipped with proprietary mechanical seals. However, as equipment ages or undergoes modifications, the need for replacement seals arises. OEM pumps replacement mechanical seals are specifically designed to meet or exceed the original specifications, ensuring compatibility and performance. Choosing high-quality replacement seals from reputable manufacturers is crucial to maintaining the efficiency and longevity of the equipment. These replacement seals undergo rigorous testing to meet industry standards, providing users with reliable and cost-effective solutions.

Dry Gas Mechanical Seals

Dry gas mechanical seals are essential in applications where the process fluid contains little or no lubricating properties. In these scenarios, a dry gas seal creates a barrier between the process fluid and the external environment, preventing leakage and contamination. This type of seal is commonly employed in industries such as petrochemical, oil and gas, and pharmaceuticals, where maintaining the purity of the process is paramount. Dry gas seals offer improved reliability and reduced maintenance compared to traditional seals in such challenging environments.

Best Online Steam Joints

Steam joints, critical components in rotating equipment like steam turbines and rotary joints, play a pivotal role in ensuring efficient energy transfer and preventing steam leakage. Finding the best online steam joints involves considering factors such as material compatibility, operating conditions, and the specific requirements of the application. Reputable manufacturers provide a range of steam joints designed to withstand high temperatures, pressures, and rotational speeds. Online platforms offer a convenient way to explore and purchase steam joints, providing access to a diverse range of products from various manufacturers.

Gland Packing Seal Manufacturer

Gland packing seals, also known as compression packing or rope packing, have been a traditional sealing solution for rotating shafts. Gland packing consists of braided or twisted materials, such as graphite, PTFE, or aramid fibers, which are compressed around the shaft to create a seal. Choosing a reliable gland packing seal manufacturer is crucial for ensuring product quality and performance. Manufacturers that adhere to industry standards and invest in research and development can provide innovative solutions that address the evolving needs of different industries.

API 682 Mechanical Seals

The American Petroleum Institute (API) has established standards for mechanical seals in the oil and gas industry, known as API 682. These standards define requirements for the design, materials, testing, and performance of mechanical seals used in pumps and other rotating equipment in hydrocarbon processing industries. Adherence to API 682 standards ensures the reliability and safety of mechanical seals in demanding applications. Manufacturers producing API 682-compliant seals contribute to the integrity and efficiency of critical processes in the oil and gas sector.

In the ever-evolving landscape of industrial machinery, mechanical sealing solutions continue to play a vital role in ensuring the reliability and safety of various applications. Whether it's addressing mechanical seal failures, exploring the benefits of cartridge seals, finding suitable replacements for OEM pumps, or considering specialized seals like dry gas or API 682-compliant options, staying informed about the latest advancements is essential. As technology progresses, the industry can expect continuous innovation in mechanical sealing solutions, enhancing overall performance and contributing to the longevity of critical equipment.

Best Practices for Steam Turbine Manufacturers

In the field of energy production and industrial processes applying Cogeneration plants, steam turbines play a pivotal role. These sophisticated machines are essential for converting thermal energy into mechanical energy, powering various applications, from electricity generation to propulsion systems in ships. Steam turbine manufacturers, therefore, hold a significant responsibility in ensuring the efficiency, reliability, and safety of these critical devices.

1. Precision Engineering and Quality Control One of the fundamental pillars of steam turbine manufacturing is precision engineering. Steam Turbine Manufacturers employ cutting-edge technology and adhere to strict quality control processes to create turbines that operate at optimal efficiency. This includes precision machining of components, stringent material selection as per guidance provided by API 611, NEMA etc., and rigorous testing protocols. Advanced computer-aided design (CAD) and computer-aided manufacturing (CAM) systems aid in creating turbine components with tight tolerances, minimizing energy losses due to friction and ensuring a longer operational lifespan.

2. Thorough Design and Simulation Before any physical manufacturing begins, Steam Turbine Manufacturers invest heavily in designing and simulating the turbine’s performance. Computational Fluid Dynamics (CFD) and Finite Element Analysis (FEA) are employed to model the flow of steam and stress analysis in different components. These simulations help engineers optimize the turbine’s design for maximum efficiency and durability. They also aid in predicting potential weak points and stress concentrations, enabling manufacturers to make necessary improvements before production begins. Tools such as D & P FMEA enable eliminating any failures in Manufacturing, Production and Operation of these critical equipments.

3. Robust Material Selection The selection of materials for steam turbine components is critical. Steam Turbines Manufacturers opt for materials that can withstand high temperatures and pressures, resist corrosion, and provide excellent mechanical properties. Stainless steel and nickel-based alloys are often favored due to their superior performance in these harsh operating conditions such as saturated steam conditions. Moreover, Steam Turbine Manufacturers ensure the use of materials that meet industry standards and adhere to strict metallurgical specifications to prevent premature wear and failure.

4. Periodic Maintenance and Health Monitoring The responsibility of Steam Turbine Manufacturers doesn’t end with the delivery of their products. They often provide Maintenance and Health Monitoring services to ensure the turbines continue to operate efficiently throughout their lifecycle. This includes regular inspections, performance evaluations, and predictive maintenance based on data collected from sensors and monitoring systems. These practices help identify potential issues before they become critical, minimizing downtime and maximizing the lifespan of the turbines.

In conclusion, Steam Turbine Manufacturers face a complex and demanding field that requires a commitment to precision, innovation, and quality. By adhering to best practices such as precision engineering, thorough design and simulation, robust material selection, and ongoing maintenance and monitoring, steam turbine manufacturers play a crucial role in providing efficient and reliable energy solutions for various industries. Their dedication to these practices ensures that steam turbines continue to be at the forefront of energy generation and industrial processes.

Turtle Turbines is a one of the most reputed steam turbine manufacturer in India for power generation, suitable for operation on the Superheated and Saturated steam boilers operating in various industries. Based in India, Turtle Turbines offers a range of steam turbines in various sizes and configurations to meet the needs of different applications manufactured to Global Standards and backed up by Remote Performance Monitoring Systems for Health and Performance Monitoring. Turtle Turbines is one of the most reputed Steam Turbine Manufacturers In India. For more information visit now https://turtleturbines.com

Api 660 Latest Edition

Api 660 Latest Edition Price

Api 660 Latest Edition

list of standards

Addeddate 2016-09-25 12:20:51 Identifier API653 Identifier-ark ark:/13960/t4qk2b23h Ocr ABBYY FineReader 11.0 Ppi 300 Scanner Internet Archive HTML5 Uploader 1.6.3. Download do game boy game. API Std 660 currently viewing. March 2015 Shell-and-tube Heat Exchangers, Ninth Edition, Includes Addendum 1 (2020). American Petroleum Institute (API) standards advocate proven, sound engineering and operating practices and safe, interchangeable equipment and materials from drill bits to environmental protection. Included are manuals, standards, specifications, recommended practices, bulletins, guidelines and technical reports.

list of standards

hello guys this are some applicable standards as tips however this document is old a decade! but may be helpful. just shearing. Engineering Rocks!!! 1.0 LIST OF STANDARDS ORGANIZATIONS BY EQUIPMENT CATEGORIES 1.1 GENERAL 1.2 SAFETY 1.3 VESSELS - TANKS 1.4 HEAT TRANSFER EQUIPMENT 1.5 ROTATING EQUIPMENT 1.6 PROCESS EQUIPMENT 1.7 MATERIAL HANDLING 1.8 GENERAL SERVICES 1.9 PLANT SERVICES 1.10 BUILDING SERVICES 1.11 PLUMBING 1.12 PIPING 1.13 MISCELLANEOUS MATERIAL, WELDING, ETC. 2.0 LIST OF MAJOR CODES AND STANDARDS RELATED TO PROCESS ENGINEERING 2.1 ANSI 2.2 API 2.3 ASME 2.4 ASHRAE 2.5 AWWA 2.6 CEMA 2.7 CGSB 2.8 CSA 2.9 CTI 2.10 HYDRAULICS INSTITUTE 2.11 MSS 2.12 NACE 2.13 NEMA 2.14 NFPA 2.15 PFI 2.16 RMA 2.17 SSPC 2.18 TEMA 2.19 ULC TABLE OF CONTENTS (CONTINUED) 2.20 ISA 2.21 ISO 2.22 OFFSHORE PIPELINE 2.23 UNITS OF MEASUREMENT ------------------------------------------------------------ 1.0 LIST OF STANDARDS ORGANIZATIONS BY EQUIPMENT CATEGORIES 1.1 General AGS American Gas Society ANSI American National Standards Institute BSI British Standards Institute CGSB Canadian General Standards Board CSA Canadian Standards Association ISO International Organization for Standardization NBS National Bureau of Standards ISA Instrument Society of America 1.2 Safety ANSI American National Standard Institute Dept. of Labour EPA Environment Protection Agency FM Factory Mutual NBFU National Board of Fire Underwriters NFPA National Fire Protection Association OSHA Occupational Safety and Health Administration UL Underwriters' Laboratories 1.3 Vessels - Tanks API American Petroleum Institute ASME American Society of Mechanical Engineers AWWA American Water Works Association NBBI National Bureau of Boiler & Pressure Vessel Inspectors ULC Underwriters' Laboratories of Canada 1.4 Heat Transfer Equipment API American Petroleum Institute CTI Cooling Tower Institute TEMA Tubular Exchanger Manufacturers Association 1.5 Rotating Equipment ANSI American National Standard Institute API American Petroleum Institute AWWA American Water Works Association DEMA Diesel Engine Manufacturers Association Hydraulics Institute MPTA Mechanical Power Transmission Association 1.6 Process Equipment AWWA American Water Works Association GPSA Gas Processor Suppliers Association API American Petroleum Institute ASME American Society of Mechanical Engineers ASTM American Society for Testing and Materials ANSI American National Standards Institute NBBI National Bureau of Boiler and Pressure Vessel Inspectors CMAA Crane Equipment Manufacturers Association of America 1.7 Material Handling CEMA Conveyor Equipment Manufacturers Association CMAA Crane Equipment Manufacturers Association of America CSA Canadian Standards Association FEM Fédération Européenne de la Manutention (Rules for the Design of Hoisting Appliances) MHI Material Handling Institute RMA Rubber Manufacturers Association 1.8 General Services SAMA Scientific Apparatus Makers Association 1.9 Plant Services ACGIH American Conference of Governmental Industrial Hygienists AGA American Gas Association AWWA American Water Works Association CAGI Compressed Air and Gas Institute CGA Canadian Gas Association CGA INC. Compressed Gas Association 1.10 Building Services AMCA Air Moving and Conditioning Association ARI Air-Conditioning and Refrigeration Institute ASHRAE American Society of Heating, Refrigerating and Air-Conditioning Engineers 1.11 Plumbing ASPE American Society of Plumbing Engineers ASSE American Society of Sanitary Engineers - Canadian Plumbing Code PDI Plumbing and Drainage Institute - Provincial Plumbing Code 1.12 Piping API American Petroleum Institute ASME American Society of Mechanical Engineers MSS Manufacturers Standardization Society of the Valve and Fittings Industry PFI Pipe Fabricators Institute PPI Plastic Pipe Institute 1.13 Miscellaneous Material, Welding, etc. ASME American Society of Mechanical Engineers ASTM American Society for Testing and Materials TIMA Thermal Insulation Manufacturers Association 2.0 LIST OF MAJOR CODES AND STANDARDS RELATED TO PROCESS ENGINEERING 2.1 ANSI A1 Liquefied Petroleum Gas System A13.1 Scheme for Identification of Piping Systems B.16.1 Cast Iron Pipe Flanges and Flanged Fittings, Class 25, 125, 250, and 800 B.16.5 Pipe Flanges and Fittings B16.9 Steel Buttwelding Fittings B31 Corrosion Control for B31.1 B31.1 Power Piping B31.2 Fuel Gas Piping B31.3 Chemical Plant and Petroleum Refinery Piping B31.4 Liquid Petroleum Transportation Piping Systems B31.5 Refrigeration Piping B31.8 Gas Transmission and Distribution Systems (1982) B31.11 Slurry Transportation Piping Systems B36.10 Welded and Seamless Wrought Pipe B36.19 Stainless Steel Pipe B73.1M Horizontal, End Suction Centrifugal Pumps B73.2M Vertical In-line Centrifugal Pumps B133.2 Basic Gas Turbine B133.4 Gas Turbine Control and Protection Systems LOS4C1 Flushing and Cleaning Gas Turbine Gen. Lube Systems 58 Standard for the Storage and Hauling of Liquefied Petroleum Gas MC96.1 Temperature Measurement Thermocouples 2.2 API Publ. 941 Steel for Hydrogen Service at Elevated Temperature and Pressures in Petroleum Refineries and Petrochemical Plants Publ. 2009 Safe Welding and Cutting Practices in Refineries Publ. 2015 Safe Entry and Cleaning of Petroleum Storage Tanks Publ. 2021 Fighting Fires In and Around Flammable and Combustible Liquid Atmosphere Storage Tanks Publ. 2030 Guidelines for Applications of Water Spray Systems for Fire Protection in the Petroleum Industry Publ. 2517 Evaporation Loss from External Floating-Roof Tanks Publ. 2557 Vapour Collection and Control Options for Storage and Transfer Operations in the Petroleum Industry RP 14C Analysis, Design, Installation and Testing of Basic Surface Safety Systems on Offshore Platforms RP 14F Design and Installation of Offshore Platforms RP 14G Fire Prevention and Control on Open Type Offshore Production Platforms RP 30 Calculation for Heater Tube Thickness in Petroleum Refineries RP 500 Recommended Practice for Classification of Locations for Electrical Installations at Petroleum Facilities RP 520 Sizing, Selection, and Installation of Pressure Delivery Devices in Refineries. Parts 1 and 2 RP 521 Guide for Pressure Delivery and Depressuring Systems RP 526 Flanged Steel Safety Relief Valves RP 551 Process Measurement Instrumentation RP 560 Fired Heater for General Refinery Services RP 651 Cathodic Protection of Aboveground Petroleum Storage Tanks RP 652 Lining of Aboveground Storage Tank Bottoms RP 682 Shaft Sealing System for Centrifugal and Rotary Pumps RP 1110 Pressure Testing of Liquid Petroleum Pipelines RP 2001 Fire Protection in Refineries RP 2003 Protection Against Ignitions Arising out of Static, Lighting and Stray Currents Spec. 5L Line Pipe Spec. 6D Pipeline Valves Spec. 6FA Fire Test for Valves Spec. 12D Field Welded Tanks for Storage of Production Liquids Spec. 12F Shop Welded Tanks for Storage of Production Liquids Spec. 12J Oil and Gas Separators Spec. 12K Indirect Type Oil Field Heaters Spec. 12L Specification for Vertical and Horizontal Emulsion Treaters Spec. 12P Specification for Fibreglass Reinforced Plastic Tanks Std. 510 Pressure Vessel Inspection Code Std. 526 Flanged Steel Safety - Relief Valves Std. 527 Seat Tightness of Pressure Relief Valves Std. 594 Wafer and Wafer-Lug Check Valves Std. 598 Valve Inspection and Testing Std. 599 Metal Plug Valves - Flanged and Butt-Welding Ends Std. 600 Steel Gate Valves - Flanged and Butt-Welding Ends Std. 602 Compact Steel Gate Valves - Flanged Threaded, Welding, and Extended-Body Ends Std. 603 Class 150, Cast, Corrosion-Resistant, Flanged-End Gate Valves Std. 607 Fire Test for Soft-Seated Quarter-Turn Valves Std. 608 Metal Ball Valves - Flanged and Butt-Welding Ends Std. 609 Lug - and Wafer - Type Butterfly Valves Std. 610 Centrifugal Pumps For Petroleum, Heavy Duty Chemical and Gas Industry Services Std. 611 General Purpose Steam Turbines for Refinery Services Std. 612 Special Purpose Steam Turbines for Refinery Services Std. 613 Special Purpose Gear Units for Refinery Services Std. 614 Lubrication, Shaft-Sealing and Control Oil Systems for Special Purpose Application Std. 615 Sound Control of Mechanical Equipment for Refinery Services Std. 616 Gas Turbines for Refinery Services Std. 617 Centrifugal Compressors for General Refinery Services Std. 618 Reciprocating Compressors for General Refinery Services Std. 619 Rotary-Type Positive Displacement Compressors for General Refinery Services Std. 620 Design and Construction of Large, Welded, Low Pressure Storage Tanks Std. 630 Tube and Header Dimensions for Fired Heaters for Refinery Service Std. 650 Welded Steel Tanks for Oil Storage Std. 660 Heat Exchangers for General Refinery Service Std. 661 Air-Cooled Heat Exchangers for General Refinery Service Std. 670 Vibrations, Axial Position, and Bearing-Temperature Monitoring System Std. 671 Special Purpose Coupling for Refinery Service Std. 674 Positive Displacement Pumps - Reciprocating Std. 675 Positive Displacement Pumps - Controlled Volume Std. 676 Positive Displacement Pumps - Rotary Std. 677 General Purpose Gear Units for Refineries Services Std. 678 Accelerometer-Base Vibration Monitoring System Std. 1104 Welding Pipelines and Related Facilities Std. 2000 Venting Atmospheric and Low-Pressure Storage Tanks - Non-Refrigerated and Refrigerated Std. 2530 Measurement Standard Chapter 14, Natural Gas 2.3 ASME Boiler and Pressure Vessel Code Section I Power Boilers Section II Materials Specifications Part A Ferrous Materials Part B Non-Ferrous Materials Part C Welding Rods, Electrodes and Filler Metal Part D Properties Section IV Heating Boilers Section V Non-Destructive Examination Section VIII Pressure Vessels - Division 1 Division 2 Section IX Welding and Brazing Qualifications Section X Fibreglass-Reinforced Plastic Pressure Vessels Standards Std. 120 Gas Turbine Generator Lube Oil Systems Performance Test Codes PTC 1 General Instructions PTC 2 Definitions and Values PTC 4.1 Steam Generating Units PTC 8.2 Centrifugal Pumps PTC 9 Displacement Compressors, Vacuum Pumps and Blowers PTC 10 Compressors and Exhausters PTC 22 Gas Turbine Power Plants 2.4 ASHRAE ASHRAE Handbooks 2.5 AWWA C110 Gray-Iron and Ductile Iron Fittings, 3 in. through 48 in. for Water and Other Liquids C151 Ductile Iron Pipe, Centrifugally Cast in Metal Molds or Sand-Lined Molds for Water and Other Liquids E101-88 Vertical Turbine Pumps - Live Shaft and Submersible Types C502 Dry Barrel Hydrants Fire Hydrants 2.6 CEMA Belt Conveyors for Bulk Materials Handbook 2.7 CGSB 41-GP-22 Standard for Process Equipment Reinforced Polyester, Chemical Resistance, Custom-Contact Molded 2.8 CSA B-51 Boilers and Pressure Vessels B-53 Identification of Piping Systems B-52-M Mechanical Refrigeration Code B-63 Welded and Seamless Steel Pipe B-137.3 Rigid Poly (Vinyl Chloride) (PVC) Pipe B-137.4-M Polyethylene Piping Systems for Gas Service W-48.1 Mild Steel Covered Arc-Welding Electrodes W-48.3 Low-Alloy Steel Arc-Welding Electrodes Z-183 Oil Pipeline Transportation Systems Z-184-M Gas Pipeline Systems Z-245.1 Pipeline Systems and Materials Z-245.10 Wrought Steel Buttwelding Fittings and Flanges Z-276-M LNG - Production, Storage and Handling 2.9 CTI STD-103 Standard Specifications for the Design of Cooling Tower Structures with Redwood Lumber STD-111 Gear Speed Reducers STD-114 Standard Specifications for the Design of Cooling Tower Structures with Douglas Fir Lumber NCL-109 Nomenclature for Industrial Water - Cooling Towers WMS-112 Pressure Preservative Treatment of Lumber for Industrial Water - Cooling Towers ATC-105 Acceptable Test Code for Water-Cooling Towers 2.10 Hydraulics Institute Standards for Centrifugal, Vertical, Rotary and Reciprocating Pumps 2.11 MSS Standard Practices SP-6 Standard Finishes for Contact Faces Pipe Flanges and Connecting End Flanges of Valves and Fittings SP-25 Standard Marking System for Valves, Fittings, Flanges and Union SP-44 Steel Pipeline Flanges SP-53 Quality Standards for Steel Castings and Forgings for Valves, Flanges and Fittings and Other Piping Components - Mag. Particle SP-54 Quality Standards for Steel Castings and for Valves, Flanges and Fittings and Other Piping Components - Radiographic SP-55 Quality Standards for Steel Castings and for Valves, Flanges and Fittings and Other Piping Components - Visual SP-58 Pipe Hangers and Supports - Material, Design and Manufacture SP-61 Pressure Testing of Steel Valves SP-69 Pipe Hangers and Supports - Selection and Application SP-75 High Test Wrought Butt Welding Fittings SP-82 Valve Pressure Testing Methods SP-89 Pipe Hangers and Supports - Fabrication and Installation Practices 2.12 NACE MR-01-90 Sulfide Stress Cracking Resistant Metallic Material for Oil Field Equipment RP-01-78 Design, Fabrication and Surface Finish of Metal Tanks and Vessels to be Lined for Chemical Immersion Service RP-0188-88 Discontinuity (Holiday) Testing of Protective Coatings 2.13 NEMA SM23-1979 Steam Turbines for Mechanical Drive Service 2.14 NFPA 11 Low Expansion Foam Systems 11A Medium and High Expansion Foam Systems 12 Carbon Dioxide Extinguishing Systems 12A Halon 1301 Fire Extinguishing Systems 12B Halon 1211 Fire Extinguishing Systems 13 Installation of Sprinkler Systems 14 Stand Pipe and Hose Systems 15 Water Spray Fixed Systems 16 Deluge Foam-Water Sprinkler and Spray Systems 17 Dry Chemical Extinguishing Systems 20 Centrifugal Fire Pumps 22 Water Tanks for Private Fire Protection 24 Installation of Private Fire Service Mains and Their Appurtenances 25 Water Based Fire Protection Systems 37 Stationary Combustion Engines and Gas Turbines 51 Oxygen-Fuel Gas Systems for Welding 54 National Fuel Gas Code CUA 58 LP Gas Storage, Use 59 LP Gases at Utility Gas Plants 59A Storage and Handling of Liquefied Natural Gas 82 Incinerators, Waste and Linen Handling Systems and Equipment 214 Water Cooling Towers 291 Fire Flow Testing and Marking of Hydrants 655 Prevention of Sulphur Fires and Explosions 2.15 PFI ES 4 Hydrostatic Testing of Fabricated Piping ES 5 Cleaning of Fabricated Piping ES 7 Minimum Length and Spacing for Welded Nozzles ES 18 Ultrasonic Examination of Tubular Products ES 22 Recommended Practice for Color Coding of Piping Materials 2.16 RMA Conveyor and Elevator Belt Handbook 2.17 SSPC PA1 Shop, Field and Maintenance Painting SP1 Solvent Cleaning SP5 White Metal Blast Cleaning SP6 Commercial Blast Cleaning SP7 Brush-Off Blast Cleaning SP8 Pickling SP10 Near-White Blast Cleaning Guide to Vis1 Guide to Pictorial Surface Preparation Standards for Painting Steel 2.18 TEMA TEMA Standard 2.19 ULC S603M Standard for Shop Fabricated Steel Underground Tanks for Flammable and Combustible Liquids S630M Standard for Shop Fabricated Steel Aboveground Tanks for Flammable and Combustible Liquids 2.20 ISA 85.1 Instrument Symbols and Identification 2.21 ISO 5167 Sizing of Metering Orifice 2.22 Offshore Pipeline DNV Rules for Submarine Pipeline Systems 2.23 Units of Measurement ISO 1000 SI Units

NACE MR0175 is identical to ISO 15156. ANSI / NACE MR0175 / ISO 15156 lists the requirements for carbon steels, low alloys and corrosion resistant alloy exposed to H2S in oil and gas exploration and production environments.

This page is maintained by Oil and Gas Corrosion Ltd. and allows you to track the latest edition of NACE MR0175.

The current NACE MR0175 revision is:

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ISO 15156 2020 (not a national standard ANSI/BSI and still not ratified by NACE)

The previous revision is

The 2015 revision is supplemented by several Technical Circulars published via ISO:

The Technical Circulars are integral part of the document.

Oil and Gas Corrosion Ltd provides technical support to understand and implement the requirements of NACE MR0175

Contact our team today!

With a wealth of experience in the oil and gas industry, we provide independent materials and corrosion consultancy to help companies reduce risk, save money and apply best practice in their oil and gas businesses.

Find out more by getting in touch – you’ll get an answer from a qualified, experienced materials engineer every time.

Api 660 Latest Edition Price

Tama serial number check digit. US: 877-399-1010 (toll free) UK: +44(0)1144000850

Api 660 Latest Edition

66 Eldon St Sheffield S1 4GT United Kingdom Portrait professional 15 full.

Market served by Minimac Systems Pvt Ltd

It has been seen that 80% premature machine failure is due to lube oil contamination. Many people believe that replacing contaminated oil with new oil can help solve machine failure. But is that completely true?

As per the international standards like NAS/ISO, new oil is not completely clean. Some of the main reasons behind that could be poor storage practices or lubrication packaging.

If you remove the contaminated oil from the system, impurities still remain in the system until they are flushed. Introducing new oil in the system without cleaning the system leads to contamination of the new oil leading to no change in the premature breakdown situation.

Oil and Gas Sector - 

Our range of products and services can be applied to the upstream, midstream, and downstream markets and are used onshore and offshore in almost every oil and gas producing area of the world.

The 3 different sectors of oil and gas sectors are as follows -

1. Upstream Filtration: The upstream part of the oil and gas business comprises production facilities. All offshore and onshore rigs where crude oil, well fluid, or gas is being pumped out of the earth and brought to the surface. Here there are multiple equipment mounted on the rig itself, in order to maintain the lubrication and hydraulic system of the equipment, Minimac’s flushing systems are used.

2. Midstream Filtration: It is essential for the removal of solid contaminants prior to pipeline transportation. Timely execution of Oil Flushing and Chemical Cleaning leads to the removal of combustible and corrosive substances from pipelines and other industrial machines.

Our flushing and filtration technologies deliver a complete solution that enhances the overall performance with lower operating costs.

Check out our video to know more about our flushing skids.

3. Downstream Filtration: Refineries and petrochemical plants. Refineries have rotary equipment where lubrication plays an important part and as per API 614 standard (ISO 4406) clearly states that oil cleanliness should be up to a level of ISO 16/14/12 and hence the users of oil & gas must comply with this standard. The Petrochemical industry has a wide variety of hydraulic and lubrication systems. Hydraulic fluid should be physically clean, as determined by the number and size of particles suspended in the oil (refer to ISO 4406 cleanliness codes for details). Foreign matter can contaminate the system and incur huge losses not only in terms of finances but also in productivity and efficiency of the equipment affecting the overall production capacity negatively.

Power Generation Sector -

Our products are used in plants that generate power from fossil, nuclear, and renewable sources to increase their efficiency. Equipment such as Low Vacuum Dehydration System, Electrostatic Lube Cleaner and Coalescer Separator System maintains clean oil and fluids consistently, reliably, and economically. We provide oil purification systems, filters, skids, and testing equipment to maintain oil in hydraulic systems, lubrication systems, pulverizes, steam turbines, power transformers, and turbine control systems, and other power generation equipment.

Maintaining power plant efficiency can be difficult; operating conditions for hydraulics and other fluid systems in power stations are harsh. Contamination, dust, and moisture in pulverizes have a serious negative impact on gear oil. Oil undergoes rapid oxidation and induces corrosion of bearings due to water and contamination. The insulation efficiency of transformer oil is reduced due to water and gases present in it.

​Not only do we help maintain the efficiency of power plants but also help you accelerate machine reliability efficiency, and power output while reducing the power outage occurrence and maintenance cost.

A common challenge of how to minimize maintenance costs & maximize performance while improving the longevity of components is solved by the products based on advanced technologies..

EPC, OEM & PPS Service Providers - 

Apart from being just an OEM of chemical cleaning, oil flushing, and purification skids, we work closely with EPC companies, PPS contractors & service providers.

 We regularly offer services like equipment rentals, technical consultancy, and manpower support.

Metal -

We are a leading provider of filters and oil purification systems for the metal industry (especially steel).

The steel manufacturing industry is continually challenged with keeping the oil clean due to the nature of the extreme environment they operate in. Our oil purification systems protect hydraulic equipment, pump, quench tanks, nozzles from early wear & tear.

We are experts in oil purification for the steel industry by delivering customized, reliable, and cost-efficient products.

Are you experiencing sub-optimal results after changing the filters? If yes, then You might want to check out our article by clicking here.

Cement - 

Operating conditions in cement production plants are tough. Machinery such as rotary kilns, mills, roller presses, and crushers are incessantly subject to wear due to round-the-clock production.

 Selecting the right oil purification solutions at the right time is important as a delay in it may lead to premature failure of a component and in the worst-case production stoppage entailing high maintenance costs.

 With our customized oil filtration system, one can extend the life and availability of your machinery.

Can contamination be seen with the naked eye? Read more.

Paper, Plastic & Cotton - 

The pulp and paper industry continues to advance with better paper machines, increasing the demand for lubrication equipment. The industry needs a comprehensive approach to asset protection and process optimization. Minimac meets the challenges of the paper, plastic, rubber, and cotton industry by providing equipment based on advanced technology.

 Moisture and solid particle contamination are common in turbine oil reservoirs. In harsh environments, lubricants must be kept clean and moisture-free in order to prevent costly downtime. Minimac has demonstrated proven performance and offers a reliable and cost-efficient solution to the continuous purification of lubricants.

 Plastic products are manufactured where plastic granules are fed in machinery through various processes such as injection moulding machine, blow moulding machine, roto moulding machine, and extrusion moulding machine. Our applicability is in injection moulding machines. A plastic injection moulding facility experiences equipment failures due to hydraulic fluid contamination. The failures affect their budget with the unexpected loss of productivity, increased maintenance hours, and replacement parts.

 We reduce the particulate contamination in the hydraulic oil and the occurrences of equipment malfunctions by providing cost-efficient oil purification systems.

To read our case studies and articles, visit us.

Metal Processing - 

We can help you reduce downtime and extend machinery life, through effective and reliable oil purification systems.

 Minimac has developed premium lubricating oil purification systems that deliver enhanced filtration effectiveness and reliability resulting in reduced maintenance frequency for improved overall performance. We offer specific lube oil filtration systems for metal forming processes such as pressing, forging, die-casting, foundry, rolling, contributing to your profitability.

 Where metal is forged, bent, or punched, a lubricant is normally required. Over the time, quality of the oil deteriorates and removal/separation of foreign particles or moisture present in the oil becomes necessary. Minimac OPS thus enables more profitable processes.

You can achieve reliability through oil reclamation. Watch out how you can do the same.

Chemical & Fertilizers -

Minimac's oil purification systems cater to all segments of the chemical & fertilizer industries. The production process in the chemical industry is exposed to extreme conditions like high pressure, high temperatures, and disruptive agents. If the quality of the oil used in the machinery isn’t protected, it will have a cascading effect not only on the equipment but also increase the maintenance cost.

We provide customized oil purification systems which increase the machine availability as well as the efficiency of the plant.

Research and development on technology and products have always been the key reason to keep the Minimac products a step ahead of its competitors in the market.

Mining & Construction - 

This industry works majorly on equipment which is known as HEMM - Heavy Earth Moving Machines. The basic task of this machine is to extract the ore. Shovels, excavators, dozers, dumpers, backhoes, etc. are some of the equipment used for the same purpose.

 These machines use high-pressure hydraulics and they work on super clean oil for better functionality. Super clean oil is the highest level of oil purity. If SCO’s purity deteriorates, the machines are affected negatively.

 So we provide cost-efficient solutions for lube and hydraulic oil purification, thereby increasing machine efficiency and overall business performance. Machines like oil filtration systems, oil dehydration systems, flushing systems, etc. find major applicability in this sector.

Automobile & Parts - 

High-quality standards and tight production deadlines leave no room for errors in the manufacturing process.

​Our oil purification systems can help maximize production and increase plant efficiency. Presses, robots, torque wrenches, injection moulding machines, extruders, conveyor belts, CNC machine tools, casting machines, drills, punches, upsetting machines, etc. are some of the equipment used for the manufacturing of automobile & parts.

 The improvement in engine technology and manufacturing techniques have resulted in the tightening of tolerances on machine parts. This has enhanced the need for filtration solutions to remove solid particles and moisture present in lubricating fluids.

 Short tool life can be avoided by employing Minimac’s cost-efficient oil purification systems.

Marine - 

The marine environment is precious and should be treated with respect and care. Reliable equipment operation at sea is extremely important.

 The ships use hydraulic systems for steering, locomotion, etc. for better movement. Marine conditions are extremely tough on onshore and offshore equipment like ships, submarines, different types of cranes, reach stackers, crawlers, wheel loaders, unloaders, automated guided vehicles, link spans, etc. This equipment uses a heavy hydraulic system which requires a high flow of clean oil for the smooth working of the machines.

 By selecting the right oil purification system, the trouble-free operation can be achieved. We not only help you in efficiency enhancement of the material handling equipment and reduce maintenance intervals but also in reducing risks resulting from leakages.

Engineering - 

It is categorized into two main parts, namely, heavy engineering and light engineering.

 There are, however, a number of sub-sectors within the engineering sector like iron and steel, other base metals and their products, mechanical machinery, electrical machinery, transport equipment (including automotive), instruments and appliances, time-measuring instruments, musical instruments, arms and ammunition, and furniture and related articles.

 Minimac’s premium lubricating oil purification systems deliver enhanced filtration effectiveness and reliability resulting in reduced overall maintenance cost.

Railway - 

High-quality standards and tight production deadlines leave no room for errors in the manufacturing process

 Our oil purification systems can help maximize production and increase plant efficiency. Presses, robots, torque wrenches, injection moulding machines, extruders, conveyor belts, CNC machine tools, casting machines, drills, punches, upsetting machines, etc. are some of the equipment used for the manufacturing of parts and components in the railways’ sector.

 The improvement in engine technology and manufacturing techniques have resulted in the tightening of tolerances on machine parts. This has enhanced the need for filtration solutions to remove solid particles and moisture present in lubricating fluids.

​Short tool life can be avoided by employing Minimac’s cost-efficient oil purification systems.

Defense & Space - 

A critical job of the defense sector and its equipment is to deliver tactical supplies, equipment, and troops in any weather, environmental, and operating conditions.

 Under defence there is the air force, navy, and army. All these sectors have a high use of multiple hydraulic systems which require clean oil for better functioning. Whether it is aircraft, ships, submarines, tankers, or air force stations (maintenance of aircraft), we are always there at the RIGHT TIME!

 The equipment manufacturing department under defence is ordnance factories and R&D organizations like DRDO. The ordnance factories supply our armed forces with modern defence and battlefield equipment. This manufacturing process involves equipment with heavy hydraulic systems with clean oil. We have a dedicated applications team that provides cost-efficient solutions to help keep critical defence equipment running efficiently and reliably in the most demanding conditions.

 The prime customers of ordnance factories in India are the Indian army, Indian navy, Indian air force, and the Indian coast guard. But apart from the armed forces, ordnance factories also supply weapons and bulletproof vehicles to police forces, parliamentary forces of India, and the special forces of India. In the civil sector, some of the customers of ordnance factories are the Indian railways, the Indian space research organization, and the department of telecommunications. Minimac is proud to have a presence through its range of offerings: oil purification systems, flushing systems, contracts & services.

We offer Equipment, Services, Consultancy and Awareness programs. If there is anything we can do to help you in this journey towards Lubrication Reliability, reach out to us > https://www.minimacsystems.com/ 

NORTH & LATIN AMERICA WATER PUMPS MARKET ANALYSIS (2020-2027)

Market Definition

A pump is a mechanical device that moves fluids by mechanical action. Centrifugal pumps are special type of mechanical pumps that are used in transportation of liquid of various types. Centrifugal pumps find applications in agricultural and domestic purposes. The operation of this pump, as the name suggests, is based on centrifugal force, where it converts rotational kinetic energy provided by electric motor, gasoline motor or steam turbine into hydrodynamic energy of the moving liquid that is being pumped. Centrifugal pump is extensively used in different industries due to design simplicity, smooth rate flow, ease of maintenance, wide range of capacity, and operational efficiency. The minimum range of pump can be 0.125 horsepower to 5000 horsepower. It is used in agricultural, domestic, and industrial applications.

North & Latin America Water Pumps market is estimated to account for US$ 10,698.4 Mn in terms of value by the end of 2019.

Market Dynamics- Drivers

Constant demand from oil & gas and mining industries is expected to drive growth of the North & Latin America water pumps market during the forecast period

Oil & gas industries based in countries such as the U.S. Venezuela, Canada, and Mexico are the prominent end users of the water pumps. These pumps are used for exploration as well as refining activities. According to Coherent Market Insights’ analysis, in 2015-16, gross revenue contribution from oil & gas segment accounted for around 25% of overall revenues, of which around 40% share was in North and Latin America. Moreover, mining activities in the U.S. and Latin American countries such as Peru and Chile have supported the demand for water pumps, especially repair and maintenance of existing pumps. According to Coherent Market Insights’ analysis, Chile and Peru are expected to provide a combined capital expenditure opportunity involving pumps of around US$ 70 billion by end of the forecast period. Therefore, these factors are expected to boost the market growth over the forecast period.

Stringent energy and environment regulatory policies and legislation are expected to propel the North & Latin America water pumps market growth over the forecast period

The Minimum Energy Performance Standards (MEPS) policy has directed the use of motor driven units (MDUs) in the U.S., in order to optimize the use of intake energy during their operation to conserve energy. This has compelled users to update their existing system into energy efficient units. For instance, according to the International Energy Agency (IEA) 2014 policy, a motor-driven unit should be ideally designed to deliver energy savings in a range of 20-30%. Moreover, according to the United States Environment Protection Agency (USEPA), municipal wastewater and stormwater management agencies should deploy water pumps in targeted areas. This, in turn, is expected to support the market growth in the near future.

North America region dominated the market in 2018, accounting for 80.1% share in terms of volume, followed by Latin America, respectively.

Source: Coherent Market Insights

Market Dynamics- Restraints

Significant drop in capital expenditure across industrial sectors is expected to restrain growth of the North & Latin America water pumps market during the forecast period

The financial year 2015-16 witnessed significant dip in capital expenditure across various industrial vertical, especially in heavy and medium industrial sector with 30% drop as compared to previous years. This is majorly due to recessive economic reforms across industrial sectors. These industries have higher supply-to-demand ration, suggesting that industries need to reduce output production and stop their upcoming expansion plans. For instance, in the U.S. oil & gas exploration sector the focus on expansion in operations has shifted from long-term cycle to projects having short term execution periods resulting in cancellation of projects worth US$620 for the period 2015-2020 thus deferring the prospects of greenfield projects.

Availability of cheap pumps offered by China-based manufacturers is expected to hinder the North & Latin America water pumps market growth over the forecast period

China-based manufacturers present in the regions are offering low price products, which in turn, is expected to market growth up to certain extent. Increasing pressure from these players by offering high-quality, reliable, efficient, and technologically advanced products at competitive prices are expected to hinder the sales of regional players. Moreover, advent of China as a major producer of low cost water pumps has disrupted the market up to certain extent, thereby hindering the market growth.

Market Opportunities

Growing focus on optimization of centrifugal pumping system and production speed

Major manufacturers in the market are focused on enhancing centrifugal pumping system and accelerating production speed. Pump manufacturers can offer wide range of varieties in their portfolio with customization and prompt service. Moreover, customer applications have become more product or service specific instead of general, manufacturers can custom-made products, in order to capitalize market. Adjustable frequency drives are proving to be more economically feasible for end users, since they save energy. This, in turn, is expected to pose lucrative growth opportunities for market players in the near future.

Increasing emphasis on pump life cycle cost

The interchange between initial cost and life cycle cost has provide to be playing a crucial role for centrifugal pump manufacturers and end users. Manufacturers need to evaluate life cycle costs facilitate smart buying decision for consumers. Moreover, centrifugal pump manufacturers need to analyze cost energy and return of investment for centrifugal pumps, instead of focusing on buying and installation cost. According to Coherent Market Insights’ analysis, buying and installation cost accounts for around 18% of total unit cost while operation and lifecycle cost represent the remaining 80% of the overall centrifugal pump cost.

Centrifugal Pump based application segment was valued at US$ 9,512.2 Mn in 2018 and is forecasted to reach a value of US$ 14,503.2 by 2027 at a CAGR of 4.8% between 2019 and 2027.

Market Trends

High demand for energy-efficient centrifugal pumps is expected to continue in the near future

Rising energy cost and growing awareness regarding environment among consumers are expected to boost the demand for energy-efficient and cost-effective centrifugal pumps during the forecast period. Energy-efficient pumps reduce annual energy costs and creates positive impact on the environment. According to Coherent Market Insights’ analysis, enhancing efficiency of a 2,500 Hp multi-stage pump by 3% can result in cost savings of around US$ 36,000 every year. According to the same source, pump motors account for 15% of the North & Latin America energy consumption. However, with over 40% centrifugal pumps to be covered by stricter energy efficiency regulations by 2020, this number is expected to decline significantly. Moreover, centrifugal pumps manufactured in China are only 75% energy efficient as compared to pumps manufactured by other market players.

Growing focus on trades conferences, industrial fairs and platforms is expected to boost the demand

Key companies in the market are focused on participating in industrial fair platforms, trade conferences, and similar events, in order to endorse their products among end users. Major companies such as KSB AG, Xylem Inc. and Grundfos etc. have annual schedule of attending industrial, municipal, technology and environment protection awareness based events and exhibitions in U.S. such as World Ag Expo, American Water Summit, Conexpo-Con/AGG etc. According to Coherent Market Insights analysis, manufacturing companies allocate around 15-20% of their annual marketing budget for marketing and endorsement activities.

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Segment information:

North & Latin America Water Pumps market, by product type segment, the centrifugal sub-segment dominated the market in 2018, accounting for 92.9% share in terms of value, followed by positive displacement pump, respectively.

Source: Coherent Market Insights

Value Chain Analysis

Source: Coherent Market Insights

Competitive Section

Key players operating in the North & Latin America water pumps market are KSB AG, Ruhrpumpen Group, Flowserve Corporation, Kirloskar Brothers Limited, Sulzer AG, Xylem Inc., Ebara Corporation, Wilo SE, GRUNDFOS, and The Weir Group PLC.

Key Developments

Key players in the market are focused on collaborations and partnerships, in order to enhance their market presence. For instance, in February 2019, Ruhrpumpen Group partnered with Wolong Electric to supply five API 610 barrel-casing pumps.

Major market companies are involved in product launches, in order to enhance their market presence. For instance, in February 2019, Kirloskar Brothers Limited introduced KU6 - oil-filled 6" borewell submersible pump with higher efficiency and lower costs.

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Coherent Market Insights is a global market intelligence and consulting organization focused on assisting our plethora of clients achieve transformational growth by helping them make critical business decisions.

What we provide:

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Phone: +1-206-701-6702

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Source:

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China Sourcing Summit On Petroleum & Chemical Equipment (CSSOPE 2019)

30+ Keynote Presentations 6+ Sub-Sessions for Different Regent    60+ Exhibitors 600+ Procurement and Supplier Executives 2+Post-event Business Tours   2+Reception, Dinner, Coffee Breaks The First Show in Shanghai The First Meet the Buyer(MTB) Meeting The First Sub-session in Sponsor Name The First Joint-Invitation to Buyers   The First Business Tour after the Event The First One-to-One Meeting Background Introduction                                                         Oil prices are likely to remain low for long although recently showed signs of rebounding, under the policy during the 14th Five Year Plan and status of industry, transformation and innovation in supply chain management and reduction of total cost of procurement holds the key to a successful sourcing strategy in oil and gas industry. China remains a low cost sourcing destination. Multi-billion dollar oil and gas projects have been lined under the Made in China 2025 Plan and the One Belt and Road policy. China has been a sourcing hub for international giants. The 9th Conference and Exhibition - China Sourcing Summit On Petroleum & Chemical Equipment (CSSOPE 2019) , to be held on 23-24 May 2019 in Shanghai, will provides an excellent approach for selecting the best equipment and supplier to meet the long-term profit and reliability needs of the buyers. The elite speakers will share insights in the modern sourcing strategy on how to minimize total cost and maximizing total benefit, event their ongoing projects and procurement plan. CSSOPE 2019 will also provide a top-level overview and detailed insight into China’s oil and gas equipment supply capacity. It is an essential summit to meet excellent suppliers for sourcing executives, procurement managers, buyers, traders, EPC contractors from international companies such as Shell, BP, Aramco, Statoil, Total, ConocoPhillips, Petrobras,Reliance Industries Limited, BASF, DOW, Fluor, Aker, Petrofac, Worley Parsons, Technip,MEDCO, PetroChina, Sinopec, and CNOOC Etc. The exhibition is a platform for suppliers to promote their latest technologies and show the products and equipments. The organizer will repeat the country focus session in the 2019 version of CSSOPE due to high demand. So that one-to-one meeting and Meet the Buyer meeting will be arranged for you to communicate with the qualified Chinese suppliers and venders at CSSOPE 2019, and a business tour to top-manufacturing companies in China will be available after the event. About CSSOPE                                                   Networking platform for purchasers and suppliers Lineups of eminent speakers and professionals Discussing practices of purchasing in China, order plan and needs Sharing experiences of supply chain management and case studies Buyers Benefits If you are from oil and gas and chemical companies, owners, end-users, EPC companies, trading companies, inventory providers, MRO purchasers, we will provide:           1. Free delegate pass if you register by March 30th, 2019 with detailed purchasing orders. Your spouse will enjoy free accommodations and join the shopping group during the event.              1.Membership of CSSOPE Sourcing Federation and enjoy all the services (includes CSSOPE delegate pass, meet the suppliers, information sharing, visit manufacturing companies etc.) Many thanks for organizing this excellent platform and congratulations to the success of the event. ——Sukumar Narasimhan, Sr. VP Supply Chain, Reliance Industries Limited  Thank you to the thoughtful arrange, it’s well communication atmosphere and we gained lots of information. I enjoyed this event. ——John Shen, Procurement Director, China & Northeast Asia, Fluor     CSSOPE 2019 was a good event. I believe the attendees found it valuable and worthwhile as well. ——Ramesh Nair, Head of Commercial, WISON OFFSHORE  “The various sub-sessions were interesting and informative and we especially enjoyed the debate on the use of dispersant vs herding agent.” ——Ken Tun, CEO, Parami Energy Group of Companies  “It’s a successful event. Congratulations! I think it’s a very important and meaningful.” ——R.C.Verma, Executive Vice President (EPC), Galfar Engineering & Contracting S.A.O.G  “It’s an interesting event sharing a lot of new ideas from eminent speakers.” ——HaiBi Zhu, Procurement Dept, Chinahuanqiu Contracting & Engineering Corp(HQC)  “Thank you for organizing such a professional as well as informative summit, it was widely attended. It has been my pleasure to present during this summit and look forward to meeting the suppliers and sourcing professionals again next year.” ——IHENACHO Acho Ohochukwu, CEO, Northern Oilfield Supplies and Services Ltd.   “It was well organized, good conference, I asked our procurement director to attend and make a speech next year. This will help us to procure more from China. ” ——Michael Gai, Operations manager of Oil & Gas China, Associate Vice President, Energy Division,Black & Veatch  “Thanks for providing such a good platform, we have benefited a lot as one of the exhibitors, not only exchanged technology with industry peers, but also got some orders with buyers. We are looking forward to having a better show at the next session. ” ——Xu Weihua, Market Development Manager, Zhejiang Flowtech Machinery CO.,Ltd.  “Thank you for building such a good platform for buyers and suppliers. Congratulation for the success of the summit. Look forward to meeting you again and the future of LNG.” ——Zhang Hongjiang, Vice President, EnCryo　  “I would like to say Congratulations to the success of CSSOPE 2015. I enjoyed to attend this conference. ” ——Ken-ichi MOTOYAMA, Manager, Procurement Department, JGC What's New in 2019 Version?  - BE WITH US NOW TO Meeting Buyers - A one-stop solution for your selling targets Visiting Factories - A one-stop solution for your procurement needs Attend APlenary Conference and Six Sub-sessions on Regional Procurement More Networking Sessions and One-to-One Business Matching Meetings All at CSSOPE 2019, A Must Attend Event Who Should Attend Oil & Gas Corporation Petrochemical / Chemical Company Oilfield Service Company EPC Contractor Equipment Manufacturer & Supplier Equipment Trader Technology & Solution Company Project Logistics and Transportation Company Training, Inspection, Testing and Certification Organization Embassies Oil Equipment Manufacturing Base/Hub Safety, Energy-saving and Environmental Government Department Industry Association Research Organization Insurance and Crisis Management Company Bank and Financial Lease Company Accounting Firm Law Office Exhibit Profiles Upstream E&P: geophysical equipment, logging equipment, oil pipe, oilfield chemicals, oil field engineering and technical services, rig, mud pump, manifold, BOP, cementing, acidification equipment, fracturing equipment, workover products, oil mining gas equipment, drills, drilling tools, test mining tools, power equipment, multi-phase flow meter, offshore drilling rigs, offshore platforms, marine steel modules, subsea wellhead equipment, wire rope rigging and hoisting,anchor, offshore steel / steel grating, ocean platform crane. Downstream, Refining And Petrochemical: pressure vessels, reaction equipment, tower, heat exchangers, flue gas composition machine, pumps, compressors, refrigeration, air-conditioning equipment, boilers and accessories, steam turbine, gas turbine, engine, filtration equipment. Midstream, Pipeline Storage: gas separation and liquefaction equipment, cryogenic equipment, valves and actuators, sealing materials, flowmeter and Blind, steel, steel, stainless steel, fiberglass and flexible composite pipe, pipe fittings, flanges and fittings, engineering machinery, instrumentation, welding cables, electrical power, communication equipment, gas detectors, safety/health, oil spill response equipment, explosion proof motors and electrical equipment, corrosion insulation material, transport equipment, gas station equipment, environmental equipment. Third-party services: industry organizations, associations, E-commerce, project Logistics, testing and certification, banking, legal, insurance, financial leasing, import and export, consulting, certification, and other agents. Organizing Committee Members and Guess (With a few to be confirmed)          Associations, Government, Industry Experts                       Ministry of Commerce of Department of Foreign Trade                      Equipment Industry Department, Ministry of Industry and Information Technology           Energy Conservation and Technology Equipment Department,National Energy Administration Energy Research Institute National Development and Reform Commission  Myanmar Oil And Gas Services Society(MOGSS)                The French Oil and Gas Suppliers Association (GEP)    Thomas W. Derry, CEO, Institute for Supply Management (ISM). Anthony Jiang, China Chief Representative, International Supply Chain and Production Operation Association(ISOA)    Barrie Kirkman,Valve Expert,British Valve Actuator Association       David Jacoby,President,Boston Strategies International, Inc.      Chambers Li,Chief Representative, API Cai Jin, Vice President, China Federation of Logistics & Purchasing (CFLP)                     Sui Yongbin,President,China General Machinery Industry Association Zhao Jungui, Vice President and Secretary General, China Petroleum and Chemical Industry Federation Zhao Zhiming,Chief Advisor Professor,(CPEIA) Yang Huizhang,Council Chairman,Jiangsu Association of Petrochemical Equipment Multinational Oil / Petrochemical Companies Procurement Lydia Qin,Purchasing Manager of Strategic Sourcing Development, Shell Abdullah, Head, Quality Management, Aramco Asia Tom Ceynow,Director of Purchasing and Supply Chain Management, BP           Michael Yin, Procurement Manager, BP Joshua Chiaw, Purchasing Director, Asia Pacific, SABIC                  Zeb Feng,Head of Operation Procurement, Greater China, SABIC Maziar Hojjati,China Representative, NIOC          Elishad Nassirov,VP, SOCAR Jiang Junyan,China Country Manager, Petrofac      Michael Poncet, president of global sourcing, Technip Ramit Bajaj, Director – Global Supply Chain, CB&I                  Zainul Asri Jusin,Head, Category Management, PSI,PETRONAS Harry Liu, Director of China Sourcing Hub, Worley   Parsons                                                             Hermanez,Chief Representative, PDVSA Hank Zhang,Purchasing Director,Nabors Drilling                                Zhukov Nicola,Director of Beijing Representative Office, Gazprom Nicolas Lalarme,Purchasing Manager of International Purchasing Office, Total James Zhou，Shared Service Manager，ConocoPhillips China Sourcing and Transaction Center Ivanov,Deputy Chief Representative , Rosneft Beijing Office    Claudio Nicosia Maddaleni,Procurement Manager, YPF S.A. Richard Morrira,Chief Representative, Petrobras Beijing Office Wang Qingshan,Procurement Minister,Toyo Engineering Corporation (China)Henry Cao Zhang Weiqi,Senior Director of Procurement Center(Greater China),BASF Anil Kumar, General Manager - Oil, Equip Engineers India Pvt Ltd.           Ford Trevor,Senior Manager(China Operation),Consolidated Contractors International Co.SRO   Zhao Zhiming,Chief Representative, Beijing office, AMEC Cindy LI,Global Sourcing Manager, Kvaerner                   Fang Min,GM,Dialog Group Asia Acho Ohochukwu, CEO, Northern Oilfield Supplies and Services Ltd. Johnny Liu, Senior Vice President, Taiteck Co.,ltd, Sourcing Center of Taiwan CPC Choi Jinhwan, Purchasing Director, Samsung Engineering Construction (Shanghai) Co.,Ltd. DEEPAK SHINDE, Head-Sourcing(China), LARSEN AND TOUBRO LTD(L&T) Banglin Gu,Head of Procurement,Consolidated Contractors Int'l Company S.A.L Shanghai Representative Office - CCCSRO Domestic Petroleum / Petrochemical / Offshore Enterprises Procurement Lin Guohai,GM of Group Procurement Department,CNOOC             Zhang Enhuai,Bidding Office Director of The Department of Purchasing Management, PetroChina Chi Defeng, Deputy Director of Procurement Department, China National Oil and Gas Exploration and Development Corporation(CNODC) Liu Kun,Procurement Department Imports & Exports, CNPC Li Jing,Deputy Chief Engineer & Director-Supply Chain Dept, Sinopec        Zheng Sheng,Purchasing Director, HQCEC Luo Youan,General Manager, Equipment Management Department, COSL   She Zhihong, Director of Tender Services Office, Procurement and Bidding Center,CNOOC Zhao Huaigang, GM of Purchasing, COOEC Sima Jun,General Manager, China Petroleum Pipeline Material and Equipment Corporation, CNPC            Li Ninghui, Vice Engineer,PetroChina Changqing Oilfield Company Equipment management department Li Famin, Manager,Trading & Logistics Dept., Sinopec International Petroleum Service Corporation Ren Zhizhong, Minister of the Department of Procurement Management,CPECC Wang Xiaofeng, China National Offshore Oil Corp. Yang Dechang,President Assistant and General Manager of Purchasing,Wison Group Fu Fengqin,Purchasing Director,China Kunlun Contracting & EngineeringCorporation Sun Songquan, Deputy General Manager of Purchasing ,Sinopec Engineering Group  Qi Yewen,Asia Pacific Purchasing Director , EvonikChina Investment Qin Lei ,Deputy General Manager, Winfield Oil Services  Xie Quanfu,Purchasing Director, Wuhuan Engineering Co.,Ltd Li Limin, GM of Purchasing, Wanhua Chemical Group     Liang Longhu,Deputy Chief Engineer, Luoyang Petrochemical Engineering Corporation,Sinopec Li Xuemei,Minister of Strategic Planning, Henan Coal Chemical Industry Group  Ren Guoxuan,Purchasing Director, Anton Oil Yin Xuelin,GM, Dalian Shipbuilding Industry Offshore Co., Ltd. Dai Wenkai,Executive Vice President, Shanghai Zhenhua Heavy Industries Co.,Ltd Chen Gang, Deputy GM and Minister of Offshore Engineering,SWS     Yao Teng,GM of Marine Design & Research Institute,CIMC RAFFLES Excellent Suppliers Li Shulin,Vice General manager,Suzhou Douson Drilling & Production Equipment Co., Ltd         Tong Mingyi,General manager,Kerui Group Qin Yaoming,Deputy General Manager,Jiangyin Zhongnan Heavy Industries Co.,Ltd           Zi Jingzhong,Sales General Manager,Yantai Jereh Oilfield Services Group Co.,Ltd Liu Zhigang,GM,CAMERON Zhuo Yucheng,President,SHK Valve Group  Guo Hongxin,Chairman of the board,Sunpower Group    Fu Jingqin,GM,Daming Dai Jishuang,Deputy GM,Shengu Group             Fan Xiaolong, General Manager, System Service Division, Xi'an Shaangu Power Co.,Ltd. Fang Cunzheng,President,Fangzheng Valve Group              Yao Jiong,Deputy General Manager,Neway Valve Group CSSOPE Sourcing List  Company Products in Sourcing Sinopec Oilfield Service Corporation Oil equipment, accessories Dialog Petroleum Technical Service(Beijing)Ltd Steel pipe, valves, wellhead equipment etc SABIC heat exchangers, pressure vessels, towers, reactors, steel model, and bulk materials (valves, fittings etc) Sinopec International Petroleum Service Corporation Upstream exploration materials and equipment CHINA HUANQIU CONTRACTING AND ENGINEERING CORP Project supplies Sinochem Petroleum E & P Co., Ltd Upstream construction and operation equipment, supplies, services Toyo Engineering Corporation(China) Petrochemical, chemical industry related products WorleyParsons China Steel, equipment, piping materials etc SIPC Oilfield equipment and materials China National Oil and Gas Exploration and Development Corporation(CNODC) Oil equipment, pipes, and other refining equipment Shell China sourcing Oil and gas projects supplies, equipment and products China Petroleum Materials Corporation Oil and gas refining and chemical supplies Kvaerner Pressure vessels, structures (such as various brackets, rails, grille, aluminum structure etc), plumbing, electrical instruments, internal outfitting,rope for anchor SINOPEC International Petroleum E&P Corporation Petrochemical materials AMEC China Fittings, flanges, seals and other MRO materials, pipeline, construction equipment, I / E BP (China) Holdings Limited Steel, pipe fittings, valves and other oil supplies Aramco Asia Pipe Lines, OCTGs, Drilling Chemicals, Valves, Pressure Vessels, Cables etc Sinochem Petroleum Exploration & Production Ipstream construction and operation equipment,supplies, services China Petroleum Material & Equipment Corporation, CNPC Steel, pipe fittings, valves, corrosion products, electrical power equipment etc Sinopec Equipment and materials Fluor  Steel, bulk material of electrical instrumentation , cables, polyvinyl fluoride, safety equipment, building decoration, water treatment systems, control panels, generators, lifting machines, cranes, hoses, hose fittings  CNOOC Equipment and materials China Petroleum Engineering&Construction Corporation (CPECC) Oil and gas gathering and transportation, oil and gas processing, long-distance pipelines, offshore engineering, petroleum refining, petrochemical, oil and gas reservoirs and other large projects supplies China Kunlun Contracting&Engineering Corporation Petrochemical, textile and chemical fiber, coal chemical industry, environmental engineering, construction and other project materials Texas First Industrial Corporation Inc Petroleum Machinery, equipment and material Consolidated Contractors International Co.SRO Pipes and valves and other products Heurtey Fittings, valves, refractory Petronas Steel, pipe fittings, valves etc. Husky Oil Operations Ltd Oil and gas projects supplies, equipment and products Black & Veatch Technical / Process Equipments for Floating Liquefied Natural Gas JGC CORPORATION Every kinds of material and equipment for EPC projects Hatch Piping, Valve, Structural Steel, Vessel & Tank, Air Compressor, Pump, Agitator, Transformer, E House, Truck Tank, Diesel Generator, Module, Wellhead, Modular Camp EMPINNOVATIONS Supply Chain Management Company Petrochemicals, drill rigs, Dehydration Plants, Generator sets and Solar Systems CB&I Piping, Electrical, Structural Steel, Engineered Equipment Taiteck Co.,ltd, 1) Blow-out Preventer,  BOP  2) Oil Well Cement , API Class G  3) Solid Expandable Tubulars 4) MWD  5) 8-1/2” & 12-1/4” &  17-1/2”PDC Sinostruct LNG Projects: Equipment, Pipe, Pipe fittings, Valves, Fasteners, Material etc. Statoil ASA 1.Norsok M650 materials   2.Topside package/skid/equipment/pressure vessel  3. Subsea cable   4.Wind foundation/subsea structure  5. Other upstream equipment  COSCO Nantong/Qidong shipyard FPSO Production Module Equipment Northern Oilfield Supplies and Services Ltd. Oil Field equipments,downhole drilling & fishing tools-NMDC,CROSSOVERS,FLOAT SUBS,FLEX JOINTS,STABILIZERS,HWDP,DRILL COLLARS ETC.and OTHERRENTAL EQUIPMENTS. Cnen Tech (Beijing) Energy Technology Co.,Ltd. Equipment for Upstream Drilling, Directional Drilling, Drilling, Downhole Tools, etc. Equip Engineers India Pvt Ltd. Valves, Pumps, Compressors etc for Onshore/Offshore Projects,Fittings, Flanges Pipes etc Chiyoda Corporation Piping Bulk Material, Pressure Vessel, Pump, etc for LNG Plant & Refinery Beijing  EnCryo Engineering Co., Ltd. EPC Engineering of Oil & Gas Industry Suppliers Who Sponsored in the Past Kerui Group Shandong Shengquan Chemical Co Ltd (SQH) Shandong Weima Pumps Manufacturing CO.,LTD. Forenergy Inspection & Consultation CO., LTD. XinTong Intelligence Inc. CCHI AEROSUN Corporation Changzheng Engineering Co., Limited (CECO Hefei Shihua Pipe Fitting Co.,Ltd. Heibei Hongrun Heavy Industry Co Ltd Hebei Hongrun Nuclear Equipment Science and Technology Co., Ltd. HEBEI KAIRUI PIPE AND FITTINGS CORPORATION SHK Valve Group Co.,Ltd. Shanghai Mecco Valve Co.,Ltd ShangHai ShangShang Stainless Steel Pipe Co.,Ltd Shanghai Tian Yang Steel Tube Co.,Ltd. Shanghai Yangli Enterprise Development Co., Ltd. Shanghai Maxmount Special Steel Co., Ltd Shanghai Jorson Petrochem Project Management Co.,Ltd. Focus Global SCM QINGDAO CJ SMART CARGO INTERNATIONAL SERVICES LTD China Sanbora Valve Co.,Ltd Sichuan North Is Oil Technology Co.,Ltd KCON Valve Mfg Co.,Ltd Sichuan Air Separation Group Neway Valve Suzhou Seamless Steel Tube Works Baoji Shoushan Pipe Fittings Co., Ltd. Beijing Aerospace Petrochemical Technology & Equipment Engineering Corporation Beijing HTN Pipeline Equipment Co.,Ltd GO HIGHER eGreatWall Pentair Valves & Controls BEST ENERGY EQUIPMENT (TIANJIN) COMPANY LIMITED Fanqun Drying Equipment Co.,Ltd, Jiangsu LOTOKE valve co.ltd Ledun Tech Jiangyin Zhongnan Heavy Industries Co.,Ltd Lanzhou High Pressure Valve Co. Ltd Lanzhou LS Energy Equip.Int'l Engineering Co.,Ltd. Richform Offshore Limited Liaoning Tianyi Industrial Co.,Ltd LUXI Group CO., LTD. LOTOKE INDUSTRY GROUP Myanmar Embassy Nanjing Maici Titanium Industry Co., Ltd. Suzhou Double Gold Industry Co., Ltd.　 TIX TIANJIN BLZF GROUP CO., LTD. Panjin Economic Development Zone Council QINGDAO CJ SMART CARGO INTERNATIONAL SERVICES LTD Wuxi Chemical Equipment Co.,Ltd Wuxi Yadi Fluid Control Technology Co., Ltd. (Yadi) Wuzhou Valve Co.,Ltd Yantai Jereh Oilfield Services Group Co.,Ltd Yangzhou CHVER Transmission Yingkou Liaohe Pipe Fittings Co., Ltd. Zhejiang Bnjis Stainless Steel Co.,LTD Zhejiang Flowtech Machinery CO.,Ltd. Zhejiang Gross Seamless Steel Tube Co., Ltd. Zhejiang Stellar Pipe Industry Co., Ltd. Zhejiang Tsingshan Steel Pipe Co., Ltd Zhejiang Yongsheng Instrumentation Co.,Ltd Chongqing ChuanYi Control Valve Co.,Ltd. Chongqing Hangxing Networking Co.,Ltd Suzhou Seamless Steel Tube Works Stellarpipe Group Tianjin United Steel Pipe Co.,Ltd Vallourec Wulumuqi Changhui Automatic Meter Co,. Ltd Wuxi Chemical Equipment Co.,Ltd

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Pengenalan Perusahaan fabrikasi boiler

Perusahaan tokomesinku adalah suatu perusahaan cabang dari PT indira dwi mitra yang dimana perusahaan tersebut juga merupakan distributor pembuat mesin penghasil panas uap steam di indonesia yang memiliki kualitas unggul. perusahaan tokomesinku beralamat di tangerang banten tepatnya di kawasan industri laksana park pakuhaji tangerang banten.

perusahaan kami yang bergerak di dunia industri dan pergedungan di indonesia ini memiliki produk unggu seperti, thermal oil heater, hot water boiler, dan steam boiler. selain produk unggul tersebut kita juga melengkapi sparepart untuk perlengkapan mesin tersebut di antaranya, pompa transfer oil mrek KSB, pompa boiler granfos, burner riello produksi italiy, pipa api boiler bersertifikat benteler, control box burner simens, pemantik electrode burner, pompa burner suntec, dan masih banyak lainya. kali ini kita akan membahas pengrtian dari produk unggul kita steam boiler mrek lokal sebagi berikut.

Pengertian dan jenis boiler

ketel uap atau boiler adalah suatu bejana tertutup yang di dalamnya berisi air untuk dipanaskan. Energi panas dari uap air keluaran boiler tersebut selanjutnya digunakan untuk berbagai macam keperluan, seperti untuk turbin uap, pemanas ruangan, pemanas aspalt AMP, pengering kayu,londry perhotelan/ rumahsakit, air hangat kolam renang, dan lain sebagainya. Secara proses konversi energi, boiler memiliki fungsi untuk mengkonversi energi kimia yang tersimpan di dalam bahan bakar menjadi energi panas yang tertransfer ke fluida kerja.

Bejana bertekanan pada boiler umumnya menggunakan bahan baja dengan spesifikasi tertentu yang telah ditentukan dalam standard ASME (The ASME Code Boilers), terutama untuk penggunaan boiler pada industri-industri besar. Dalam sejarah tercatat berbagai macam jenis material digunakan sebagai bahan pembuatan boiler seperti tembaga, kuningan, dan besi cor. Namun bahan-bahan tersebut sudah lama ditinggalkan karena alasan ekonomis dan juga ketahanan material yang sudah tidak sesuai dengan kebutuhan industri.

Panas yang diberikan kepada fluida di dalam boiler berasal dari proses pembakaran dengan berbagai macam jenis bahan bakar yang dapat digunakan, seperti kayu, batubara, solar/minyak bumi, dan gas. Dengan adanya kemajuan teknologi, energi nuklir pun juga digunakan sebagai sumber panas pada boiler.

Beberapa contoh jenis boiler sebagai berikut : 1. Pot Boiler atau (Haycock Boiler)

Merupakan boiler dengan desain paling sederhana dalam sejarah. dengan menggunakan volume air besar tapi hanya bisa memproduksi pada tekanan rendah. Boiler ini menggunakan bahan bakar kayu dan batubara. Boiler jenis ini tidak bertahan lama penggunaannya karena efisiensinya yang sangat rendah.

2. Fire-Tube Boiler (Boiler api dalam pipa)

Pada perkembangan selanjutnya muncul desain dari boiler yakni boiler pipa-api. Boiler ini terdapat 2 bagian di dalamnya, yaitu sisi tube/pipa dan sisi barrel/tong. Pada sisi barrel berisi fluida/air, sedangkan sisi pipa merupakan tempat terjadinya pembakaran. Boiler pipa-api biasanya memiliki kecepatan produksi uap air yang rendah, tetapi memiliki cadangan uap air yang lebih besar.

3. Water-Tube Boiler (Boiler air dalam pipa)

Sama seperti boiler pipa-api, boiler pipa-air juga terdiri atas bagian pipa dan barrel. Tetapi sisi pipa diisi oleh air sedangkan sisi barrel menjadi tempat terjadinya proses pembakaran. Boiler jenis ini memiliki kecepatan yang tinggi dalam memproduksi uap air, tetapi tidak banyak memiliki cadangan uap air di dalamnya.

Berikut artikel yang dapat kita sampaikan semoga bermanfaat dan dapat membantu kebutuhan anda, info marketing bisang langsung hubungi contac di bawah ini. Zaenal Arifin WA. 081385776935

Industrial Energy Efficiency: Productivity Benefits and Trend Solutions

We live in a world that is grappling with problems related to a perpetually increasing population. Oil and gas alongside many other industries are on the receiving end of the effects of the growing global energy demand. The mix of challenges is characterized by volatile prices, stringent regulations and an insatiable demand. Fortunately, enhancing industrial energy efficiency provides the solution by not only reducing energy consumption, but also minimizing waste production. This background is important because ARANER’s solutions promote this agenda. We will see how in the subsequent sections of this article.

ENERGY EFFICIENCY BENEFITS

Industrial energy efficiency has widespread impact, although this is often measured only in terms of greenhouse gas reduction and energy savings. Some indirect benefits on productivity are:

Operation and maintenance savings

Compliance costs avoidance

Capital cost avoidance (both future and immediate)

Increased employee productivity

Increased competitiveness

Creation of jobs and wealth

In our coverage of industries, we come across all forms of clients ranging from small-medium enterprises to large-scale industrial processes. Activities in these areas have potential to realize energy efficiency and affect bottom-line positively.

IDENTIFYING THE WEAK POINTS

All industries face a common challenge: how to improve productivity while reducing energy consumption. As governments enforce tough regulations on emissions and efficiency, the cost of energy is skyrocketing. Without measures to counter the effects of these factors, industries can easily run into losses.

The good thing is that industries with low productivity levels could do more if they manage to counter the factors stalling their progress. Knowing the technical/engineering reasons your firm’s productivity is poor could help you discover solutions for higher returns.

ARANER has a wide range of solutions that not only enhance energy efficiency, but also enhance productivity. Perfect examples are electric motors and variable speed drives. Our motor driven applications only operate at optimum speeds, thus enhancing productivity and energy savings.  For instance, it could be that you are using outdated systems and equipment; hence, the work needed to complete a task is unnecessarily a lot. Talk an ARANER specialist for an audit of your facility.

Figure 1: A Turbine Inlet Air Cooling System

STATE-OF-THE-ART SOLUTIONS

Optimization of manufacturing processes is achieved through installation of trendy technologies coupled with effective and efficient management of the same. To this end, several activities feature including:

Assessment of needs- instrumentation and control

Minimizing temperature and pressure losses

Selecting efficient equipment- drives, motors, pumps and so on

Maintaining energy-efficiency standards

Process modification

APPROACHES TO ENHANCE INDUSTRIAL ENERGY EFFICIENCY

Energy wastage in the industry is often a result of poor process control. Ask any specialist from ARANER; with a more efficient process and process control, an industry can reduce its energy bill by as much as 15%.

When it comes to process utilities, one area that modern solutions can help you check is compressor costs. A simple leak can translate into high cost. That is why leak tests on the network are so important. Modern leak detection equipment is available to make the process as thorough as possible. These solutions are also applicable for the following process activities:

Managing industrial gases

Cooling water to appropriate temperature

Minimizing cooling water flow

Motors and drives offer an excellent opportunity for facilities to realize monumental energy savings. For example, the trend nowadays is to use a variable speed drive (VSD) on motor to control electrical supply. Factories are reducing power requirement for the motor by up to 50% by using this technique. The use of automatic sensors or timers to control pump and fun operation is also growing in popularity.

Boiler and steam management can also help save as much as 30% energy. Improving insulation and enhancing maintenance can go a long way in achieving this. Improving heat recovery is also a recommendable approach. A lot of steam can be lost through leaks so it is important to use the best leak detection methods and repair accordingly.

Industries can also enhance their efficiency by effective use of the furnace. First, check how energy consumption is affected by charging and unloading of the furnace.

ARANER SOLUTION CATEGORIES

Thermal Energy Storage

ARANER’s Thermal Energy Storage (TES) tanks are popular for optimizing industrial operations. A TES tank increases the efficiency of a cooling plant by reducing the required capacity of the plant. It also helps you take advantage of off-peak hours and prices by storing chilled water overnight for use during the day (on-peak hours).

Figure 2: A Stratified Water Storage Tank

Turbine Inlet Air Cooling

Another area is Turbine Inlet Air Cooling, popularly known as TIAC. Use this technology to increase power output without necessarily investing in new gas turbines. TIAC is perfect for power production in hot climates where ambient air temperatures surpass 15 degrees Celsius; in these regions, TIAC technology can enhance capacity by as much as 30%!

District Cooling

ARANER is a provider of cooling solutions for cold storage and processing facilities in the area of District Cooling (DC). DC is an ideal cooling solution for large-scale facilities, from offices and hotels to hospitals and universities. Mega-projects and Smart Cities can also benefit from District Cooling technologies. Apart from increased energy efficiency, this technology offers higher reliability and reduces carbon dioxide emissions.

Industrial Refrigeration

Industrial Refrigeration systems work with compressors, heat exchangers, pumps, and of course a cooling medium (water, air, or a refrigerant). These types of systems are highly prevalent in the District Energy, Food & Beverage, and Pharmaceutical markets, each with their own requirements and technical challenges. ARANER’s Industrial Refrigeration solutions put into practice forward-thinking design options that are customized to the project and location.

Industrial Heat Pumps

Industrial heat pumps from ARANER are designed to optimize performance. Adherence to customer requirement is guaranteed because the process includes current situation analysis to add to product design.

Compression and Absorption Systems

Centrifugal and screw compressors are designed to suit modern industrial requirements, including compliance with API. Absorption chillers are custom-designed for each plant. Because of possible temperature requirements, ARANER offers Br/Li chillers for positive temperatures or ammonia for negative temperatures.

Figure 3: An industrial machine

CONCLUSION

ARANER is committed to promoting industrial energy efficiency for lower operating costs and improved productivity. Industries like Oil & Gas, Electricity Production, and Petrochemicals are best-positioned to take advantage of our solutions. We have the capacity to help you introduce and follow energy-efficient practices.

Customized and advanced industrial cooling solutions, like the ones offered by ARANER, come at a crucial time for the industries mentioned above; the population is increasing, causing greater energy demand, energy prices are volatile, and regulatory bodies are imposing more rules at both the local and international level. Never before has there been a better time to entrust your energy efficiency strategy to a reputable company with a wealth of project experience and technical expertise.

For more information about our District Cooling technologies, download our expert ebook.

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Spesialist Fabrikasi Steam Boiler

Perusahaan spesialist fabrikasi boiler PT INDIRA DWI MITRA adalah perusaaan yang bergerak di bidangnya yaitu fabrikasi boiler dan sekilas akan kita bahas fungsi dan komponen di mesin boiler berikut, Pada dasarnya boiler adalah alat yang berfungsi untuk memanaskan air dengan menggunakan panas dari hasil pembakaran bahan bakar, panas hasil pembakaran selanjutnya panas hasil pembakaran dialirkan ke air sehingga menghasilkan steam (uap air yang memiliki temperatur tinggi). Dari pengertian tersebut berarti kita dapat menyimpulkan bahwa boiler berfungsi untuk memproduksi steam (uap) yang dapat digunakan untuk proses/kebutuhan selanjutnya. Seperti yang kita ketahui bahwa steam dapat digunakan untuk menjaga kinerja suhu dalam kolom destilasi minyak bumi dan proses evaporasi pada evaporator. pada Umumnya bakar yang digunakan untuk memanaskan boiler yaitu batu bara, gas, dan bahan bakar minyak.

Boiler Katel uap Bagian-Bagian Pada Boiler dan Fungsi kerjanya Sama seperti pompa, kompresor dan peralatan pabrik lainnya yang tersusun dari berbagai komponen sehingga alat tersebut dapat beroperasi dan menjalankan perannya. Boiler juga tersusun dari berbagai macam komponen dengan fungsinya masing-masing. Di bawah ini adalah fungsi dari masing-masing komponen pada boiler, yaitu: 1. Tungku Pengapian (Furnace) Bagian(Furnace) ini merupakan tempat terjadinya pembakaran bahan bakar yang akan menjadi sumber panas, proses penerimaan panas oleh media air dilakukan melalui pipa yang telah dialiri air, pipa tersebut menempel pada dinding tungku pembakaran. Proses perpindahan panas pada furnace terjadi dengan tiga cara: >Perpindahan panas secara radiasi, dimana akan terjadi pancaran panas dari api atau gas yang akan menempel pada dinding tube sehingga panas tersebut akan diserap oleh fluida yang mengalir di dalamnya. >Perpindahan panas secara konduksi, panas mengalir melalui hantaran dari sisi pipa yang menerima panas kedalam sisi pipa yang memberi panas pada air. >Perpindahan panas secara konveksi. panas yang terjadi dengan singgungan molekul-molekul air sehingga panas akan menyebar kesetiap aliran air. Di dalam furnace, ruang bakar terbagi atas dua bagian yaitu ruang pertama dan ruang kedua. Pada ruang pertama, di dalamnya akan tejadi pemanasan langsung dari sumber panas yang diterima oleh tube (pipa), sedangkan pada ruang kedua yang terdapat pada bagian atas, panas yang diterima berasal dari udara panas hasil pembakaran dari ruang pertama. Jadi, fungsi dari ruang pemanas kedua ini yakni untuk menyerap panas yang terbuang dari ruang pemanasan pertama, agar energi panas yang terbuang secara cuma-cuma tidak terlalu besar, dan untuk mengontrol panas fluida yang telah dipanaskan pada ruang pertama agar tidak mengalami penurunan panas secara berlebihan. 2. Steam Drum Steam drum berfungsi sebagai tempat penampungan air panas serta tempat terbentuknya uap. Drum ini menampung uap jenuh (saturated steam) beserta air dengan perbandingan antara 50% air dan 50% uap. untuk menghindari agar air tidak terbawa oleh uap, maka dipasangi sekat-sekat, air yang memiliki suhu rendah akan turun ke bawah dan air yang bersuhu tinggi akan naik ke atas dan kemudian menguap. 3. Superheater Merupakan tempat pengeringan steam, dikarenakan uap yang berasal dari steam drum masih dalam keadaan basah sehingga belum dapat digunakan. Proses pemanasan lanjutan menggunakan superheater pipe yang dipanaskan dengan suhu 260°C sampai 350°C. Dengan suhu tersebut, uap akan menjadi kering dan dapat digunakan untuk menggerakkan turbin maupun untuk keperluan peralatan lain. 4. Air Heater Komponen ini merupakan alat yang berfungsi untuk memanaskan udara yang digunakan untuk menghembus/meniup bahan bakar agar dapat terbakar sempurna. Udara yang akan dihembuskan, sebelum melewati air heater memiliki suhu yang sama dengan suhu udara normal (suhu luar) yaitu 38°C. Namun, setelah melalui air heater, suhunya udara tersebut akan meningkat menjadi 230°C sehingga sudah dapat digunakan untuk menghilangkan kandungan air yang terkandung didalamnya karena uap air dapat menganggu proses pembakaran. 5. Dust Collector (Pengumpul Abu) Bagian ini berfungsi untuk menangkap atau mengumpulkan abu yang berada pada aliran pembakaran hingga debu yang terikut dalam gas buang. Keuntungan menggunakan alat ini adalah gas hasil pembakaran yang dibuang ke udara bebas dari kandungan debu. Alasannya tidak lain karena debu dapat mencemari udara di lingkungan sekitar, serta bertujuan untuk mengurangi kemungkinan terjadinya kerusakan pada alat akibat adanya gesekan abu maupun pasir. 6. Pengatur Pembuangan Gas Bekas Asap dari ruang pembakaran dihisap oleh blower IDF (Induced Draft Fan) melalui dust collector selanjutnya akan dibuang melalui cerobong asap. Damper pengatur gas asap diatur terlebih dahulu sesuai kebutuhan sebelum IDF dinyalakan, karena semakin besar damper dibuka maka akan semakin besar isapan yang akan terjadi dari dalam tungku. 7. Safety Valve (Katup pengaman) Alat ini berfungsi untuk membuang uap apabila tekanan uap telah melebihi batas yang telah ditentukan. Katup ini terdiri dari dua jenis, yaitu katup pengaman uap basah dan katup pengaman uap kering. Safety valve ini dapat diatur sesuai dengan aspek maksimum yang telah ditentukan. Pada uap basah biasanya diatur pada tekanan 21 kg per cm kuadrat, sedangkan untuk katup pengaman uap kering diatur pada tekanan 20,5 kg per cm kuadrat. 8. Gelas Penduga (Sight Glass) Gelas penduga dipasang pada drum bagian atas yang berfungsi untuk mengetahui ketinggian air di dalam drum. Tujuannya adalah untuk memudahkan pengontrolan ketinggian air dalam ketel selama boiler sedang beroperasi. Gelas penduga ini harus dicuci secara berkala untuk menghindari terjadinya penyumbatan yang membuat level air tidak dapat dibaca. 9. Pembuangan Air Ketel Komponen boiler ini berfungsi untuk membuang air dalam drum bagian atas. Pembuangan air dilakukan bila terdapat zat-zat yang tidak dapat terlarut, contoh sederhananya ialah munculnya busa yang dapat menganggu pengamatan terhadap gelas penduga. Untuk mengeluarkan air dari dalam drum, digunakan blowdown valve yang terpasang pada drum atas, katup ini bekerja bila jumlah busa sudah melewati batas yang telah ditentukan. Perusahaan Boiler PT. INDIRA DWI MITRA merupakan perusahaan yang bergerak dalam fabrikasi steam Boiler dan Thermal oil Heater di Indonesia. Produk kami meliputi jual steamb boiler, hot water boiler, thermal oil heater untuk marine kapal tanker dan berbagai Industri lainnya. Kami  juga menyediakan sparepart boiler seperti : Jual Burner Riello Italiy, jual pump oil KSB, pump KSB etanorm syt, dan sprepart industriy lainya. PT. INDIRA DWI MITRA Jl.Dewi Sartika, Lebakwangi, Kec. Sepatan Timur, Tangerang – Banten 155200 Wahyudin Tlpon : (021) 2225 9400 Tlpon : (021) 59371687 Phone: 0895328702165 Email : [email protected] Read the full article

PIPE STRESS ANALYSIS Services

Meena Rezkallah (Owner) started his career in consulting engineering firms in 2009 and began carrying out pipe stress analysis (PSA) using Caesar II (Intergraph) software in 2009. Meena Rezkallah started instructing other engineers in pipe stress analysis courses and piping design courses in Calgary, Alberta, Canada.  Meena Rezkallah has both managed and carried out pipe stress analysis / pipe designs and Structural Engineering on a large number of projects since 2009.

TASKS WE CAN BE PERFORM:

B31 and Z662 Code stress checks (SUS, EXP, OCC stresses)

Displacements, forces & moments on piping, restraints and boundary conditions

WRC 107/297 calculations (if critical loading, FEA is recommended)

SIF’s at Intersections and Bends (FE Pipe recommended in certain applications)

Flexibility at intersections (tees, trunnions, nozzles) – (FEA recommended)

Trunnion supports at pipes and elbows (Kellogg calculation or FEA)

Spring hanger selection

Expansion joint selection (if pipe expansion loop is not possible or not reasonable) and ratings check

Flange stress checks using the equivalent pressure method (very conservative for lower class flanges)

wind, seismic, pressure relief discharge, water hammer (static analysis)

natural frequencies, harmonic effects, relief discharge, slug flow, water hammer (dynamic analysis)

buried piping

NOZZLE LOAD COMPLIANCE CHECKS USING THE FOLLOWING STANDARDS:

NEMA SM-23 (Steam Turbines)

API-610 (Centrifugal Pumps)

API 616 (Gas Turbines)

API-661 (Air Cooled Heat Exchangers)

API-560 (Fired Heaters)

HEI Standard (Heat Exchanger Institute)

Nozzle loads based on manufacturer recommended allowables

PIPE STRESS ANALYSIS METHODOLOGY

If we verify that the stresses or nozzle loads do not pass, then we recommend the options available for the system to pass.  We issue a report for every project which summarizes the analysis in an easy to read format, and includes 3D plots, node identification, nozzle load tables (if applicable) and includes the Caesar II software output indicating pipe displacements, loads and stresses, as well as restraint loads.

Located in Calgary Alberta, We offer our Piping Engineering Services, Skid Design Services, Pipeline Engineering Services and Structural Engineering Services across Canada. To get our Piping Stress Analysis Services, please contact our Engineering company.

Our professional piping stress engineers have a bachelor's and Masters degree in mechanical / structural engineering and province license (P.Eng.) in Alberta, Saskatchewan, British Columbia and Ontario. We review, validate, certify and stamp piping and structural packages. Also check Industries We Serve: 

· Steel and Metals Industry

· Energy and Power Generation Industry

· Water and Wastewater Industry

· Oil & Gas Industry

· Chemicals and Plastics Industry

· Pulp & Paper Industry

· Facility Services