Piping Isometrics
. An isometric drawing is a type of pictorial drawing in which three sides of an object can be seen in one view.
. It’s popular within the process piping industry because it can be laid out and drawn with ease and portrays the object in a realistic view.
Piping Isometrics
. An isometric drawing is a type of pictorial drawing in which three sides of an object can be seen in one view.
. It’s popular within the process piping industry because it can be laid out and drawn with ease and portrays the object in a realistic view.
Process Piping Fundamentals, Codes and Standards
One of the most important components of the process infrastructure is the vast network of pipelines —literally millions and millions of miles. The term process piping generally refers to the system of pipes that transport fluids (e.g. fuels, chemicals, industrial gases, etc.) around an industrial facility involved in the manufacture of products or in the generation of power. It also is used to describe utility piping systems (e.g., air, steam, water, compressed air, fuels etc.) that are used in, or in support of the industrial process. Also, certain drainage piping, where corrosive or toxic fluids are being transported and severe conditions may be present, or where it is simply outside the scope of plumbing codes, is also sometimes classified as process piping. Some places where process piping is used are obvious, such as chemical and petrochemical plants, petroleum refineries, pharmaceutical manufacturing facilities, and pulp and paper plants. However, there are many other not so obvious places where process piping is commonplace, such as semiconductor facilities, automotive and aircraft plants, water treatment operations, waste treatment facilities and many others.
This course provides fundamental knowledge in the design of process piping. It covers the guidance on the applicable codes and materials.
This course is the 1st of a 9-module series that cover the entire gamut of piping engineering. All topics are introduced to readers with no or limited background on the subject.
Process Piping Fundamentals, Codes and Standards
One of the most important components of the process infrastructure is the vast network of pipelines —literally millions and millions of miles. The term process piping generally refers to the system of pipes that transport fluids (e.g. fuels, chemicals, industrial gases, etc.) around an industrial facility involved in the manufacture of products or in the generation of power. It also is used to describe utility piping systems (e.g., air, steam, water, compressed air, fuels etc.) that are used in, or in support of the industrial process. Also, certain drainage piping, where corrosive or toxic fluids are being transported and severe conditions may be present, or where it is simply outside the scope of plumbing codes, is also sometimes classified as process piping. Some places where process piping is used are obvious, such as chemical and petrochemical plants, petroleum refineries, pharmaceutical manufacturing facilities, and pulp and paper plants. However, there are many other not so obvious places where process piping is commonplace, such as semiconductor facilities, automotive and aircraft plants, water treatment operations, waste treatment facilities and many others.
This course provides fundamental knowledge in the design of process piping. It covers the guidance on the applicable codes and materials.
This course is the 1st of a 9-module series that cover the entire gamut of piping engineering. All topics are introduced to readers with no or limited background on the subject.
Process Piping Materials
Pipe materials are selected on the basis of service requirements - most important being the strength, and the corrosion resistance (stability). In making a choice, it is necessary to know what materials are available and to what extent they are suited to the specific application. The decision is quite involved and the choice is significantly affected by the environment and the intended use. Some problems may occur because of distortion and cracking caused by thermal expansion/contraction; typically, a high-temperature alloy might change 4 inch per ft. from ambient to 1,000°C (1,832°F).
This course provides fundamental knowledge of the design and selection of process piping materials. It covers the guidance on the applicable codes and materials. It gives the pertinent information of the most common ASME/ASTM codes and material standards highlighting the applications these are suited for. This course is the 2nd of a 9-module series that cover the entire gamut of piping engineering. All topics are introduced to the readers with no or limited background on the subject.
Process Piping Materials
Pipe materials are selected on the basis of service requirements - most important being the strength, and the corrosion resistance (stability). In making a choice, it is necessary to know what materials are available and to what extent they are suited to the specific application. The decision is quite involved and the choice is significantly affected by the environment and the intended use. Some problems may occur because of distortion and cracking caused by thermal expansion/contraction; typically, a high-temperature alloy might change 4 inch per ft. from ambient to 1,000°C (1,832°F).
This course provides fundamental knowledge of the design and selection of process piping materials. It covers the guidance on the applicable codes and materials. It gives the pertinent information of the most common ASME/ASTM codes and material standards highlighting the applications these are suited for. This course is the 2nd of a 9-module series that cover the entire gamut of piping engineering. All topics are introduced to the readers with no or limited background on the subject.
Metal Expansion Joint Training
Thermal Expansion In Piping Systems‐Course Outline
•Principles and calculations of thermal expansion in piping systems.
•Piping system loads and impact on building systems and structural systems
•Metal Expansion Joint Anatomy and options
•Guidelines and methodology for applying and selecting metal expansion devices for compensation of thermal expansion and equipment connections and isolation
Metal Expansion Joint Training
Thermal Expansion In Piping Systems‐Course Outline
•Principles and calculations of thermal expansion in piping systems.
•Piping system loads and impact on building systems and structural systems
•Metal Expansion Joint Anatomy and options
•Guidelines and methodology for applying and selecting metal expansion devices for compensation of thermal expansion and equipment connections and isolation
Water And Wastewater Procedures And Design Manual
Dallas Water Utilities (DWU) provides water, wastewater and reclaimed water services to customers within the City of Dallas and other adjacent communities. DWU maintains or exceeds current standards as set by the Texas Commission on Environmental Quality (TCEQ) for water, wastewater and reclaimed water main design, construction, operation and maintenances (O&M). This manual is to be used by engineering professionals for use in design and construction of water, wastewater and reclaimed water mains owned and operated by DWU.
Water And Wastewater Procedures And Design Manual
Dallas Water Utilities (DWU) provides water, wastewater and reclaimed water services to customers within the City of Dallas and other adjacent communities. DWU maintains or exceeds current standards as set by the Texas Commission on Environmental Quality (TCEQ) for water, wastewater and reclaimed water main design, construction, operation and maintenances (O&M). This manual is to be used by engineering professionals for use in design and construction of water, wastewater and reclaimed water mains owned and operated by DWU.