CURRENT RECIPIENTS (IN PERSON DISTANCE) PRESSURE AND HEAT EXCHANGERS DESIGN AND CONSTRUCTION. PV PROGRAM MANAGEMENT ELITE USA 001-609-926497 
Content. Everything essential to the design and construction of pressure vessels and heat exchangers, according to ASME Section VIII, Division I and TEMA. This course will provide participants with the knowledge to design, select, evaluate, detailed calculations, fuzzy rules, techniques for checking commercial sizes of containers, or for special applications, manufacturing, inspection, and testing of pressure equipment. The course is enriched with lots of photographs of construction equipment and a scale model of a heat exchanger type tube housing. Transportation, logistics, and design influences. Who should use the course? mechanical and process engineers, technicians, plant personnel directly involved in the maintenance of equipment, equipment specifications (consultants). People actively involved in the design, fabrication inspection and testing of pressure vessels according to ASME, TEMA. professionals, students, technicians and related to the area of \u200b\u200bequipment and processes. professional or technical work with procurement and construction of static. Students close to graduation. Item Specifics Course I Introduction the Course, Course Objectives and Scope. Pressure Vessel Type Definitions. Jurisdiction of ASME Code Section VIII, Division I. History of the ASME Code. Terms of design according to ASME Code. Heads Design, Thickness For Corrosion, MAWP, Efficiency Together Operating Pressure, Design Pressure, Operating Temperature, Temperature Design. Live loads and dead loads, wind loads, wind load design. Detailed Design vertical containers. Example: In Class Workshop. Open discussion. Theme II Features Construction, Materials, Unequal Diameter Columns, Process Design Skirt. Design Size and Number of Bolts for a container or tank, Torres High Low Design for Wind Loads. Vertical Vessel Design Exposed to Seismic Loads. Anchor Bolt Design for Vertical Torres. Design of Pipe Flanges and Fittings. Nozzle reinforcements. Detailed Design of Horizontal Vessels. Example: Workshop To work in class. Workshop. Open discussion. Factors of size, weight and shape that affect the proper design of a pressure vessel. Transportation. Theme III Charges Consider, combined efforts, container size, caution in selecting a particular design, evaluate the choice, Cream Computer Modeling, Understanding and Interpreting Results, modifying existing vessels (NBCI), Criteria for Pressure / Temperature, additional efforts on Headers, Maximum Allowable Working Pressure, Filling Data Sheets, Gathering Information, Heat Treatment, Painting, Stiffener Ring Compression in the body on the chair, hoop stresses, tangential, and longitudinal. Balancing these as Method Zick. Stiffener in Plan de La Silla. Rings Adjacent to La Silla. Design Chairs. Material considerations. Calculation of combined efforts. Open discussion. Item IV Corps design heat exchanger design body flange. Floating head design. Split ring design. Tubular plate design. How to repair a heat exchanger? How does a retubing?
Content. Everything essential to the design and construction of pressure vessels and heat exchangers, according to ASME Section VIII, Division I and TEMA. This course will provide participants with the knowledge to design, select, evaluate, detailed calculations, fuzzy rules, techniques for checking commercial sizes of containers, or for special applications, manufacturing, inspection, and testing of pressure equipment. The course is enriched with lots of photographs of construction equipment and a scale model of a heat exchanger type tube housing. Transportation, logistics, and design influences. Who should use the course? mechanical and process engineers, technicians, plant personnel directly involved in the maintenance of equipment, equipment specifications (consultants). People actively involved in the design, fabrication inspection and testing of pressure vessels according to ASME, TEMA. professionals, students, technicians and related to the area of \u200b\u200bequipment and processes. professional or technical work with procurement and construction of static. Students close to graduation. Item Specifics Course I Introduction the Course, Course Objectives and Scope. Pressure Vessel Type Definitions. Jurisdiction of ASME Code Section VIII, Division I. History of the ASME Code. Terms of design according to ASME Code. Heads Design, Thickness For Corrosion, MAWP, Efficiency Together Operating Pressure, Design Pressure, Operating Temperature, Temperature Design. Live loads and dead loads, wind loads, wind load design. Detailed Design vertical containers. Example: In Class Workshop. Open discussion. Theme II Features Construction, Materials, Unequal Diameter Columns, Process Design Skirt. Design Size and Number of Bolts for a container or tank, Torres High Low Design for Wind Loads. Vertical Vessel Design Exposed to Seismic Loads. Anchor Bolt Design for Vertical Torres. Design of Pipe Flanges and Fittings. Nozzle reinforcements. Detailed Design of Horizontal Vessels. Example: Workshop To work in class. Workshop. Open discussion. Factors of size, weight and shape that affect the proper design of a pressure vessel. Transportation. Theme III Charges Consider, combined efforts, container size, caution in selecting a particular design, evaluate the choice, Cream Computer Modeling, Understanding and Interpreting Results, modifying existing vessels (NBCI), Criteria for Pressure / Temperature, additional efforts on Headers, Maximum Allowable Working Pressure, Filling Data Sheets, Gathering Information, Heat Treatment, Painting, Stiffener Ring Compression in the body on the chair, hoop stresses, tangential, and longitudinal. Balancing these as Method Zick. Stiffener in Plan de La Silla. Rings Adjacent to La Silla. Design Chairs. Material considerations. Calculation of combined efforts. Open discussion. Item IV Corps design heat exchanger design body flange. Floating head design. Split ring design. Tubular plate design. How to repair a heat exchanger? How does a retubing? 
