Keech Castings, a leading industrial products company founded in 1934, announced a plan to expand its international distribution network in 2019. The company produces wear protection and industrial solutions used in mining, rail, and defense industries. In 2019, Keech Castings will appoint new distributors in key regions like South America, Africa, North America, Papua New Guinea, and Southeast Asia, in addition to expanding in the Australian market. The distribution expansion will help Keech Castings further penetrate markets with its high-quality, innovative products and ensure a reliable supply chain through its own manufacturing facilities.
The MEP Group is a leading company in rebar equipment manufacturing and resistance welding technology. Machinery Indents is proud to be the Australasian agent of the MEP Group, supplying all of the MEP machinery range. Machinery Indents is an Australian owned and run company, established in 2005.
KREA company presentation
We are Manufacturer/Exporter company.
Our core business is welding (MAG,TIG), laser cutting and sheet metal fabrication.
We are fabricating Hydraulic Oil Reservoirs, Frames, Compactor and Excavator parts, Burner casings, Feed hoppers, Welding cabins, welding robot platforms, conveyor parts.
We have lot of references in European countries.
We are ready to serve you our best labor cost, quality and short delivery time.
Please do not hesitate to contact me for your any kind of inquiry.
A leading producer of PCB tools based in Himalayan foothills in India, was set up in 1987 in technical and financial collaboration with SPHINX WERKE MULLER A.G., Switzerland, Europe.
Launched another brand of tools AXIS - tools for micro machining in 2004
We offer a complete line of Fittings Manufacturer with different facilities and services. These are made of affordable and durable material in different applications.
Martin Cox - Directional Drilling - technology, development and achievements ...MiningInstitute
This document provides an overview of the history and development of directional drilling technology from the early oil industry in the late 19th century through modern applications. Key developments include the introduction of rotary drilling, downhole motors to enable steering while drilling, measurement-while-drilling tools for continuous well surveying, and rotary steerable systems that allow extended reach drilling up to 15-18km while continuously rotating drill pipe. These advancements have enabled greater access to reservoirs and reduced environmental impacts from offshore oil and gas development.
This document provides definitions and information about directional drilling. It discusses the applications of directional drilling including its history and typical uses. It describes the main deflection tools used like whipstocks, jetting bits, and bent subs with mud motors. It also explains the two main types of mud motors - turbines and positive displacement motors. Finally, it outlines the three main types of well profiles: Type I or "build and hold", Type II "build, hold, and drop", and Type III "continuous build".
Investing in the Secret to Shale DrillingTyler Crowe
The US shale oil boom has significantly increased domestic oil production since 2008, with another 1.5 million barrels per day expected by 2020. The key driver of this success has been increased use of proppant, mainly sand, during hydraulic fracturing. Proppant use per well has grown dramatically in recent years, and proppant demand is forecast to increase over 10% annually for the next decade. Several companies have grown to dominate the proppant market, including US Silica Holdings, Hi-Crush Partners, and Emerge Energy Services for sand, and Carbo Ceramics for ceramic proppant. With continued growth in proppant use and stable long-term contracts, these companies are well positioned to
Keech Castings, a leading industrial products company founded in 1934, announced a plan to expand its international distribution network in 2019. The company produces wear protection and industrial solutions used in mining, rail, and defense industries. In 2019, Keech Castings will appoint new distributors in key regions like South America, Africa, North America, Papua New Guinea, and Southeast Asia, in addition to expanding in the Australian market. The distribution expansion will help Keech Castings further penetrate markets with its high-quality, innovative products and ensure a reliable supply chain through its own manufacturing facilities.
The MEP Group is a leading company in rebar equipment manufacturing and resistance welding technology. Machinery Indents is proud to be the Australasian agent of the MEP Group, supplying all of the MEP machinery range. Machinery Indents is an Australian owned and run company, established in 2005.
KREA company presentation
We are Manufacturer/Exporter company.
Our core business is welding (MAG,TIG), laser cutting and sheet metal fabrication.
We are fabricating Hydraulic Oil Reservoirs, Frames, Compactor and Excavator parts, Burner casings, Feed hoppers, Welding cabins, welding robot platforms, conveyor parts.
We have lot of references in European countries.
We are ready to serve you our best labor cost, quality and short delivery time.
Please do not hesitate to contact me for your any kind of inquiry.
A leading producer of PCB tools based in Himalayan foothills in India, was set up in 1987 in technical and financial collaboration with SPHINX WERKE MULLER A.G., Switzerland, Europe.
Launched another brand of tools AXIS - tools for micro machining in 2004
We offer a complete line of Fittings Manufacturer with different facilities and services. These are made of affordable and durable material in different applications.
Martin Cox - Directional Drilling - technology, development and achievements ...MiningInstitute
This document provides an overview of the history and development of directional drilling technology from the early oil industry in the late 19th century through modern applications. Key developments include the introduction of rotary drilling, downhole motors to enable steering while drilling, measurement-while-drilling tools for continuous well surveying, and rotary steerable systems that allow extended reach drilling up to 15-18km while continuously rotating drill pipe. These advancements have enabled greater access to reservoirs and reduced environmental impacts from offshore oil and gas development.
This document provides definitions and information about directional drilling. It discusses the applications of directional drilling including its history and typical uses. It describes the main deflection tools used like whipstocks, jetting bits, and bent subs with mud motors. It also explains the two main types of mud motors - turbines and positive displacement motors. Finally, it outlines the three main types of well profiles: Type I or "build and hold", Type II "build, hold, and drop", and Type III "continuous build".
Investing in the Secret to Shale DrillingTyler Crowe
The US shale oil boom has significantly increased domestic oil production since 2008, with another 1.5 million barrels per day expected by 2020. The key driver of this success has been increased use of proppant, mainly sand, during hydraulic fracturing. Proppant use per well has grown dramatically in recent years, and proppant demand is forecast to increase over 10% annually for the next decade. Several companies have grown to dominate the proppant market, including US Silica Holdings, Hi-Crush Partners, and Emerge Energy Services for sand, and Carbo Ceramics for ceramic proppant. With continued growth in proppant use and stable long-term contracts, these companies are well positioned to
Revolution Rotary Steerable OperationsRobert Smith
Robert Smith completed training requirements for Weatherford International's Revolution Rotary Steerable Operations from June 9-13, 2014 in Texas, USA. He was awarded a certificate in recognition of achieving the training and committing to providing excellent customer service in the oil industry. The certificate was issued by Arnold Frinks, the Global Director of Learning and Development at Weatherford International.
EOS DMLS Client APS Technology optimizes the design of a rotary steerable sys...Machine Tool Systems Inc.
Please find attached a case study about the production of oilfield drilling equipment. By using the EOSINT M 280 the American company APS Technology was able to optimize the design of a rotary steerable system which increased the drilling accuracy and reduced post-processing and production costs.
The document discusses the environmental impacts of offshore oil drilling and oil spills. It describes the multi-step process of locating and drilling for offshore oil reserves, which includes seismic surveying that uses sound waves to map underground resources but can harm marine mammals. Offshore drilling produces toxic waste waters and cuttings that pollute the environment. Major oil spills like the Deepwater Horizon and Exxon Valdez disasters caused widespread damage to wildlife like birds, sea turtles, and marine mammals from oil coating and ingestion. Oil pollution has long-lasting impacts by persisting in the environment and disrupting food webs.
The document discusses different types of drilling rigs and factors for selecting a rig. It outlines various land and offshore rigs, including conventional land rigs, mobile land rigs, inland barge rigs, posted barge rigs, submersible rigs, fixed jacket rigs, and drill ships. Key factors for selecting a rig include the surface location, maximum hole depth, horsepower requirements, cost, and availability. Offshore rigs like submersible rigs can work in water depths from 18 to 70 feet, while drill ships are used for the deepest water depths of over 2500 meters.
The document provides details about basic mud logging and rig components for both land and offshore rigs. It describes key rig components like the derrick, rotary table, blowout preventers, drill strings, and rig personnel. It also outlines different types of offshore rigs including jack-up rigs, semi-submersibles, drill ships, and platform rigs as well as their advantages and disadvantages.
This document discusses directional drilling techniques and their applications. It begins by defining directional drilling as deflecting a wellbore in a specified direction to reach a target below the surface. It then lists several applications of directional drilling including drilling multiple wells from a single location, drilling in inaccessible locations, avoiding geological problems, sidetracking, relief well drilling, and horizontal drilling. The document also discusses directional drilling applications in mining, construction, and geothermal engineering. It provides details on well profiles, azimuth and quadrants, horizontal well types, and directional drilling assemblies for building angle and holding angle.
This document discusses various techniques for directional drilling, including whipstocks, downhole motors, and steerable bottom hole assemblies. It provides details on running procedures for open hole and casing whipstocks. Downhole motors use bent subs or housing to create deflection, with adjustable bent subs allowing control of deflection from surface. Later techniques include steerable bottom hole assemblies with multiple bends or offset stabilizers to allow drilling the build section and constant angle zone with one tool.
Drilling technology has evolved considerably over the past 150 years. There are now over 650 mobile offshore drilling units worldwide that can drill in water depths over 12,000 feet. Different types of offshore drilling rigs include semi-submersibles and jack-up rigs anchored to the seafloor. Drilling operations involve careful planning to identify locations where hydrocarbons are likely to exist based on geological and geophysical data collection methods.
Functions of drilling rig components PresentationThanos Paraschos
Drilling rigs are complex assemblies of equipment used to create boreholes, typically for natural gas or oil extraction. A typical rig requires 50-75 people and 35-45 trucks to assemble and operate. Rigs can drill wells over 10,000 feet deep and operate continuously for up to a year. Key components include the derrick, kelly, drill pipe, drill bit, casing, blowout preventer, and mud systems. Alternative deep drilling technologies using methods like water jets or lasers are being researched as promising ways to drill deeper more efficiently.
This document discusses the design of drillstrings and bottom hole assemblies (BHAs). It covers the components of drillstrings including drill pipe, drill collars, heavy weight drill pipe, and stabilizers. It also discusses BHA configurations and the purpose and components of BHAs. The document provides information on selecting drill collars and drill pipe grades. It covers criteria for drillstring design including collapse pressure, tension loading, and dogleg severity analysis.
Torque and Drag: Concepts that Every Drilling and Completion Engineer Should ...pvisoftware
This white paper talks about torque and drag concepts that every drilling and completion engineer should know. With TADPRO, the risks associated with drilling and completing a well can be assessed and much of the risk can be remediated during pre-job planning.
Bodycote coatings are used extensively in the Oil & Gas Industry. The centre schematic shows the types of components and where they're located within the industry structure.
1. Dicomol is a plastic molding company that has been operating for over 30 years, specializing in design, manufacturing, repair, and maintenance of plastic injection molds.
2. They have extensive experience and capabilities, including lasers welding, CNC machining, mold modifications, and production of parts.
3. Dicomol serves various industries such as automotive, appliances, IT, electrical, packaging, and more, with high-quality molds and services.
Hydratech Industries designs and manufactures hydraulic cylinders and accumulators for motion compensation applications in offshore oil and gas industries. They specialize in custom cylinders from concept to completion, with bores up to 30 inches and strokes up to 60 feet. Hydratech focuses on quality, safety, and meeting customers' specific needs through innovative sealing and surface technologies to protect cylinders in harsh marine environments.
Rope Access Presentation from Abfad Limited, World Leaders in Rope Access Tec...The Images Group
Presentation prepared by Glass Frog for Abfad Limited for a presentation to a major international engineering company. The presentation covers the many Rope Access Projects undertaken by the company on a worldwide stage.
IBC Coatings Technologies, Inc. provides advanced surface treatments for components requiring wear and corrosion resistance using innovative low-pressure plasma and thermo-chemical reaction processes. Since being founded in 1996, IBC has grown to over 70 employees and 80,000 square feet of operating space in Lebanon, IN and a joint venture in Ontario, Canada. IBC serves customers across multiple industries, customizing surface treatments for each component's specific needs.
The presentation summarized the key points regarding ISO 23875:2021 W/Amendment 1:2022 as a path to protect workers from respirable crystalline silica (RCS). Prolonged exposure to RCS can cause serious pulmonary diseases. The standard establishes performance metrics for enclosed operator cabs, including maintaining defined CO2 levels, ensuring recirculation efficiency, increasing filter efficiency, and real-time operator cab monitoring. Adoption of the standard addresses overexposure concerns and provides a comprehensive solution for new cabs, retrofits, testing, and certification. It was urged that India adopt ISO 23875 standards to promote worker health and safety.
In 1969 Flame Spray was established as the first Italian job shop to actively
promote Thermal Spray coating technologies and activities.
Today it is an international benchmark for applications in these markets:
Energy, Oil & Gas, Printing, Steel, Transport, Aerospace.
Beyond Thermal Spray, Diffusion coatings, Slurry coatings, Cladding and Welding
are today commonly applied processes at Flame Spray.
The Company’s well established know how is developed daily in the research
and production center of Roncello (Italy) and also in the excellence production sites
of Montefino (Italy), Szada (Hungary), Varazdin (Croatia) and Fountain Inn (USA)
The new Shop in the Shop sited in Morra de Sanctis (Avellino), in partnership with Ema (Rolls Royce Group), will be the key of success in the Aeronautic market.
Anodising Industries is a protective coating specialist located in Auckland, New Zealand that has been in business since 1987. They provide decorative and industrial anodising coatings for aluminum. They specialize in anodising small componentry and will customize their processes to meet customer needs. They recommend discussing material grades and anodising requirements with customers prior to production to ensure specifications are met.
Norton has developed a complete range of abrasives specifically designed for the manufacture and repair of upstream, midstream and downstream components, shipbuilding, oil rigs, pipelines, and petrochemical plants.
The document provides instructions for removing and installing a fuel priming pump and fuel filter base on a Caterpillar C9 industrial engine. Key steps include:
- Removing bolts and washers to access the fuel priming pump and fuel filter base.
- Installing new gaskets and repositioning parts, then replacing bolts and washers.
- Purging air from the fuel system after installing the fuel priming pump.
- Using specialty tools like a strap wrench to remove the fuel filter and disconnect hoses before removing bolts to access the fuel filter base.
- Reconnecting hoses and bolts, installing a new fuel filter, and priming the fuel system
Revolution Rotary Steerable OperationsRobert Smith
Robert Smith completed training requirements for Weatherford International's Revolution Rotary Steerable Operations from June 9-13, 2014 in Texas, USA. He was awarded a certificate in recognition of achieving the training and committing to providing excellent customer service in the oil industry. The certificate was issued by Arnold Frinks, the Global Director of Learning and Development at Weatherford International.
EOS DMLS Client APS Technology optimizes the design of a rotary steerable sys...Machine Tool Systems Inc.
Please find attached a case study about the production of oilfield drilling equipment. By using the EOSINT M 280 the American company APS Technology was able to optimize the design of a rotary steerable system which increased the drilling accuracy and reduced post-processing and production costs.
The document discusses the environmental impacts of offshore oil drilling and oil spills. It describes the multi-step process of locating and drilling for offshore oil reserves, which includes seismic surveying that uses sound waves to map underground resources but can harm marine mammals. Offshore drilling produces toxic waste waters and cuttings that pollute the environment. Major oil spills like the Deepwater Horizon and Exxon Valdez disasters caused widespread damage to wildlife like birds, sea turtles, and marine mammals from oil coating and ingestion. Oil pollution has long-lasting impacts by persisting in the environment and disrupting food webs.
The document discusses different types of drilling rigs and factors for selecting a rig. It outlines various land and offshore rigs, including conventional land rigs, mobile land rigs, inland barge rigs, posted barge rigs, submersible rigs, fixed jacket rigs, and drill ships. Key factors for selecting a rig include the surface location, maximum hole depth, horsepower requirements, cost, and availability. Offshore rigs like submersible rigs can work in water depths from 18 to 70 feet, while drill ships are used for the deepest water depths of over 2500 meters.
The document provides details about basic mud logging and rig components for both land and offshore rigs. It describes key rig components like the derrick, rotary table, blowout preventers, drill strings, and rig personnel. It also outlines different types of offshore rigs including jack-up rigs, semi-submersibles, drill ships, and platform rigs as well as their advantages and disadvantages.
This document discusses directional drilling techniques and their applications. It begins by defining directional drilling as deflecting a wellbore in a specified direction to reach a target below the surface. It then lists several applications of directional drilling including drilling multiple wells from a single location, drilling in inaccessible locations, avoiding geological problems, sidetracking, relief well drilling, and horizontal drilling. The document also discusses directional drilling applications in mining, construction, and geothermal engineering. It provides details on well profiles, azimuth and quadrants, horizontal well types, and directional drilling assemblies for building angle and holding angle.
This document discusses various techniques for directional drilling, including whipstocks, downhole motors, and steerable bottom hole assemblies. It provides details on running procedures for open hole and casing whipstocks. Downhole motors use bent subs or housing to create deflection, with adjustable bent subs allowing control of deflection from surface. Later techniques include steerable bottom hole assemblies with multiple bends or offset stabilizers to allow drilling the build section and constant angle zone with one tool.
Drilling technology has evolved considerably over the past 150 years. There are now over 650 mobile offshore drilling units worldwide that can drill in water depths over 12,000 feet. Different types of offshore drilling rigs include semi-submersibles and jack-up rigs anchored to the seafloor. Drilling operations involve careful planning to identify locations where hydrocarbons are likely to exist based on geological and geophysical data collection methods.
Functions of drilling rig components PresentationThanos Paraschos
Drilling rigs are complex assemblies of equipment used to create boreholes, typically for natural gas or oil extraction. A typical rig requires 50-75 people and 35-45 trucks to assemble and operate. Rigs can drill wells over 10,000 feet deep and operate continuously for up to a year. Key components include the derrick, kelly, drill pipe, drill bit, casing, blowout preventer, and mud systems. Alternative deep drilling technologies using methods like water jets or lasers are being researched as promising ways to drill deeper more efficiently.
This document discusses the design of drillstrings and bottom hole assemblies (BHAs). It covers the components of drillstrings including drill pipe, drill collars, heavy weight drill pipe, and stabilizers. It also discusses BHA configurations and the purpose and components of BHAs. The document provides information on selecting drill collars and drill pipe grades. It covers criteria for drillstring design including collapse pressure, tension loading, and dogleg severity analysis.
Torque and Drag: Concepts that Every Drilling and Completion Engineer Should ...pvisoftware
This white paper talks about torque and drag concepts that every drilling and completion engineer should know. With TADPRO, the risks associated with drilling and completing a well can be assessed and much of the risk can be remediated during pre-job planning.
Bodycote coatings are used extensively in the Oil & Gas Industry. The centre schematic shows the types of components and where they're located within the industry structure.
1. Dicomol is a plastic molding company that has been operating for over 30 years, specializing in design, manufacturing, repair, and maintenance of plastic injection molds.
2. They have extensive experience and capabilities, including lasers welding, CNC machining, mold modifications, and production of parts.
3. Dicomol serves various industries such as automotive, appliances, IT, electrical, packaging, and more, with high-quality molds and services.
Hydratech Industries designs and manufactures hydraulic cylinders and accumulators for motion compensation applications in offshore oil and gas industries. They specialize in custom cylinders from concept to completion, with bores up to 30 inches and strokes up to 60 feet. Hydratech focuses on quality, safety, and meeting customers' specific needs through innovative sealing and surface technologies to protect cylinders in harsh marine environments.
Rope Access Presentation from Abfad Limited, World Leaders in Rope Access Tec...The Images Group
Presentation prepared by Glass Frog for Abfad Limited for a presentation to a major international engineering company. The presentation covers the many Rope Access Projects undertaken by the company on a worldwide stage.
IBC Coatings Technologies, Inc. provides advanced surface treatments for components requiring wear and corrosion resistance using innovative low-pressure plasma and thermo-chemical reaction processes. Since being founded in 1996, IBC has grown to over 70 employees and 80,000 square feet of operating space in Lebanon, IN and a joint venture in Ontario, Canada. IBC serves customers across multiple industries, customizing surface treatments for each component's specific needs.
The presentation summarized the key points regarding ISO 23875:2021 W/Amendment 1:2022 as a path to protect workers from respirable crystalline silica (RCS). Prolonged exposure to RCS can cause serious pulmonary diseases. The standard establishes performance metrics for enclosed operator cabs, including maintaining defined CO2 levels, ensuring recirculation efficiency, increasing filter efficiency, and real-time operator cab monitoring. Adoption of the standard addresses overexposure concerns and provides a comprehensive solution for new cabs, retrofits, testing, and certification. It was urged that India adopt ISO 23875 standards to promote worker health and safety.
In 1969 Flame Spray was established as the first Italian job shop to actively
promote Thermal Spray coating technologies and activities.
Today it is an international benchmark for applications in these markets:
Energy, Oil & Gas, Printing, Steel, Transport, Aerospace.
Beyond Thermal Spray, Diffusion coatings, Slurry coatings, Cladding and Welding
are today commonly applied processes at Flame Spray.
The Company’s well established know how is developed daily in the research
and production center of Roncello (Italy) and also in the excellence production sites
of Montefino (Italy), Szada (Hungary), Varazdin (Croatia) and Fountain Inn (USA)
The new Shop in the Shop sited in Morra de Sanctis (Avellino), in partnership with Ema (Rolls Royce Group), will be the key of success in the Aeronautic market.
Anodising Industries is a protective coating specialist located in Auckland, New Zealand that has been in business since 1987. They provide decorative and industrial anodising coatings for aluminum. They specialize in anodising small componentry and will customize their processes to meet customer needs. They recommend discussing material grades and anodising requirements with customers prior to production to ensure specifications are met.
Norton has developed a complete range of abrasives specifically designed for the manufacture and repair of upstream, midstream and downstream components, shipbuilding, oil rigs, pipelines, and petrochemical plants.
The document provides instructions for removing and installing a fuel priming pump and fuel filter base on a Caterpillar C9 industrial engine. Key steps include:
- Removing bolts and washers to access the fuel priming pump and fuel filter base.
- Installing new gaskets and repositioning parts, then replacing bolts and washers.
- Purging air from the fuel system after installing the fuel priming pump.
- Using specialty tools like a strap wrench to remove the fuel filter and disconnect hoses before removing bolts to access the fuel filter base.
- Reconnecting hoses and bolts, installing a new fuel filter, and priming the fuel system
This document provides instructions for removing and installing various fuel system components on a Caterpillar C9 Industrial Engine, including:
- Removing and installing the fuel priming pump
- Removing and installing the fuel filter base
- Removing a unit injector from the engine cylinder head
The procedures describe draining fluids, using specialty tools to remove and install parts, cleaning components, lubricating seals, and torquing bolts to the specified values. Technicians are advised to take precautions to prevent spills and contamination when working on the fuel system.
This document provides instructions for removing and installing various fuel system components on a Caterpillar C9 Industrial Engine, including:
- Removing and installing the fuel priming pump
- Removing and installing the fuel filter base
- Removing a unit injector from the engine cylinder head
The procedures describe draining fluids, using specialty tools to remove and install parts, cleaning components, lubricating seals, and torquing bolts to the specified values. Technicians are advised to take precautions to prevent spills and contamination when working on the fuel system.
This document provides instructions for removing and installing various fuel system components on a Caterpillar C9 Industrial Engine, including:
- Removing and installing the fuel priming pump
- Removing and installing the fuel filter base
- Removing a unit injector from the engine cylinder head
The procedures describe draining fluids, using specialty tools to remove and install parts, cleaning components, lubricating seals, and torquing bolts to the specified values. Technicians are advised to take precautions to prevent spills and contamination when working on the fuel system.
This document provides instructions for removing and installing various fuel system components on a Caterpillar C9 Industrial Engine, including:
- Removing and installing the fuel priming pump
- Removing and installing the fuel filter base
- Removing a unit injector from the engine cylinder head
The procedures describe draining fluids, using specialty tools to remove and install parts, cleaning components, lubricating seals, and torquing bolts to the specified values. Technicians are advised to take precautions to prevent spills and contamination when working on the fuel system.
The document provides instructions for removing and installing a fuel priming pump and fuel filter base on a Caterpillar C9 industrial engine. Key steps include:
- Removing bolts and washers to access the fuel priming pump and remove it from the fuel filter base.
- Disconnecting hoses and sensors before removing bolts to remove the fuel filter base.
- Cleaning parts and installing new seals before reinstalling components in reverse order.
- Purging air from the fuel system after reinstallation.
The document provides instructions for removing and installing a fuel priming pump and fuel filter base on a Caterpillar C9 industrial engine. Key steps include:
- Removing bolts and washers to access the fuel priming pump and remove it from the fuel filter base.
- Disconnecting hoses and sensors before removing bolts to access the fuel filter base.
- Reinstalling by reversing the removal steps, reconnecting hoses and sensors, and priming the fuel system.
The document also provides instructions for removing and installing a unit injector, including disconnecting electrical connectors, removing mounting bolts, and using special tools to access and remove the injector without damage. Reinstallation involves
This document provides instructions for removing and installing various fuel system components on a Caterpillar C9 Industrial Engine, including:
- Removing and installing the fuel priming pump
- Removing and installing the fuel filter base
- Removing a unit injector from the cylinder head
The procedures describe draining fluids, removing bolts and hoses, cleaning parts, replacing seals, and torquing fasteners to the specified values. Special tools are listed for many of the removal and installation steps.
The document provides instructions for removing and installing a fuel priming pump and fuel filter base on a Caterpillar C9 industrial engine. Key steps include:
- Removing bolts and washers to access the fuel priming pump and remove it from the fuel filter base.
- Disconnecting hoses and sensors before removing bolts to access the fuel filter base.
- Cleaning parts and ensuring proper installation of gaskets and components.
- Reconnecting hoses and sensors before priming the fuel system after installation.
This document provides instructions for removing and installing various fuel system components on a Caterpillar C9 Industrial Engine, including:
- Removing and installing the fuel priming pump
- Removing and installing the fuel filter base
- Removing a unit injector from the engine cylinder head
The procedures describe draining fluids, using specialty tools to remove and install parts, cleaning components, lubricating seals, and torquing bolts to the specified values. Technicians are advised to take precautions to prevent spills and contamination when working on the fuel system.
Clean Seal, Inc. is a manufacturer and distributor of extruded rubber and plastic seals, springs, hose, molded products, and trim moldings located in South Bend, Indiana. Founded in 1978, Clean Seal serves hundreds of industries and prides itself on its technical expertise, large inventory, and ability to ship stock items quickly. Clean Seal focuses on continuous innovation and lean manufacturing to provide custom solutions and meet customers' sealing and insulation needs.
Bodycote provides coating solutions for the aerospace and defense industries to improve components' resistance to wear, corrosion, and extreme operating environments. For over 30 years, leading aerospace companies have trusted Bodycote to apply thermal spray, ceramic, and carbide coatings to critical components. Bodycote's international network of facilities holds numerous quality certifications and coatings are tested to meet stringent industry standards.
Bodycote is a leading supplier of coatings for gates and seats used in subsea assemblies and land-based drilling rigs. They apply tungsten carbide coatings to valve components to provide wear and corrosion resistance, allowing the components to withstand pressures over 20,000 psi. Bodycote has experience coating over 100,000 components for leading valve manufacturers for surface and subsea applications. They provide global support for coating solutions used in oil and gas components.
Bodycote is a leading supplier of coatings for gates and seats used in subsea assemblies and land-based drilling rigs. They apply tungsten carbide coatings to valve components to provide wear and corrosion resistance, allowing the components to withstand pressures over 20,000 psi. Bodycote has specialized coatings for the oil and gas industry and can provide global support for component manufacturing.
Bodycote offers environmentally-friendly coating solutions as alternatives to hard chrome plating for the aerospace and defense industries. Concerns about the environmental and health impacts of hard chrome plating have led to upcoming heavy restrictions under REACH regulations. Bodycote's coating solutions provide superior wear and corrosion resistance using techniques like HVOF and plasma thermal spray or thermochemical ceramic technologies.
Bodycote Surface Technology Limited provides specialized coatings and surface technology services that prolong the working life of components and protect them from environmental factors like corrosion, abrasion, and erosion. They offer a single solution service for the oil and gas sector, applying coatings like carbides, metallics, and ceramics using thermal spray processes like HVOF and plasma spray. Bodycote also provides complete manufacturing capabilities for components up to 4 meters in length, including machining, grinding, inspection, and finishing services.
Bodycote provides specialized rotor repair services, including chemically stripping worn coatings, inspecting and welding any damage, abrasive blast cleaning in preparation for a new carbide coating, applying and sealing the coating according to the repair plan, polishing and inspecting the finished rotor to provide unrivaled wear and corrosion protection optimized for severe operating environments. For more information, contact Andrew Corless at the listed email address or phone numbers.
Bodycote offers a range of ceramic coatings that provide wear and corrosion resistance for industrial applications. The coatings are chemically bonded and form a dense, pore-free barrier. They can improve component lifetime by up to 25 times and are suitable for ferrous and some non-ferrous metals. Bodycote has various ceramic coating options that are tailored for specific industries like oil/gas, aerospace, pumps, and more.
Harnessing WebAssembly for Real-time Stateless Streaming PipelinesChristina Lin
Traditionally, dealing with real-time data pipelines has involved significant overhead, even for straightforward tasks like data transformation or masking. However, in this talk, we’ll venture into the dynamic realm of WebAssembly (WASM) and discover how it can revolutionize the creation of stateless streaming pipelines within a Kafka (Redpanda) broker. These pipelines are adept at managing low-latency, high-data-volume scenarios.
Presentation of IEEE Slovenia CIS (Computational Intelligence Society) Chapte...University of Maribor
Slides from talk presenting:
Aleš Zamuda: Presentation of IEEE Slovenia CIS (Computational Intelligence Society) Chapter and Networking.
Presentation at IcETRAN 2024 session:
"Inter-Society Networking Panel GRSS/MTT-S/CIS
Panel Session: Promoting Connection and Cooperation"
IEEE Slovenia GRSS
IEEE Serbia and Montenegro MTT-S
IEEE Slovenia CIS
11TH INTERNATIONAL CONFERENCE ON ELECTRICAL, ELECTRONIC AND COMPUTING ENGINEERING
3-6 June 2024, Niš, Serbia
We have compiled the most important slides from each speaker's presentation. This year’s compilation, available for free, captures the key insights and contributions shared during the DfMAy 2024 conference.
DEEP LEARNING FOR SMART GRID INTRUSION DETECTION: A HYBRID CNN-LSTM-BASED MODELgerogepatton
As digital technology becomes more deeply embedded in power systems, protecting the communication
networks of Smart Grids (SG) has emerged as a critical concern. Distributed Network Protocol 3 (DNP3)
represents a multi-tiered application layer protocol extensively utilized in Supervisory Control and Data
Acquisition (SCADA)-based smart grids to facilitate real-time data gathering and control functionalities.
Robust Intrusion Detection Systems (IDS) are necessary for early threat detection and mitigation because
of the interconnection of these networks, which makes them vulnerable to a variety of cyberattacks. To
solve this issue, this paper develops a hybrid Deep Learning (DL) model specifically designed for intrusion
detection in smart grids. The proposed approach is a combination of the Convolutional Neural Network
(CNN) and the Long-Short-Term Memory algorithms (LSTM). We employed a recent intrusion detection
dataset (DNP3), which focuses on unauthorized commands and Denial of Service (DoS) cyberattacks, to
train and test our model. The results of our experiments show that our CNN-LSTM method is much better
at finding smart grid intrusions than other deep learning algorithms used for classification. In addition,
our proposed approach improves accuracy, precision, recall, and F1 score, achieving a high detection
accuracy rate of 99.50%.
Understanding Inductive Bias in Machine LearningSUTEJAS
This presentation explores the concept of inductive bias in machine learning. It explains how algorithms come with built-in assumptions and preferences that guide the learning process. You'll learn about the different types of inductive bias and how they can impact the performance and generalizability of machine learning models.
The presentation also covers the positive and negative aspects of inductive bias, along with strategies for mitigating potential drawbacks. We'll explore examples of how bias manifests in algorithms like neural networks and decision trees.
By understanding inductive bias, you can gain valuable insights into how machine learning models work and make informed decisions when building and deploying them.
Using recycled concrete aggregates (RCA) for pavements is crucial to achieving sustainability. Implementing RCA for new pavement can minimize carbon footprint, conserve natural resources, reduce harmful emissions, and lower life cycle costs. Compared to natural aggregate (NA), RCA pavement has fewer comprehensive studies and sustainability assessments.
Electric vehicle and photovoltaic advanced roles in enhancing the financial p...IJECEIAES
Climate change's impact on the planet forced the United Nations and governments to promote green energies and electric transportation. The deployments of photovoltaic (PV) and electric vehicle (EV) systems gained stronger momentum due to their numerous advantages over fossil fuel types. The advantages go beyond sustainability to reach financial support and stability. The work in this paper introduces the hybrid system between PV and EV to support industrial and commercial plants. This paper covers the theoretical framework of the proposed hybrid system including the required equation to complete the cost analysis when PV and EV are present. In addition, the proposed design diagram which sets the priorities and requirements of the system is presented. The proposed approach allows setup to advance their power stability, especially during power outages. The presented information supports researchers and plant owners to complete the necessary analysis while promoting the deployment of clean energy. The result of a case study that represents a dairy milk farmer supports the theoretical works and highlights its advanced benefits to existing plants. The short return on investment of the proposed approach supports the paper's novelty approach for the sustainable electrical system. In addition, the proposed system allows for an isolated power setup without the need for a transmission line which enhances the safety of the electrical network