This document provides specifications for painting projects at Long Son Petrochemicals Co., Ltd. It outlines painting systems, materials, surface preparation procedures, application methods, inspection requirements and other details. The document includes 5 painting systems (A, B, C, D, E) and specifies their primer, intermediate and top coats. It also identifies painting requirements for different equipment and temperature ranges. Adherence to the painting standards and codes is required.
CEMflex VB is a revolutionary steel plate waterstop covered with a patented special crystallization coating which allows for a secure and cost-effective sealing of structural joints. It works by actively supporting the sintering and crystallization of the concrete joint. The strong bond of the special coating to the surrounding concrete prevents any water from penetrating the structural joint. The waterproofing reaction of CEMflex VB steel plate waterstop has been tested and is confirmed by a General Building Code Test Certificate for secure joint sealing up to 8 bar (80 m) water pressure.
CEMflex VB requires only 3 cm of concrete cover to securely seal any cold joint. The special coating is non-adhesive therefore its application is simple and clean. CEMflex VB can be used in all non-movement joints, horizontally or vertically, in contact with water even under pressure. It can be installed in all weather conditions without activation of the crystallization process and is ideal for use where delays in the placing of concrete are anticipated.
The document is the October 2017 specification published by the International Glassfibre Reinforced Concrete Association (GRCA) for the manufacture, curing, and testing of glassfibre reinforced concrete (GRC) products. It provides specifications for constituent materials, mix designs, manufacturing processes, quality control, sampling and testing requirements for GRC grades. The specification is intended to enable architects and engineers to specify appropriate GRC materials for construction projects.
Certificado BBA - Aislamiento con productos Synthesia para rehabilitación de ...Synthesia Technology
This document provides an overview of the British Board of Agrément (BBA) Technical Approval process for construction products. It discusses approvals, inspections, testing, and certification conducted by the BBA. The document also provides specific details on the BBA Product Approval for Synthesia Roof Stabilisation, a spray-applied repair medium for tiled and slated roofs. Key details assessed include adhesion, weathertightness, condensation risk, fire performance, and durability. Installation guidance and precautions are also outlined.
PPG Industries is a leading global manufacturer that supplies coatings, glass, and chemical products. In 2005, PPG reported record sales of $10.2 billion, with 10 of its 15 business posting annual sales records. Net income was $596 million. To accelerate growth, PPG is expanding in key markets like Asia through acquisitions and new facilities. PPG is also investing in new technologies to strengthen its businesses and remain competitive, such as adding coating capabilities and installing new membrane cell technology.
Certificado BBA - Aislamiento con productos Synthesia para suelosSynthesia Technology
The document provides technical information on Synthesia's range of insulation for floors. It includes:
1) Details on the manufacturing process and quality control procedures.
2) Descriptions of the products and their intended uses for suspended timber and concrete floors.
3) Guidance on design considerations such as ventilation requirements, overlay materials, and thermal performance calculations.
4) Tables showing example constructions for timber ground floors and their required insulation thicknesses to achieve various target U-values.
Certificado BBA - Aislamiento con productos Synthesia para paredesSynthesia Technology
The document is a 9-page technical approval certificate for Synthesia Internacional S.L.U.'s range of insulation for walls. It assesses the key factors of thermal performance, condensation risk, and durability of their Poliuretan Spray RF-352D and Poliuretan Spray S-353E spray-applied insulation products. The certificate includes certification of compliance with relevant building regulations, independently verified specifications, design considerations, and installation guidance. It determines that the products have a declared thermal conductivity between 0.025-0.027 W·m–1·K–1 and 0.026-0.028 W·m–1·K–1 depending on thickness, and
This document provides application guidelines for a two-component polyamide cured zinc rich epoxy coating. It summarizes:
1) The product is suitable as a primer for carbon steel and repair of inorganic zinc silicate coatings in atmospheric environments.
2) Surface preparation for the product involves abrasive blast cleaning to Sa 21⁄2 with a 30-85 μm profile or power tool cleaning to St 3. It can also be used over hydrojetted surfaces.
3) The product has a pot life of 24 hours at 23°C when mixed at a ratio of 3:1 base to curing agent by volume.
CEMflex VB is a revolutionary steel plate waterstop covered with a patented special crystallization coating which allows for a secure and cost-effective sealing of structural joints. It works by actively supporting the sintering and crystallization of the concrete joint. The strong bond of the special coating to the surrounding concrete prevents any water from penetrating the structural joint. The waterproofing reaction of CEMflex VB steel plate waterstop has been tested and is confirmed by a General Building Code Test Certificate for secure joint sealing up to 8 bar (80 m) water pressure.
CEMflex VB requires only 3 cm of concrete cover to securely seal any cold joint. The special coating is non-adhesive therefore its application is simple and clean. CEMflex VB can be used in all non-movement joints, horizontally or vertically, in contact with water even under pressure. It can be installed in all weather conditions without activation of the crystallization process and is ideal for use where delays in the placing of concrete are anticipated.
The document is the October 2017 specification published by the International Glassfibre Reinforced Concrete Association (GRCA) for the manufacture, curing, and testing of glassfibre reinforced concrete (GRC) products. It provides specifications for constituent materials, mix designs, manufacturing processes, quality control, sampling and testing requirements for GRC grades. The specification is intended to enable architects and engineers to specify appropriate GRC materials for construction projects.
Certificado BBA - Aislamiento con productos Synthesia para rehabilitación de ...Synthesia Technology
This document provides an overview of the British Board of Agrément (BBA) Technical Approval process for construction products. It discusses approvals, inspections, testing, and certification conducted by the BBA. The document also provides specific details on the BBA Product Approval for Synthesia Roof Stabilisation, a spray-applied repair medium for tiled and slated roofs. Key details assessed include adhesion, weathertightness, condensation risk, fire performance, and durability. Installation guidance and precautions are also outlined.
PPG Industries is a leading global manufacturer that supplies coatings, glass, and chemical products. In 2005, PPG reported record sales of $10.2 billion, with 10 of its 15 business posting annual sales records. Net income was $596 million. To accelerate growth, PPG is expanding in key markets like Asia through acquisitions and new facilities. PPG is also investing in new technologies to strengthen its businesses and remain competitive, such as adding coating capabilities and installing new membrane cell technology.
Certificado BBA - Aislamiento con productos Synthesia para suelosSynthesia Technology
The document provides technical information on Synthesia's range of insulation for floors. It includes:
1) Details on the manufacturing process and quality control procedures.
2) Descriptions of the products and their intended uses for suspended timber and concrete floors.
3) Guidance on design considerations such as ventilation requirements, overlay materials, and thermal performance calculations.
4) Tables showing example constructions for timber ground floors and their required insulation thicknesses to achieve various target U-values.
Certificado BBA - Aislamiento con productos Synthesia para paredesSynthesia Technology
The document is a 9-page technical approval certificate for Synthesia Internacional S.L.U.'s range of insulation for walls. It assesses the key factors of thermal performance, condensation risk, and durability of their Poliuretan Spray RF-352D and Poliuretan Spray S-353E spray-applied insulation products. The certificate includes certification of compliance with relevant building regulations, independently verified specifications, design considerations, and installation guidance. It determines that the products have a declared thermal conductivity between 0.025-0.027 W·m–1·K–1 and 0.026-0.028 W·m–1·K–1 depending on thickness, and
This document provides application guidelines for a two-component polyamide cured zinc rich epoxy coating. It summarizes:
1) The product is suitable as a primer for carbon steel and repair of inorganic zinc silicate coatings in atmospheric environments.
2) Surface preparation for the product involves abrasive blast cleaning to Sa 21⁄2 with a 30-85 μm profile or power tool cleaning to St 3. It can also be used over hydrojetted surfaces.
3) The product has a pot life of 24 hours at 23°C when mixed at a ratio of 3:1 base to curing agent by volume.
This document provides specifications for a painting system to be used on the Ghalemdi Khola Hydropower Project in Nepal. It will involve surface preparation to a B St 3 standard, applying a primer coat of 50 microns of two-component epoxy zinc rich primer, and three finish coats totaling 300 microns of two-component coal-tar epoxy on penstock pipes and other steel surfaces that contact water. The contractor proposes using paints from Chembond, Berger, or Shalimar brands and will follow manufacturer specifications for application and ensuring a total dry film thickness between 350-490 microns is achieved. Photographs of rust grades and surface preparation standards are provided for reference.
Painting structural steel at a fabrication shop offers advantages over field painting like better control over weather and application. Shops have used these advantages to produce high quality coatings work. Successful shop painting depends on controlling factors like steel design, surface preparation, coatings application, and work procedures to ensure coating quality. Proper techniques are needed for tasks like abrasive blasting, coating application, and handling of steel pieces.
This document provides specifications for painting and protective coatings for the Toromocho Project in Peru. It outlines health, safety and environmental requirements, quality standards, surface preparation procedures, and coating application requirements. The contractor must comply with regulations from OSHA, MSHA, EPA and other organizations. Specific coating systems are defined that must be applied according to the manufacturer's instructions. The contractor is responsible for proper storage of paints and supplies and carrying out work in a skilled manner.
This document provides specifications for painting structural steel. It describes surface preparation, painting materials, and application methods. The key points are:
- Steel surfaces must be blast cleaned to SSPC-SP10 standards to remove rust, mill scale, and other contaminants before applying the prime coat.
- Paints must be applied according to manufacturer's instructions within a limited time of surface preparation. Environmental conditions like temperature and humidity are also regulated.
- Both shop and field application of prime and finish coats are described. Shop application includes requirements for areas that will be inaccessible after assembly. Field application focuses on connections and repairs.
- Special procedures are outlined for painting weathering steel and galvanized surfaces
This document provides specifications for painting at work and site locations for above ground pipelines and plant installations. It outlines various terms, surface preparation requirements, paint systems, and procedures for painting ferrous and non-ferrous metals. The specifications cover new coatings, maintenance coatings, hot surface coatings, painting damp surfaces, low pressure gas holder maintenance, and initial non-ferrous coating systems. Requirements include abrasive blasting to certain standards, applying primers, intermediate coats, and finish coats to achieve specified dry film thicknesses tailored for different temperature ranges and conditions.
This document provides information about civil engineering work done by the Civil Township department of Indian Oil Corporation in Digboi, Assam, India. It discusses some of the key maintenance jobs and construction projects undertaken by the department, including vetiver plantation, rainwater harvesting, and water treatment processes. The department handles all civil works outside of the refinery area, such as road construction and maintenance, school infrastructure projects, and constructing retaining walls. Recent projects include installing rainwater harvesting systems, vetiver plantation for soil and water conservation, and improving water infrastructure.
This document provides requirements for the selection and application of protective coatings for industrial plants and equipment. It covers scope, conflicts and deviations, references, definitions, health and safety, general requirements, coating material selection, surface preparation, coating application, inspection and testing, and approved coating systems. The document is intended to establish minimum mandatory requirements for new and existing onshore industrial facilities to properly select and apply coatings for corrosion protection.
The document provides procedures for applying a neoprene coating to riser pipes, clamps, and field joints for the Umm Al Dalakh Field Early Production Scheme project. It outlines materials requirements, including that the neoprene coating must withstand temperatures from -100°C to +92°C and have a minimum design life of 40 years. It also describes surface preparation, application of primer and coating, inspection and testing requirements, and addresses handling, storage, and potential repairs. Prequalification tests are specified to ensure the coating meets project specifications.
(https://www.indiamart.com/company/3762226/) We are engaged in Manufacturing a range of Tiling Products, Bondit Construction Chemical, Crack Seal, Tile Mate, etc. These products are highly appreciated across the market for their premium quality and reasonable prices.
This document discusses welding solutions for the chemical industry from voestalpine Böhler Welding. It provides an overview of their expertise in welding applications for the chemical industry, lists their global industry segment manager as a point of contact, and promotes their three specialized brands for catering to customer needs. The company focuses on filler metals and technical consultation for industrial welding and possesses deep technical understanding of industry applications and processes.
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.
This document provides information about ICR - Industria Chimica Reggiana, a company that has been a point of reference since 1961 for painting in industrial bodywork, composites, and natural stones. ICR offers a wide range of coating solutions designed by specialist technicians to achieve maximum technological innovation, performance, and cost-benefit. Present in over 100 countries, ICR is an international company that maintains a focus on tailored solutions and customer service.
Antala Distribuidor oficial de Molykote, líder mundial en tecnología de lubricación.
http://www.antala.com/product/MOLYKOTE
La gama de lubricantes especiales MOLYKOTE® es líder mundial en tecnología de lubricación con más de 60 años de experiencia, pioneros en incorporar el bisulfuro de molibdeno puro (MoS2) en los lubricantes, nació la tecnología de la lubricación inteligente, Smart Lubrication™ Technology, creando productos específicos para soportar cargas elevadas, altas y bajas temperaturas de trabajo, suciedad y polvo, ambientes químicos agresivos y velocidades extremas.
Estas soluciones de lubricación ayudan al control de la fricción y el desgaste aumentando la fiabilidad de los equipos, generando ahorros de energía y costes, reduciendo las emisiones de CO2 y prolongando los intervalos de lubricación en los ciclos de mantenimiento.
Pastas Lubricantes: Alta concentración de lubricantes sólidos dispensados en aceite
Grasas Industriales: Dispersión de un agente espesante en un alto porcentaje de aceite
Compounds: Lubricante de silicona con poder sellante
Aceites Especiales: aceite de base sintética
Dispersiones: Porcentage bajo de sólido lubricante en aceite
Recubrimientos anti-fricción AFC: Barníz con partículas de sólido lubricante micronizado
http://www.antala.com/product/MOLYKOTE
A two coat, cold applied damp proof membrane, which dries to a uniform gloss black finish.
Find out more about LAC and RIW here:
http://www.riw.co.uk/products/liquid-applied-systems/lac/data-sheet
PSC represents one of the most exhaustive range of sealing compounds from around the world that finds application in sealing steam and gas turbines, compressors, pumps, gearboxes, flanges and more.
Our approach to adding products is by industry interaction that allows us to get insights into the recurring problems the industry face and then looking for solutions that can address these
problems. With over 75 sealing products for almost all applications, we present from one
source the most comprehensive range of products to reduce downtime, improve productivity
and enhance safety.
Whether you are looking for a sealing compound for steam and gas turbines compressors, generators, pumps, motors, engines or gearboxes or any sealing application on the electrical
side for annular spaces in cables, fire dam sealing or just weather-proofing sealing of junction boxes. We have the most extensive range of products available to address all your sealing
needs.
This document is a curriculum vitae for Jagjeewan Wariya, who has over 9 years of experience as a quality control inspector for painting and coatings projects in various industries. He holds certifications as a NACE Level 2 Certified Painting Inspector. The CV outlines his educational qualifications and professional experience on numerous projects with companies like Technimont ICB Pvt. Ltd., ABS IV, and Corrosion Technology Services, where he performed painting inspection, coating inspection, and other quality control duties.
The document provides instructions for corrosion and paint removal from aircraft surfaces. It states that corrosion must be removed using the mildest effective technique and that paint can be removed from metallic surfaces using mechanical or chemical methods depending on the size of the area, while only mechanical methods can be used for composite surfaces due to their irregular structure. It provides guidelines for proper training and protective equipment when performing removal tasks.
Transmission structure painting is a physically demanding job that requires specialized training due to the dangerous and energized nature of the work. Most tower painters retire around age 35 due to the toll on the body. Traditional coating methods for corroded structures involve multiple climbs to complete surface preparation and apply primer, intermediate, and finish coats. Using the most cost-effective method can reduce the number of climbs and thereby reduce labor costs. Standards such as ISO and SSPC provide guidance on selecting coatings and surface preparation methods suited for transmission structures.
This document provides tips for preparing paint specifications, using Section 099123 Interior Painting from ARCOM MasterSpec as an example. It discusses organizing the specification into three parts: Part 1 includes administrative requirements, Part 2 defines the products, and Part 3 describes execution and installation. Within these parts, it outlines key sections like manufacturers, quality assurance (including mockups), submittals, storage and field conditions to ensure the specification provides clear instructions for bidding, installation and verification of the paint work. The document advocates starting with Part 2 to select products before editing the other parts to coordinate with those selections.
ICR is an Italian company founded in 1961 that specializes in chemical products for industries such as automotive, composites, and stone. The company offers a wide range of solutions designed by specialized technicians for technological innovation, performance, and cost efficiency. ICR has a presence in over 100 countries worldwide and prides itself on its customized solutions and customer service. The document provides an overview of ICR's history and milestones, as well as its product lines including structural adhesives, polyester adhesives, vinylester adhesives, putties, gel coats, millable compounds, primers, and rubbing compounds.
Ocean lotus Threat actors project by John Sitima 2024 (1).pptxSitimaJohn
Ocean Lotus cyber threat actors represent a sophisticated, persistent, and politically motivated group that poses a significant risk to organizations and individuals in the Southeast Asian region. Their continuous evolution and adaptability underscore the need for robust cybersecurity measures and international cooperation to identify and mitigate the threats posed by such advanced persistent threat groups.
This document provides specifications for a painting system to be used on the Ghalemdi Khola Hydropower Project in Nepal. It will involve surface preparation to a B St 3 standard, applying a primer coat of 50 microns of two-component epoxy zinc rich primer, and three finish coats totaling 300 microns of two-component coal-tar epoxy on penstock pipes and other steel surfaces that contact water. The contractor proposes using paints from Chembond, Berger, or Shalimar brands and will follow manufacturer specifications for application and ensuring a total dry film thickness between 350-490 microns is achieved. Photographs of rust grades and surface preparation standards are provided for reference.
Painting structural steel at a fabrication shop offers advantages over field painting like better control over weather and application. Shops have used these advantages to produce high quality coatings work. Successful shop painting depends on controlling factors like steel design, surface preparation, coatings application, and work procedures to ensure coating quality. Proper techniques are needed for tasks like abrasive blasting, coating application, and handling of steel pieces.
This document provides specifications for painting and protective coatings for the Toromocho Project in Peru. It outlines health, safety and environmental requirements, quality standards, surface preparation procedures, and coating application requirements. The contractor must comply with regulations from OSHA, MSHA, EPA and other organizations. Specific coating systems are defined that must be applied according to the manufacturer's instructions. The contractor is responsible for proper storage of paints and supplies and carrying out work in a skilled manner.
This document provides specifications for painting structural steel. It describes surface preparation, painting materials, and application methods. The key points are:
- Steel surfaces must be blast cleaned to SSPC-SP10 standards to remove rust, mill scale, and other contaminants before applying the prime coat.
- Paints must be applied according to manufacturer's instructions within a limited time of surface preparation. Environmental conditions like temperature and humidity are also regulated.
- Both shop and field application of prime and finish coats are described. Shop application includes requirements for areas that will be inaccessible after assembly. Field application focuses on connections and repairs.
- Special procedures are outlined for painting weathering steel and galvanized surfaces
This document provides specifications for painting at work and site locations for above ground pipelines and plant installations. It outlines various terms, surface preparation requirements, paint systems, and procedures for painting ferrous and non-ferrous metals. The specifications cover new coatings, maintenance coatings, hot surface coatings, painting damp surfaces, low pressure gas holder maintenance, and initial non-ferrous coating systems. Requirements include abrasive blasting to certain standards, applying primers, intermediate coats, and finish coats to achieve specified dry film thicknesses tailored for different temperature ranges and conditions.
This document provides information about civil engineering work done by the Civil Township department of Indian Oil Corporation in Digboi, Assam, India. It discusses some of the key maintenance jobs and construction projects undertaken by the department, including vetiver plantation, rainwater harvesting, and water treatment processes. The department handles all civil works outside of the refinery area, such as road construction and maintenance, school infrastructure projects, and constructing retaining walls. Recent projects include installing rainwater harvesting systems, vetiver plantation for soil and water conservation, and improving water infrastructure.
This document provides requirements for the selection and application of protective coatings for industrial plants and equipment. It covers scope, conflicts and deviations, references, definitions, health and safety, general requirements, coating material selection, surface preparation, coating application, inspection and testing, and approved coating systems. The document is intended to establish minimum mandatory requirements for new and existing onshore industrial facilities to properly select and apply coatings for corrosion protection.
The document provides procedures for applying a neoprene coating to riser pipes, clamps, and field joints for the Umm Al Dalakh Field Early Production Scheme project. It outlines materials requirements, including that the neoprene coating must withstand temperatures from -100°C to +92°C and have a minimum design life of 40 years. It also describes surface preparation, application of primer and coating, inspection and testing requirements, and addresses handling, storage, and potential repairs. Prequalification tests are specified to ensure the coating meets project specifications.
(https://www.indiamart.com/company/3762226/) We are engaged in Manufacturing a range of Tiling Products, Bondit Construction Chemical, Crack Seal, Tile Mate, etc. These products are highly appreciated across the market for their premium quality and reasonable prices.
This document discusses welding solutions for the chemical industry from voestalpine Böhler Welding. It provides an overview of their expertise in welding applications for the chemical industry, lists their global industry segment manager as a point of contact, and promotes their three specialized brands for catering to customer needs. The company focuses on filler metals and technical consultation for industrial welding and possesses deep technical understanding of industry applications and processes.
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.
This document provides information about ICR - Industria Chimica Reggiana, a company that has been a point of reference since 1961 for painting in industrial bodywork, composites, and natural stones. ICR offers a wide range of coating solutions designed by specialist technicians to achieve maximum technological innovation, performance, and cost-benefit. Present in over 100 countries, ICR is an international company that maintains a focus on tailored solutions and customer service.
Antala Distribuidor oficial de Molykote, líder mundial en tecnología de lubricación.
http://www.antala.com/product/MOLYKOTE
La gama de lubricantes especiales MOLYKOTE® es líder mundial en tecnología de lubricación con más de 60 años de experiencia, pioneros en incorporar el bisulfuro de molibdeno puro (MoS2) en los lubricantes, nació la tecnología de la lubricación inteligente, Smart Lubrication™ Technology, creando productos específicos para soportar cargas elevadas, altas y bajas temperaturas de trabajo, suciedad y polvo, ambientes químicos agresivos y velocidades extremas.
Estas soluciones de lubricación ayudan al control de la fricción y el desgaste aumentando la fiabilidad de los equipos, generando ahorros de energía y costes, reduciendo las emisiones de CO2 y prolongando los intervalos de lubricación en los ciclos de mantenimiento.
Pastas Lubricantes: Alta concentración de lubricantes sólidos dispensados en aceite
Grasas Industriales: Dispersión de un agente espesante en un alto porcentaje de aceite
Compounds: Lubricante de silicona con poder sellante
Aceites Especiales: aceite de base sintética
Dispersiones: Porcentage bajo de sólido lubricante en aceite
Recubrimientos anti-fricción AFC: Barníz con partículas de sólido lubricante micronizado
http://www.antala.com/product/MOLYKOTE
A two coat, cold applied damp proof membrane, which dries to a uniform gloss black finish.
Find out more about LAC and RIW here:
http://www.riw.co.uk/products/liquid-applied-systems/lac/data-sheet
PSC represents one of the most exhaustive range of sealing compounds from around the world that finds application in sealing steam and gas turbines, compressors, pumps, gearboxes, flanges and more.
Our approach to adding products is by industry interaction that allows us to get insights into the recurring problems the industry face and then looking for solutions that can address these
problems. With over 75 sealing products for almost all applications, we present from one
source the most comprehensive range of products to reduce downtime, improve productivity
and enhance safety.
Whether you are looking for a sealing compound for steam and gas turbines compressors, generators, pumps, motors, engines or gearboxes or any sealing application on the electrical
side for annular spaces in cables, fire dam sealing or just weather-proofing sealing of junction boxes. We have the most extensive range of products available to address all your sealing
needs.
This document is a curriculum vitae for Jagjeewan Wariya, who has over 9 years of experience as a quality control inspector for painting and coatings projects in various industries. He holds certifications as a NACE Level 2 Certified Painting Inspector. The CV outlines his educational qualifications and professional experience on numerous projects with companies like Technimont ICB Pvt. Ltd., ABS IV, and Corrosion Technology Services, where he performed painting inspection, coating inspection, and other quality control duties.
The document provides instructions for corrosion and paint removal from aircraft surfaces. It states that corrosion must be removed using the mildest effective technique and that paint can be removed from metallic surfaces using mechanical or chemical methods depending on the size of the area, while only mechanical methods can be used for composite surfaces due to their irregular structure. It provides guidelines for proper training and protective equipment when performing removal tasks.
Transmission structure painting is a physically demanding job that requires specialized training due to the dangerous and energized nature of the work. Most tower painters retire around age 35 due to the toll on the body. Traditional coating methods for corroded structures involve multiple climbs to complete surface preparation and apply primer, intermediate, and finish coats. Using the most cost-effective method can reduce the number of climbs and thereby reduce labor costs. Standards such as ISO and SSPC provide guidance on selecting coatings and surface preparation methods suited for transmission structures.
This document provides tips for preparing paint specifications, using Section 099123 Interior Painting from ARCOM MasterSpec as an example. It discusses organizing the specification into three parts: Part 1 includes administrative requirements, Part 2 defines the products, and Part 3 describes execution and installation. Within these parts, it outlines key sections like manufacturers, quality assurance (including mockups), submittals, storage and field conditions to ensure the specification provides clear instructions for bidding, installation and verification of the paint work. The document advocates starting with Part 2 to select products before editing the other parts to coordinate with those selections.
ICR is an Italian company founded in 1961 that specializes in chemical products for industries such as automotive, composites, and stone. The company offers a wide range of solutions designed by specialized technicians for technological innovation, performance, and cost efficiency. ICR has a presence in over 100 countries worldwide and prides itself on its customized solutions and customer service. The document provides an overview of ICR's history and milestones, as well as its product lines including structural adhesives, polyester adhesives, vinylester adhesives, putties, gel coats, millable compounds, primers, and rubbing compounds.
Ocean lotus Threat actors project by John Sitima 2024 (1).pptxSitimaJohn
Ocean Lotus cyber threat actors represent a sophisticated, persistent, and politically motivated group that poses a significant risk to organizations and individuals in the Southeast Asian region. Their continuous evolution and adaptability underscore the need for robust cybersecurity measures and international cooperation to identify and mitigate the threats posed by such advanced persistent threat groups.
5th LF Energy Power Grid Model Meet-up SlidesDanBrown980551
5th Power Grid Model Meet-up
It is with great pleasure that we extend to you an invitation to the 5th Power Grid Model Meet-up, scheduled for 6th June 2024. This event will adopt a hybrid format, allowing participants to join us either through an online Mircosoft Teams session or in person at TU/e located at Den Dolech 2, Eindhoven, Netherlands. The meet-up will be hosted by Eindhoven University of Technology (TU/e), a research university specializing in engineering science & technology.
Power Grid Model
The global energy transition is placing new and unprecedented demands on Distribution System Operators (DSOs). Alongside upgrades to grid capacity, processes such as digitization, capacity optimization, and congestion management are becoming vital for delivering reliable services.
Power Grid Model is an open source project from Linux Foundation Energy and provides a calculation engine that is increasingly essential for DSOs. It offers a standards-based foundation enabling real-time power systems analysis, simulations of electrical power grids, and sophisticated what-if analysis. In addition, it enables in-depth studies and analysis of the electrical power grid’s behavior and performance. This comprehensive model incorporates essential factors such as power generation capacity, electrical losses, voltage levels, power flows, and system stability.
Power Grid Model is currently being applied in a wide variety of use cases, including grid planning, expansion, reliability, and congestion studies. It can also help in analyzing the impact of renewable energy integration, assessing the effects of disturbances or faults, and developing strategies for grid control and optimization.
What to expect
For the upcoming meetup we are organizing, we have an exciting lineup of activities planned:
-Insightful presentations covering two practical applications of the Power Grid Model.
-An update on the latest advancements in Power Grid -Model technology during the first and second quarters of 2024.
-An interactive brainstorming session to discuss and propose new feature requests.
-An opportunity to connect with fellow Power Grid Model enthusiasts and users.
How to Get CNIC Information System with Paksim Ga.pptxdanishmna97
Pakdata Cf is a groundbreaking system designed to streamline and facilitate access to CNIC information. This innovative platform leverages advanced technology to provide users with efficient and secure access to their CNIC details.
In the rapidly evolving landscape of technologies, XML continues to play a vital role in structuring, storing, and transporting data across diverse systems. The recent advancements in artificial intelligence (AI) present new methodologies for enhancing XML development workflows, introducing efficiency, automation, and intelligent capabilities. This presentation will outline the scope and perspective of utilizing AI in XML development. The potential benefits and the possible pitfalls will be highlighted, providing a balanced view of the subject.
We will explore the capabilities of AI in understanding XML markup languages and autonomously creating structured XML content. Additionally, we will examine the capacity of AI to enrich plain text with appropriate XML markup. Practical examples and methodological guidelines will be provided to elucidate how AI can be effectively prompted to interpret and generate accurate XML markup.
Further emphasis will be placed on the role of AI in developing XSLT, or schemas such as XSD and Schematron. We will address the techniques and strategies adopted to create prompts for generating code, explaining code, or refactoring the code, and the results achieved.
The discussion will extend to how AI can be used to transform XML content. In particular, the focus will be on the use of AI XPath extension functions in XSLT, Schematron, Schematron Quick Fixes, or for XML content refactoring.
The presentation aims to deliver a comprehensive overview of AI usage in XML development, providing attendees with the necessary knowledge to make informed decisions. Whether you’re at the early stages of adopting AI or considering integrating it in advanced XML development, this presentation will cover all levels of expertise.
By highlighting the potential advantages and challenges of integrating AI with XML development tools and languages, the presentation seeks to inspire thoughtful conversation around the future of XML development. We’ll not only delve into the technical aspects of AI-powered XML development but also discuss practical implications and possible future directions.
Threats to mobile devices are more prevalent and increasing in scope and complexity. Users of mobile devices desire to take full advantage of the features
available on those devices, but many of the features provide convenience and capability but sacrifice security. This best practices guide outlines steps the users can take to better protect personal devices and information.
HCL Notes and Domino License Cost Reduction in the World of DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-and-domino-license-cost-reduction-in-the-world-of-dlau/
The introduction of DLAU and the CCB & CCX licensing model caused quite a stir in the HCL community. As a Notes and Domino customer, you may have faced challenges with unexpected user counts and license costs. You probably have questions on how this new licensing approach works and how to benefit from it. Most importantly, you likely have budget constraints and want to save money where possible. Don’t worry, we can help with all of this!
We’ll show you how to fix common misconfigurations that cause higher-than-expected user counts, and how to identify accounts which you can deactivate to save money. There are also frequent patterns that can cause unnecessary cost, like using a person document instead of a mail-in for shared mailboxes. We’ll provide examples and solutions for those as well. And naturally we’ll explain the new licensing model.
Join HCL Ambassador Marc Thomas in this webinar with a special guest appearance from Franz Walder. It will give you the tools and know-how to stay on top of what is going on with Domino licensing. You will be able lower your cost through an optimized configuration and keep it low going forward.
These topics will be covered
- Reducing license cost by finding and fixing misconfigurations and superfluous accounts
- How do CCB and CCX licenses really work?
- Understanding the DLAU tool and how to best utilize it
- Tips for common problem areas, like team mailboxes, functional/test users, etc
- Practical examples and best practices to implement right away
Project Management Semester Long Project - Acuityjpupo2018
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6. Ideas and approaches to help build your organization's AI strategy.
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5. Introduction to Apache Kafka and S3
- Explore Apache Kafka for real-time data streaming and Amazon S3 for scalable storage solutions.
6. Viewing Kafka Messages in the Data Lake
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7. What is Prometheus?
- Get to know Prometheus, an open-source monitoring and alerting toolkit, and its application in monitoring edge devices.
8. Monitoring Application Metrics with Prometheus
- Detailed instructions on setting up Prometheus to monitor the performance and health of your anomaly detection system.
9. What is Camel K?
- Introduction to Camel K, a lightweight integration framework built on Apache Camel, designed for Kubernetes.
10. Configuring Camel K Integrations for Data Pipelines
- Learn how to configure Camel K for seamless data pipeline integrations in your anomaly detection workflow.
11. What is a Jupyter Notebook?
- Overview of Jupyter Notebooks, an open-source web application for creating and sharing documents with live code, equations, visualizations, and narrative text.
12. Jupyter Notebooks with Code Examples
- Hands-on examples and code snippets in Jupyter Notebooks to help you implement and test anomaly detection models.
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Manage and optimize your license adoption and consumption with SAM4U, an SAP free customer software asset management tool.
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UiPath Test Automation using UiPath Test Suite series, part 6DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 6. In this session, we will cover Test Automation with generative AI and Open AI.
UiPath Test Automation with generative AI and Open AI webinar offers an in-depth exploration of leveraging cutting-edge technologies for test automation within the UiPath platform. Attendees will delve into the integration of generative AI, a test automation solution, with Open AI advanced natural language processing capabilities.
Throughout the session, participants will discover how this synergy empowers testers to automate repetitive tasks, enhance testing accuracy, and expedite the software testing life cycle. Topics covered include the seamless integration process, practical use cases, and the benefits of harnessing AI-driven automation for UiPath testing initiatives. By attending this webinar, testers, and automation professionals can gain valuable insights into harnessing the power of AI to optimize their test automation workflows within the UiPath ecosystem, ultimately driving efficiency and quality in software development processes.
What will you get from this session?
1. Insights into integrating generative AI.
2. Understanding how this integration enhances test automation within the UiPath platform
3. Practical demonstrations
4. Exploration of real-world use cases illustrating the benefits of AI-driven test automation for UiPath
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What is generative AI
Test Automation with generative AI and Open AI.
UiPath integration with generative AI
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Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
HCL Notes und Domino Lizenzkostenreduzierung in der Welt von DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-und-domino-lizenzkostenreduzierung-in-der-welt-von-dlau/
DLAU und die Lizenzen nach dem CCB- und CCX-Modell sind für viele in der HCL-Community seit letztem Jahr ein heißes Thema. Als Notes- oder Domino-Kunde haben Sie vielleicht mit unerwartet hohen Benutzerzahlen und Lizenzgebühren zu kämpfen. Sie fragen sich vielleicht, wie diese neue Art der Lizenzierung funktioniert und welchen Nutzen sie Ihnen bringt. Vor allem wollen Sie sicherlich Ihr Budget einhalten und Kosten sparen, wo immer möglich. Das verstehen wir und wir möchten Ihnen dabei helfen!
Wir erklären Ihnen, wie Sie häufige Konfigurationsprobleme lösen können, die dazu führen können, dass mehr Benutzer gezählt werden als nötig, und wie Sie überflüssige oder ungenutzte Konten identifizieren und entfernen können, um Geld zu sparen. Es gibt auch einige Ansätze, die zu unnötigen Ausgaben führen können, z. B. wenn ein Personendokument anstelle eines Mail-Ins für geteilte Mailboxen verwendet wird. Wir zeigen Ihnen solche Fälle und deren Lösungen. Und natürlich erklären wir Ihnen das neue Lizenzmodell.
Nehmen Sie an diesem Webinar teil, bei dem HCL-Ambassador Marc Thomas und Gastredner Franz Walder Ihnen diese neue Welt näherbringen. Es vermittelt Ihnen die Tools und das Know-how, um den Überblick zu bewahren. Sie werden in der Lage sein, Ihre Kosten durch eine optimierte Domino-Konfiguration zu reduzieren und auch in Zukunft gering zu halten.
Diese Themen werden behandelt
- Reduzierung der Lizenzkosten durch Auffinden und Beheben von Fehlkonfigurationen und überflüssigen Konten
- Wie funktionieren CCB- und CCX-Lizenzen wirklich?
- Verstehen des DLAU-Tools und wie man es am besten nutzt
- Tipps für häufige Problembereiche, wie z. B. Team-Postfächer, Funktions-/Testbenutzer usw.
- Praxisbeispiele und Best Practices zum sofortigen Umsetzen
HCL Notes und Domino Lizenzkostenreduzierung in der Welt von DLAU
Lsp 1 r07-0009-painting-sp-009
1. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:1 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
PROJECT SPECIFICATION
FOR
PAINTING
(SP-009)
2. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:2 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
CONTENTS
1. GENERAL........................................................................................................................ 3
1.1. SCOPE.................................................................................................................... 3
1.2. CODE AND STANDARD ........................................................................................ 3
2. GENERAL DESIGN......................................................................................................... 4
3. PAINTING MATERIALS.................................................................................................. 8
4. APPLICATION OF PAINTING SYSTEMS ...................................................................... 10
4.1. GENERAL............................................................................................................... 10
4.2. PAINTING SYSTEMS FOR NON-INSULATED SURFACES................................. 11
4.3. PAINTING SYSTEMS FOR INSULATED SURFACES .......................................... 14
5. SURFACE PREPARATION ............................................................................................ 15
6. PAINTING PROCEDURE................................................................................................ 16
7. COLOR OF THE FINAL TOP COAT............................................................................... 19
8. INSCRIPTION AND MARKING....................................................................................... 22
9. GUARANTEE .................................................................................................................. 22
10. PAINT INSPECTION ....................................................................................................... 23
10.1. GENERAL............................................................................................................... 23
10.2. INSPECTION REQUIREMENT .............................................................................. 23
10.3. INSPECTION RECORD ......................................................................................... 26
11. TRANSPORTATION ....................................................................................................... 27
12. ATTACHMENT ................................................................................................................ 27
12.1. ATTACHMENT 1- INSCRIPTION AND MARKING DETAIL................................... 27
12.2. ATTACHMENT 2 - PAINTING SYSTEM FOR TANK WITH COLD INSULATION. 34
12.3. ATTACHMENT 3 - PAINTING WORK RECORDS (FOR SHOP PAINTING) ........ 35
3. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:3 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
1. GENERAL
1.1. SCOPE
1.1.1. This specification covers the general requirements governing for the simply of
paint and coating system and the paint work for corrosion protection used on
production facilities exterior surfaces. It includes structural steels, vessels,
piping and equipment.
1.1.2. This specification specifies shop and field application of primers for various
items. Depending on economics or specify contracts, this activity may be
transferred to the field.
1.2. CODE AND STANDARD
The latest editions and revisions of the following documents are referred to in
this specification.
1.2.1. Color Coding
The specified RAL colors, or equivalent shall be used for indoor as well as
outdoor coatings, as long as no special restrictions are specified.
1.2.2. Steel Structure Painting Council (SSPC) Manual.
The following systems and specification shall be used
SSPC-PA 1 shop, field and maintenance painting
SSPC-PA 2 measurement of dry paint thickness with magnetic gauges
SSPC-SP 1 solvent cleaning
SSPC-SP2 Hand tool cleaning
SSPC-SP 3 power tool cleaning
4. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:4 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
SSPC-SP 5 white metal blast cleaning
SSPC-SP 7 brush-off blast cleaning
SSPC-SP 8 pickling
SSPC-SP 10 near-white blast cleaning
2. GENERAL DESIGN
2.1. The paint system for corrosion protection is tabulated in the table of Painting
Materials and Systems in article 3 and article 4.
If not stated otherwise, the paints shall be in a consistency ready for use (as far
as single component paints are concerned). The paints shall brush easily at 20
o
C and shall be suitable for spraying after diluting with the appropriate thinner.
2.2. The paints shall show no thickening, hard sediments or skinning after being
stored until application in a full, tightly covered container from the date of
delivery, during this period they shall be suitable for easy application. Residues
shall be easily and completely remissible.
2.3. The paints shall possess good coverage and good leveling without sagging on
vertical surfaces. In general, curing of paints shall provide optimum smoothing
of the paint film.
2.4. The workshop painting has to be resistant to sea-water and condensation and
has to be suitable for sea transport either on deck or below deck, for a service
life until application of the finishing coat without repainting.
For local fabricated and field assemble piping, pipe supports and steel
structures finish application, Top Coat Painting shall be performed at the field
after erection
As a rule, sand blasting shall be done outside of Company property area. Sand
blasting at field shall be avoided to prevent spreading dust which may cause
5. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:5 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
negative effect to working environment and construction quality, any sand
blasting at field shall be submitted to Company for approval in prior.
2.5. Requirements for painting of piping include the entire piping system (pipe
fittings, flanges, valves, strainers, traps, etc.). Uninsulated portions of insulated
or fireproofed equipment or piping systems (e.g., vessel nozzles, manway
covers, valves, relief valves, brackets, etc.) which extend beyond the insulation
of fireproofing system, shall be painted including the welded joint.
2.6. Uninsulated piping items with an operating temperature more than 500ºC shall
be protected by a temporary anti-corrosive primer. These items shall be blast-
cleaned at the site.
The temporary corrosion protection need not be removed from items to be
insulated.
2.7. Paint and painting materials approved by Company will be used. These
materials shall be delivered to the job site in sealed and labeled containers. The
paints shall be supplied in tightly-covered sheet metal containers.
The containers shall be labeled or marked as follows as a minimum:
Manufacturer’s Name:
Type of paint and related thinner:
Color of paint and related thinner:
Color:
Weight: gross net
Filling date:
2.8. Paint shall be thoroughly mixed and thinned in accordance with the
manufacturer instructions immediately prior to application. Only thinners of a
type recommended by the paint manufacturer shall be used.
6. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:6 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
2.9. The equipment listed below shall be shielded to prevent damage during surface
preparation and painting operations as minimum.
Nameplates
Packing Glands
Packing Seals
Bearings
Rotating Equipment Couplings
Rotating Equipment shafts
Lubrication fittings
Pressure gauges
Gauge glasses
Motor starters
Instrument dials
Vents
Exposed linkages
Valve stems
Light bulbs
Light bulb enclosures
Light reflectors
Air intakes
7. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:7 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
Rubber parts and plastic
Glass
All opening, including those that are flanged or threaded, shall be sealed to
prevent entry of sand dust, or coating material.
After completion of painting all material used for shielding and sealing shall be
removed.
2.10. The following equipment and material shall not be painted:
All equipment and materials to be fabricated by Non-ferrous materials, example:
stainless steel, aluminum, brass, copper, plastic, protected metal (such as
rubber lining surfaces) and galvanized metal.
Name plates and identification numbers plate.
Finished machine parts of machinery (example, gasket surfaces, valve stem,
packing units of regulator valves, or to control springs, rods, shafts, or other
sliding or wearing surfaces of turbines, engines, motors or equipment.).
Equipment supplied with manufacturer’s standard finish coat
Concrete, Building Brick, Masonry Units and Wall Tile, Asbestos Cement
Outside surface of insulation jacket.
2.11. Unless otherwise specified, the following items shall be hot dip galvanized steel.
Anchor bolt
Bolt and nut on platform
Stair tread grating
Open grid flooring
8. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:8 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
Grating for floor plate
Steel in part which embedded in concrete
2.12. Unless otherwise specified, the following items shall be painted steel.
Handrail
Ladder
Checker plate for floor plate
3. PAINTING MATERIALS
3.1. Table of painting materials and systems
The dry film thickness (DFT) show below is the minimum thickness, in case
Vendor’s recommended thickness is bigger, it shall be submitted to
Company for approval in prior.
SYSTEM
PRETREATMENT
TO CLAUSE
FIRST PRIME,
FILM THICKNESS
SECOND COAT,
FILM THICKNESS
FINAL TOP COAT,
FILM THICKNESS
REMARK
A SP-1
SP-10
2-component
Ethyl-Zinc-Silicate
Gray or Gray Green
Zinc content ≥ 80%
by weight
DFT 75 µm
2-component
High Build Epoxy
MIO
Color see section 7
Volume Solid
≥ 70%
DFT 125 µm
2-component
Aliphatic
Polyurethane
Color see section 7
Volume Solid
≥ 50%
DFT 50 µm
Total DFT:
250 µm
B SP-1
SP-10
2-component
Ethyl-Zinc-Silicate
Gray or Gray Green
Zinc content ≥ 80%
by weight
DFT 75 µm
1-component
silicone acrylic
aluminum
Volume Solid
≥ 35%
DFT 40 µm
1-component
silicone acrylic
aluminum
Volume Solid
≥ 35%
DFT 40 µm
Total DFT:
155 µm
C SP-1
SP-10
2-component
Ethyl-Zinc-Silicate
Gray or Gray Green
Zinc content ≥ 80%
1-component
silicone aluminum
Volume Solid
≥ 40%
DFT 25 µm
1-component
silicone aluminum
Volume Solid
≥ 40%
DFT 25 µm
Total DFT:
125 µm
9. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:9 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
Painting materials and systems for the following shall be recommended by
Manufacturer and approved by Company in prior.
- Cyclic service
- Repair painting. Systems for repair painting shall be applied for field
welding seam also.
3.2. A brand of paints to be used shall be determined in strict according with the
Equipment Vendor’s directions.
3.3. Primers, undercoats and finishing paints for any particular painting system shall
ensure compatibility.
by weight
DFT 75 µm
D SP-1
SP-10
2-High Density
Modified Epoxy
Volume Solid
≥ 70%
DFT 150 µm
-
2-High Density
Modified Epoxy
Volume Solid
≥ 70%
DFT 150 µm
Total DFT:
300 µm
B1 SP-1
SP-10
2-Component
Epoxy Phenolic
Volume Solid
≥ 60%
DFT 125 µm
- 2-Component
Epoxy Phenolic
Volume Solid
≥ 60%
DFT 125 µm
Total DFT:
250 µm
C1 Recommended by Manufacturer and approved by Company
E SP-10 High Build high
epoxy
Volume Solid ≥ 80%
DFT 250 µm
- High Build high
epoxy
Volume Solid ≥ 80%
DFT 250 µm
Total DFT:
500 µm
10. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:10 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
4. APPLICATION OF PAINTING SYSTEMS
4.1. GENERAL
4.1.1. Paint shall be applied by one, or a combination, of the following methods;
Brushing.
Roller Coating.
Air Spraying.
Airless Spraying.
4.1.2. The method of application shall be governed by the paint Vendor’s
recommendation for the particular paint being applied. (For application
techniques, requirements and precautions, SSPC-PA1 shall be used as a
general reference.)
4.1.3. Contact surfaces shall be painted as follows:
Contact surfaces of steel members to be joined by bolting in friction-type joints
shall be painted with inorganic zinc primers.
Steel coated in the shop or in the field before erection shall not be coated within
two inches of the edges to be welded except for inorganic zinc primers.
Steel Surfaces in direct bonded contact with concrete, embedded in specific
cases where corrosion of the steel is expected to be a problem.
4.1.4. Repair Work
Shop painted equipment shall only be spot cleaned in damaged area by means
of power tool brush cleaning and then spot primed, before applying a finish coat,
unless otherwise specified.
11. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:11 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
4.1.5. After conducting pressure test, weld seam of piping, which is welded at field,
shall be cleaned by means of power tool brush cleaning and then primed,
before applying a finish coat.
4.1.6. Painting system for the following equipment shall be subject to the Vendor's
specification.
HVAC equipment including ducts, electrical/instrument equipment, etc. which
are supplied by HVAC Vendor except outdoor piping.
Crane equipment such as hoist, girder, electrical /instrument equipment, etc.
which are supplied by crane Vendor.
Elevator equipment including door, car frame, governor, electrical/instrument
equipment, etc. which are to be supplied by elevator Vendor
4.2. PAINTING SYSTEMS FOR NON-INSULATED SURFACES
NO. EQIPMENT OR MATERIAL
DESIGN
TEMP
O
C
Painting
System
PAINTING
REMARK
SHOP FIELD
1 All steel structures include pipe
racks, pipe support, support of
equipment e.g. skirts, saddles,
etc.
0-100 A I-III IV See note 5)
2 All steel structure as per No.1
above
101-200 B I-III IV See note 5)
3 Equipment and vessels, heat
exchangers, and columns, etc.
0-100 A
I-IV
See notes 3) and 4)
4 Furnaces, chimneys, flue gas
ducts, Boiler part, equipment and
vessels as per No. 3
101-200 B I-IV Skirts, saddles and
brackets, ladders and
platform to be painted
No:1 or No:2
5 Equipment, vessel and items as
per No. 4
201-500 C I-IV Skirts, saddles and
brackets, ladders and
platform to be painted
No:1 or No:2
12. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:12 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
NO. EQIPMENT OR MATERIAL
DESIGN
TEMP
O
C
Painting
System
PAINTING
REMARK
SHOP FIELD
6 Pipes, fittings, flanges 0-100 A I, II III, IV See notes 1) and 2)
7 Pipes, fittings, flanges 101-200 B I, II III, IV See notes 1) and 2)
8 Pipes, fittings, flanges 201-500 C I, II III, IV See notes 1) and 2)
9 Pipe in trenches 0-140 D - I-IV
10 Control valves, Valves 0-500 - See
remark
Painting with
consideration of design
temperature per
manufacture’s
standard final top coat
color per section 7
11 All rotating machines (such as
pumps, motors, compressors) and
switch boards and control
instruments
0-500 - See
remark
Painting with
consideration of design
temperature per
manufacture’s
standard final top coat
color per section 7
12 Outside surface of storage tanks
and spheres
0-100 A - I-IV
13 Inside surface of tank basins up to
1 m. height including basin floor
0-140 D - I-IV Over 1 m. as per cons
No.12
14 Inside surface of storage basins - See
remark
To be determined
individually with
respect to the service.
Manufacturer of the
coating must produce a
certificate of
applicability
15 Tank platforms, tank surfaces
subject to foot traffic, checkered
plate covering of platform
0-140 D I-II III, IV See notes 1) and 2)
16 Equipment subject to chemical
storage inside or outside loading
facilities
See
remark
To be determined
individually with
respect to the service.
Manufacturer of the
coating must produce a
certificate of
applicability.
13. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:13 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
NO. EQIPMENT OR MATERIAL
DESIGN
TEMP
O
C
Painting
System
PAINTING
REMARK
SHOP FIELD
17 Equipment subject to immersion in
water or to continuous wetness of
steel surfaces.
0-140 D - I-IV
18 Un-insulated carbon steel with
high corrosive area as marine or
salinity condition.
0-100 E I-IV
NOTE:
In case of field fabrication, all painting work shall be done at field. Sand blast and
primer shall be finished before field fabrication.
I = SURFACE PREPARATION
II = PRIMER
III = SECOND COAT
IV = TOP COAT
Note1: In case of field fabrication, all painting work shall be done at field. Sand
blast and primer shall be finished before field fabrication. For piping fabricated
spool, second coat and top coat at shop can be proposed for approval during
execution phase.
Note2: All painting (I, II, III and IV) for piping furnished on equipment package shall
be finished from the manufacturer.
Note3: Equipment shall mean drum, hopper, tower and other static equipment.
Note4: Chute and duct shall be included in pipe.
Note5: For steel structure exclude pipe support and support of equipment, top coat
shall be done at shop.
14. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
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Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
4.3. PAINTING SYSTEMS FOR INSULATED SURFACES
Note1: In case of field fabrication, all painting work shall be done at field. Sand
blast and primer shall be finished before field fabrication
Note2: Equipment shall mean drum, tower, hopper, and other static equipment
Note3: Chute and duct shall be included in pipe.
NO.
EQIPMENT OR
MATERIAL
DESIGN
TEMP
O
C
Painting
System
PAINTING
REMARKSHOP FIELD
1 Steel structures,
equipment
0-100 A I-III - First and second
prime coat only See
notes 2) and 3)
2 Steel structures,
equipment
101-200 B1 I-IV - See notes 2) and 3)
3 Pumps, motors,
compressors
-70-500 - See
remark
- Painting with
consideration of
design temperature
per manufacturer’s
standard final top
coat color per section
7
4 Piping components,
flanges, supports etc.
below 0 A I, II III See note 1)
5 Piping components,
flanges, supports etc.
0-100 A I, II III See note 1)
6 Piping components,
flanges, supports etc.
101-200 B1 I, II III-IV See note 1)
7 Piping components,
flanges, supports etc.
201-500 C1 I, II III-IV See note 1)
8 Control valves See
remark
Painting with
Consideration of
design temperature
per manufacturer's
standard final top
coat color per section
7
9 Tank with cold
Insulation
See
remark
Refer to attachment 2
15. Long Son Petrochemicals Co., Ltd.
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SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
5. SURFACE PREPARATION
5.1. Surfaces shall be thoroughly cleaned of any material conducive to premature
failure of the paint coating. The method of surface preparation used shall be
compatible with, and suitable for, the prime coat of paint.
Following is a tabulation of acceptable cleaning and inspection methods.
SYSTEM SSPC VISUAL COMPARISON
METHOD NACB SPC-VISI
Solvent Cleaning SSPC- SP1 - -
Hand Tool Cleaning SSPC-SP2 - St. 2
Power Tool Cleaning SSPC- SP3 - St. 3
White Metal Blast Cleaning SSPC- SP5 NACB # 1 Sa. 3
Commercial Blast Cleaning SSPC- SP6 NACB # 3 Sa. 2
Brush-Off blast Cleaning SSPC- SP7 NACB # 4 Sa. 1
Pickling SSPC- SP8 - -
Near-White Blast Cleaning SSPC- SP10 NACB # 5 Sa. 21/2
5.2. Prior to blast cleaning, oil and similar matter shall be removed with a solvent
wash (SSPC-SP1). Blast cleaning with grit or synthetic abrasives is preferred to
sand.
5.3. Prior to power tool cleaning, oil, grease and salts shall be removed by solvent
cleaning. Exercise care in the use of tools to prevent excessive roughening of
the surface and the formation of ridges and burrs. Excessive power wire
brushing produces a burnished slick surface not suitable for coating.
5.4. Only power sanding shall be when cleaning of a zinc-rich primed surface is
required prior to application of topcoat.
16. Long Son Petrochemicals Co., Ltd.
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SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
5.5. Prior to solvent cleaning, soil, cement splatter, salts, or any other foreign matter
(other than oil or grease) shall be removed by a steel fiber brush, wire brush, or
by scraping.
6. PAINTING PROCEDURE
6.1. Brushing, spraying, roller coating or other suitable methods shall be used
depending on the kinds of paints, surfaces and materials to be painted, or
circumstances of working area. Where surface preparation of Grade SP-3 is
applied, the first coat shall be painted with brush, as a rule.
6.2. Materials shall be mixed in the temporary warehouse or area designated in the
field. In general, approximately less than two liters of paint per person shall be
brought into the working area, except when spraying is used.
6.3. Prior to application, paints shall be well agitated to give uniform mixing.
6.4. A mixing ratio of the components shall strictly be adhered to where multi-
component paints are used.
6.5. Where thinner is used to thinning the paints, its volume shall be limited to the
extent specified by paint Vendor’s standard.
6.6. No blasting operation on steel surfaces shall be done in the following conditions
on the working area:
Surface temperatures is less than 3 o
C above the dew point
Relative humidity is greater than 85%
There is a possibility that the blasted surface will be subject to wetting before
the first coat of primer can be applied
6.7. No painting operation shall be done in the following weather conditions on the
working area:
17. Long Son Petrochemicals Co., Ltd.
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SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
Rain, snow, fog, or mist. Weather is forecasted to become adverse before the
paint has been dried.
Dust effects adversely due to high wind.
Ambient temperature is 5ºC or below.
Relative humidity is 85% or more.
6.8. When the surface to be painted is wet or damp, but unavoidably requires the
painting, painting shall be done after fully wiping-away moisture and completely
drying of surface.
6.9. When the temperature of surfaces of materials to be painted is adversely high
over the Vendor’s recommend value, painting operation may not be done.
6.10. The primer coat of paint shall be applied within 5 hours after of surface
preparation finished before any rusting occurs (if rust forms after cleaning, the
surface shall be recleaned before painting).
6.11. Since freshly blasted surfaces are subject to immediate corrosion, particularly in
areas of high humidity or salt atmosphere, no more blast cleaned surface than
can be primed before visible or detrimental rerusting occurs. Blasted surfaces
shall be primed no later than the end of the same work day.
6.12. No stripping of primer coat is necessary for equipment and materials which
have been shop-coated except when they require repairing. All shop or factory
primed or factory painted metal surfaces shall be inspected prior to field painting.
Damaged areas or loose, cracked, brittle or non-adherent paint shall, however,
be removed and repainted.
6.13. Surfaces shall not be recoated until the proceeding coat has properly dried or
cured. The surface may be considered ready for recoating when the next coat
can be applied without the development of paint film irregularities, such as lifting
or loss of adhesion of the undercoat. However, the minimum or maximum
drying or curing time specified by the paint manufacturer shall be the acceptable
18. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
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SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
recoat period. Paint shall not be force-dried under conditions which will cause
cracking, wrinkling, blistering, formation of pores, or which will be detrimental to
its condition or appearance. Newly painted surfaces shall be protected to the
fullest extent practicable from rain, condensation contamination, snow and
freezing until the coating has dried.
6.14. The effectiveness of painting is influenced by the performance of surface
preparation; therefore full precaution shall be paid to keep the surface in good
condition.
6.15. Painting shall be carefully done at all edges, corners, crevices, rivets, bolts and
nuts, welds, and other complex shapes, because those parts are apt to rust.
6.16. Prior to fabrication or installation, primer coat shall be applied to the parts which
are not accessible after fabrication or installation.
6.17. In the following cases, repair painting shall be done:
When any detrimental film or irregularity develops, such as lifting or loose
adhesion of the coat due to change of weather before dried.
When any detrimental film or irregularity, such as loose, cracked, brittle or non-
adherent paint or discoloration during 2 or 3 days after completion of painting.
Other unacceptable cases by Company’s inspection.
6.18. When the paint which contains Zinc is applied, stainless steel equipment and
piping in the vicinity shall be fully covered with sheet and protected from Zinc
contamination.
Touch-up paint and paint for weld seam, that are applied at field, shall be Zn-
free type.
6.19. Sprayed coatings shall be cross-spray-applied to insure uniform sags.
19. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
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SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
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6.20. Prior to packing, all heavy deposits of oil, grease, soil or other similar substance,
shall be removed by solvent cleaning, scraping or brushing.
7. COLOR OF THE FINAL TOP COAT
7.1. This specification covers the color coding of equipment and piping, irrespective
of where the last top coat was applied (At the manufacturer’s or on the job site)
7.2. The Specified RAL colors shall be used for indoor as well as outdoor coating.
The colors shall be used for coating systems with maximum allowable working
temperatures up to 100 o
C. For higher temperatures the colors shall be
adapted to the possibilities specified by the manufacturer.
The final top coat color shall be as specified in the following tables:
COLOR SPECIFICATION FOR EQUIPMENT AND PIPING
NO. DESCRIPTION FINAL COLOR REMARKS
NAME RAL NO.
1 Vessels Gray RAL 7023
2 Heat Exchanger Gray RAL 7023
3 Storage Tank White RAL 9016
4 Machineries (such as
pump, compressor, blower,
fan, steam turbine,
conveyor, agitator, etc.)
Silver gray RAL 7001
5 Motor Stone gray RAL 7030
6 Indoor/Outdoor Piping Gray RAL 7035
7 Valves(Body) White aluminum RAL 9006
8 Hand wheels, operating
20. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
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NO. DESCRIPTION FINAL COLOR REMARKS
NAME RAL NO.
levers
CSO, LO Type
CSC, LC Type
OTHER Type
Green
Red
Black
RAL 6018
RAL 3017
RAL 9005
9 Pipe Rack and Steel
Structure
Green RAL 6010
10 Handrails, railigs, Protection
cages
Yellow RAL 1012
11 Stairs/walk way Green RAL 6010
12 Ladder rungs Yellow RAL 1021
13 Fire-fighting systems/piping Red RAL 3000
14 Refrigeration system Gray RAL 7023
15 Cranes, lifting Yellow RAL 1012
16 Coupling guard Orange RAL 2000
17 Packaged machines Manufacturer's standard
21. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:21 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
COLOR SPECIFICATION FOR INSTRUMENT AND ELECTRICAL
NO. DESCRIPTION FINAL COLOR REMARKS
NAME RAL NO.
1 Instrument panels Gray RAL 7035
2 Control cabinets, control
desks and panels, switch
gear, distribution boxes
Gray RAL 7035
3 Support Gray RAL 6011
4 Cable duct Gray RAL 7035
5 Transformers/Rectifiers Gray RAL 7035
6 Lighting accessories Gray RAL 7035
7 Control valve, On-Off valve
Body and Yoke
Actuator
ESD valve
FGS valve (water)
FGS valve (foam)
Other
Silver
Red
Red
Orange
Manufacturer’s
standard
RAL xxxx
RAL 3000
RAL 3000
RAL 2003
8 Miscellaneous Manufacturer’s standard
22. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:22 of 35
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SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
8. INSCRIPTION AND MARKING
8.1. The piping or pipe insulation shall be color-coded by a sufficient number of ring
intervals to identify routing of medium easily as specified in Attachment 1 of this
specification.
Un-insulated utility piping shall be fully painted with the respective color.
8.2. The vessels shall be marked with clearly legible letters and figures.
8.3. Piping shall be marked with color code, fluid, description of source and
destination and flow direction.
8.4. All marks and signs shall have a suitable size so that they can be seen from a
reasonable distance.
8.5. Safety sign, diamond sign and warning sign shall be provided.
8.6. The lettering and markings for tower, vessel, heat exchanger, reactor, tank,
heater, etc. shall be provided at field.
8.7. The extent of lettering for equipment will include Item Number and Name,
unless otherwise specified. All equipment numbers shall be clearly marked for
itemized equipment.
8.8. The details of inscription and marking shall be referred to Attachment-1 of this
specification
9. GUARANTEE
9.1. All coating work shall be expected life for a period of 5 years.
9.2. The guarantee shall be 18 months after mechanical completion or 12 months
after plant acceptance whichever is longer.
23. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:23 of 35
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SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
10. PAINT INSPECTION
10.1. GENERAL
All materials, equipment and work shall be available to the Company and/or a
third party inspectors, including the coating Vendor at all times. Contractor shall
employ specialist paint and coating inspectors.
10.2. INSPECTION REQUIREMENT
As a minimum, the following inspection functions shall be performed:
Materials
- Inspect coating and blasting materials upon receipt of materials.
- Verify that storage conditions for the materials are adequate and
properly maintained.
- Verify that shelf life of coating materials has not been exceeded.
- Verify that materials are stored safely and that all waste is disposed
of promptly and safely.
- Prior to the painting works, the paint shall be visually checked to
identify any abnormal condition that will affect quality, and weather
conditions will be checked to ensure appropriate conditions for paint
application.
Equipment
- Verify adequacy of coating, clearing and sandblasting equipment.
- Verify air supply for blast cleaning, pneumatic tools and spray
equipment are free of moisture and oil.
24. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
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permission of Long Son Petrochemicals Co., Ltd.
- Air compressors for blast cleaning, pneumatic tools and spray
equipment shall be equipped with adequately sized oil and water
separators which are properly maintained. Separators shall be bled
continuously.
- The air supply shall be tested for oil and water contamination in
accordance with ASTM D4285. All lines shall be tested
separately. Testing shall be performed at the beginning and end of
each work shift and at not less than four hours intervals.
- In the event that contamination is discovered, all necessary
corrective actions shall be made and the air supply retested.
Coatings which are determined to have been applied using
contaminated air shall be removed and reapplied using clean air and
abrasive.
Surface Preparation
- Confirm that surface preparation takes place when atmospheric
conditions are acceptable in accordance with this specification and
the Vendor painted requirements.
- Inspect correctness of surface preparation for specified cleanliness
and anchor profile. All cleaned surfaces shall be inspected for proper
cleaning and anchor profile using either SSPC or ISO visual
comparators prior to commencing coating
application. Additionally, surface preparation anchor profile shall be
verified by using either course or extra course replica tape, as
required by profile depth, and a spring loaded micrometer, in
accordance with ASTM D4417, Method C. SSPC-Vis 1 or ISO visual
standards shall be used for confirming the degree of surface
cleanliness, when adequacy of cleaning is in question.
25. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
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Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
- Immediately after completion of surface preparation, the surface shall
be visually checked for each unit area 1 m2 and confirm that it meets
the requirements specified in the section 3 and 4 of this specification.
Application
- Verify that correctness of mixing and any required induction time is
complied with.
- Verify application takes place during proper specified atmospheric
conditions.
- Verify that “pot life” is not exceeded.
- Verify that methods of application are as recommended and of
satisfactory standard.
Film Thickness
- Monitor wet film thickness of each coat to assure that the final DFT
will be as specified.
- Verify dry film thickness of each coat and of the total system is as
specified.
- The DFT shall be checked in accordance with the procedure defined
by SSPC-PA2 using a magnetic gauge that has been properly
calibrated. All gauges shall be adjusted to compensate for the
substrate effect prior to application of any coating.
- At each step of painting work, number of coats shall be confirmed as
in accordance with requirements specified in the section 3 and 4 of
this specification.
26. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:26 of 35
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SP-009 : PaintingContract No : LSP-CA-131
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Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
- Drying duration and dryness of previous paint shall be checked by
touching with fingertip and by Vendor’s instruction before subsequent
coating.
Repairs
Verify that any and all repairs have been made. Defective work shall
be corrected at no cost to the Company.
Curing
Verify that coating system is cured as specified by the paint Vendor’s
printed instruction for recoat intervals.
Visual
The finished coating work shall pass visual inspection by Company’s
authorized inspector(s). The final coating shall be of uniform color
and smoothness and in accordance with section 4 of this
specification coating work, indicating defects, improper application,
runs, sags, damages, excessive repairs, incomplete curing or
excessive thickness is subject to rejection. It is the coating
Contractor’s responsibility to correct any work found by these
inspection, including conditions discovered after acceptance, not to
be in compliance with these requirements.
10.3. INSPECTION RECORD
10.3.1. The coating inspector shall prepare progress records and keep them updated.
Records shall document the following, as a minimum:
All daily progress, including approval of prepared surfaces for coating, priming,
and finish coat.
27. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
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General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
Daily weather conditions, including humidity, ambient temperature, dew point,
surfaces temperature and any fluctuations in these conditions which affect the
coating work.
Information on conditions responsible for suspending any coating work.
All materials delivered satisfy specification requirements.
10.3.2. Coating inspection records shall be submitted to the Company for use in
preparation of a final inspection report.
10.3.3. Inspection record form attached in attachment-3 shall be for shop inspection.
11. TRANSPORTATION
11.1.1. Painted products shall not be moved or transported until the required curing
period has elapsed.
11.1.2. Painted products shall be handled, moved or transported in such a manner as
will not damage the paint film. To that end, appropriate protective measures
shall be taken.
12. ATTACHMENT
12.1. ATTACHMENT 1- INSCRIPTION AND MARKING DETAIL
12.1.1. MARKING ON EQUIPMENT
Equipment shall be marked with tag no. and hazardous material coding in
accordance with NFPA 30.
POSITION OF LETTERING
- The equipment tag no. shall be placed where it can be easily seen
from the road or normal operational side. Exact lettering position
shall be determined at field one by one.
28. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
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permission of Long Son Petrochemicals Co., Ltd.
- In principal, lettering shall be approximately 1,500 mm above the
ground.
- All rotating equipments e.g. pump, compressor, blower, motor, etc.
shall have clearly marked number at the foundation at the end side of
motor and the cover of coupling.
LETTERING SIZE
- The size of lettering shall be as follows;
EQUIPMENT TO BE LETTERED SIZE OF LETTER (mm)
50 m < Diameter 900 X 720
15 m < Diameter ≤ 50 m 600 x 480
5 m < Diameter ≤ 15 m 300 x 240
1 m < Diameter ≤ 5 m 100 x 80
- Space between letters shall be 10 % of the size of the letter, but
minimum space shall be 15 mm.
LETTERING STYLE
- The style of the letter shall be Gothic type.
LETTERING COLOR
- The color of the letter shall be black (RAL No. 9005).
- When the color for lettering is not clearly visible because of any
reason such as the finish color of equipment, a background color
coating (White RAL 9002) shall be applied.
29. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
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_____________________________________________________________________________________________
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permission of Long Son Petrochemicals Co., Ltd.
LETTERING PAINTING SYSTEM
- Painting system shall be same as final coat.
12.1.2. IDENTIFICATION OF PIPING SYSTEM
Piping shall be marked with color code, fluid, description of source and
destination, and flow direction. Un-insulated utility piping shall be fully painted
with the respective color code.
LOCATION OF MARKING
In general, identification marks shall be located where it can be seen
easily and applied to the following locations of piping system.
- East, west, south and north battery limits of the Plant.
- At each of 100 m. of piping.
- Intersection, bending and turning point to sub-pipe rack.
- The inlet and outlet portion of rotary machines.
- Steam manifolds
- Utility stations
30. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
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permission of Long Son Petrochemicals Co., Ltd.
LAYOUT OF MARKING
The layout of marking shall be as follows;
Space between color band, letter and arrow shall be the same as the size
of the letter, but the maximum space shall be 50 mm.
Fluid name shall refer to P&ID.
WIDTH OF COLOR BAND
The width of color band shall be as follows;
PIPE SIZE (INCH) WIDTH (mm)
Pipe Diameter is less than 8 inches 100
Pipe Diameter is 8 inches and over 200
Note:
- In case of insulated piping, the outer size of the insulation jacketing
shall be applied as pipe size in above table.
- Un-insulated utility piping shall be fully painted with the respective
color code.
31. Long Son Petrochemicals Co., Ltd.
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_____________________________________________________________________________________________
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permission of Long Son Petrochemicals Co., Ltd.
ARROW
The shape and size of arrow shall be as follows;
PIPE SIZE
(inch)
DIMENSION(mm)
W1 W2 L1 L2
Diameter < 3 15 30 20 70
3 ≤ Diameter < 10 25 50 35 130
10 ≤ Diameter 45 90 60 200
Note:
In case of insulated piping, the outer size of the insulation jacketing shall
be applied as pipe size in above table.
32. Long Son Petrochemicals Co., Ltd.
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_____________________________________________________________________________________________
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permission of Long Son Petrochemicals Co., Ltd.
SIZE OF LETTERING
The size of lettering shall be as follows:
EQUIPMENT TO BE
LETTERED
SIZE OF LETTER (mm)
Diameter < 3 10 X 10
3 ≤ Diameter < 10 50 X 50
10 ≤ Diameter < 24 80 X 80
24 ≤ Diameter 100 X 100
Note:
- In case of insulated piping, the outer size of the insulation jacketing
shall be applied as pipe size in above table.
- Space between letters shall be 10 % of the size of the letter, but
minimum space shall be 5 mm.
COLOR OF IDENTIFICATION
- The color of the letter shall be Black (RAL 9005).
- When the color for lettering is not clearly visible because of the finish
color of piping, a background color coating (White RAL 9002) shall
be applied.
- The piping color code shall be as specified in TABLE - PIPING
CODE COLOR
PAINTING SYSTEM
Painting system shall be same as final coat.
33. Long Son Petrochemicals Co., Ltd.
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_____________________________________________________________________________________________
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permission of Long Son Petrochemicals Co., Ltd.
PIPING CODE COLOR
SERVICE
COLOR OF PIPE COLOR CODE COLOR CODE
(NON-INSULATED) GROUND COLOR ARROW COLOR
1.OIL
1.1 LO SS BROWN (RAL 8001) WHITE (RAL 9003)
1.2 SO SS BROWN (RAL 8001) WHITE ALUMINUM (RAL 9006)
1.3 WG GRAY (RAL 7035) BROWN (RAL 8001) BLACK (RAL 9005)
2. PROCESS FLUID
2.1 PROCESS HYDROCARBON GRAY (RAL 7035) or SS YELLOW (RAL 1018) WHITE (RAL 9003)
2.2 INFLAMMABLE PROCESS
FLUID
GRAY (RAL 7035) or SS YELLOW (RAL 1018) RED (RAL 3000)
2.3 TOXIC AND CORROSIVE
PROCESS FLUID
GRAY (RAL 7035) or SS YELLOW (RAL 1018) PURPLE (RAL 4005)
2.4 REFRIGERANT GRAY (RAL 7035) or SS YELLOW (RAL 1018) WHITE ALUMINUM (RAL 9006)
2.5 FLARE & BLOW DOWN & HC
DRAIN
GRAY (RAL 7035) or SS YELLOW (RAL 1018) BLACK (RAL 9005)
3.STEAM & CONDENSATE
3.1 STEAM :LS,MS,HS, SS NONE RED (RAL 3020) WHITE (RAL 9003)
3.2 DILUTION STEAM NONE RED (RAL 3020) WHITE ALUMINUM (RAL 9006)
3.3 CONDENSATE: NONE RED (RAL 3020) BLACK (RAL 9005)
4.AIR
4.1 INSTRUMENT AIR GALVANIZE BLUE (RAL 5012) WHITE (RAL 9003)
4.2 DILUTION AIR GRAY (RAL 7035) BLUE (RAL 5012) WHITE ALUMINUM (RAL 9006)
4.3 PLANT AIR GRAY (RAL 7035) BLUE (RAL 5012) BLACK (RAL 9005)
5. FIRE FIGHTING
5.1 FIRE WATER RED (RAL 3000) NONE WHITE (RAL 9003)
5.2 CFW ORANGE (RAL 2003) NONE WHITE (RAL 9003)
6. WASTE, DRAIN, VENT
(NON - HYDROCARBON)
6.1 VENT GRAY (RAL 7035) BLACK (RAL 9005) WHITE (RAL 9003)
6.2 WASTE & DRAIN : GRAY (RAL 7035) BLACK (RAL 9005) WHITE ALUMINUM (RAL 9006)
7. WATER
7.1 CW, RCW GRAY (RAL 7035) GREEN (RAL 6024) WHITE (RAL 9003)
34. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:34 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
SERVICE
COLOR OF PIPE COLOR CODE COLOR CODE
(NON-INSULATED) GROUND COLOR ARROW COLOR
7.2 BFW GRAY (RAL 7035) GREEN (RAL 6024) WHITE ALUMINUM (RAL 9006)
7.3 OTHER: RW, DW, PW
GRAY (RAL 7035) or SS
or GALV
GREEN (RAL 6024) BLACK (RAL 9005)
8 Chemical (NON-INSULATED) GROUND COLOR ARROW COLOR
8.1 ACID VIOLET (RAL 4008) NONE WHITE (RAL 9003)
8.2 CAUSTIC :
CS CONC.>= 50% PINK (RAL 3015) NONE WHITE ALUMINUM (RAL 9006)
CS CONC.<50%, SCS, CD GRAY (RAL 7035) PINK (RAL 3015) WHITE ALUMINUM (RAL 9006)
8.3 OTHER CHEMICAL: GRAY (RAL 7035) Or SS VIOLET (RAL 4005) BLACK (RAL 9005)
9. NITROGEN
9.1 NITROGEN YELOW (RAL 1003) NONE WHITE (RAL 9003)
9.2 LOW PRESSURE NITROGEN YELOW (RAL 1003) NONE WHITE ALUMINUM (RAL 9006)
Note:
- *, SS, Galvanize Carbon Steel Pipe which are not specified the color of pipe
shall be applied only color code stripe
- Insulated Pipe shall be applied only color code stripe.
12.2. ATTACHMENT 2 - PAINTING SYSTEM FOR TANK WITH COLD
INSULATION
PART SIDE DESIGN
TEMP
PAINTING
SYSTEM
PAINTING REMARK
SHOP FIELD
Single Wall Tank
External Below 20 o
C A I,II
Internal Not required
unless
specified in
Engineering
Drawing
35. Long Son Petrochemicals Co., Ltd.
Long Son Petrochemicals Co., Ltd.
Annex C
Page:35 of 35
General Specification
SP-009 : PaintingContract No : LSP-CA-131
_____________________________________________________________________________________________
Confidential: This document is confidential and must not be copied or reproduced except with the express
permission of Long Son Petrochemicals Co., Ltd.
12.3. ATTACHMENT 3 - PAINTING WORK RECORDS (FOR SHOP
PAINTING)