Next Course Date: 05 & 06 June 2023
Time: 9am - 5pm
Mode of Delivery: Face-to-face
Course Summary
As part of energy conservation, heat recovery and reuse are common practices in the industrial sector. The heat recovery needs to be carried out after a thorough analysis of the waste heat streams. For carrying out or getting involved with such waste heat recovery analysis, a good understanding of the fundamental concepts of heat transfer is very important. Therefore, it is very much imperative to review and refresh the heat transfer concepts in a practical engineering perspective. This two-day course aims to help the industrial professionals to achieve a review of the important heat transfer concepts that will help to sharpen their analytical skill for their day-to-day engineering practice.
Rates (exclusive of GST)
Standard: S$980
SEAS Member: S$875
SCEM: S$930
Certificate
All participants will receive a Certificate of Attendance from SEAS upon completion.
SCEM Participants will be awarded with 14 PDU Points
Course Objective
Upon completion of this course, the participants should be able to develop good understanding of:
(i) Basic heat transfer concepts
(ii) Heat exchanger analysis
(iii) Commonly used heat exchangers in industrial sectors
(iv) Factors affecting the selection of the industrial heat recovery devices
(v) Energy savings and economic analysis of heat transfer applications
Next Course Date: 08 & 09 June 2023
Time: 9am - 5pm
Mode of Delivery: Face-to-face
Course Summary
Pumps take up 20 - 30% in a typical split of energy usage of motor driven equipment for an industrial plant. Commercial buildings, with lower demand for processes, it is between 15 to 20%. The large amounts of energy used for pumping makes pump systems a major candidate for energy savings.
Pumping systems is usually less complicated when compared to process or chiller side optimisation.
Rates (exclusive of GST)
Standard: S$980
SEAS Member: S$875
SCEM: S$930
Certificate
All participants will receive a Certificate of Attendance from SEAS upon completion.
SCEM Participants will be awarded with 5.5 PDU Points
Course Objectives
At the end of the course, participants will be able to:
Next Course Date: 03 - 05 July 2023
Time: 9am - 5pm
Mode of Delivery: Face-to-face
Course Summary
Waste heat recovery (WHR) is very important for both sustainability and profitability of process industries. It is even more important in Singapore because of very high industrial activity and lack of energy resources such as oil, natural gas and coal. WHR has great potential for reducing fresh fuel demand by recovering waste heat and reusing it. It can simultaneously reduce both the heating and cooling loads and hence reduce operating and/or capital costs. It will also reduce CO2 emissions.
Consequently, heat recovery projects can generate credits within the CRM and carbon trade programs, and hence improve financial return on WHR projects. WHR is equally beneficial for both Greenfield (i.e., in new plants) and Brownfield (in existing plants) projects.
Rates (exclusive of GST)
Standard: S$1,308.41
SEAS Member: S$1,202.80
SCEM: S$1,233.65
Certificate
All participants will receive a Certificate of Attendance from SEAS upon completion.
SCEM Participants will be awarded with 20 PDU Points
Course Objective
This workshop will present a comprehensive and concise coverage of fundamentals, advanced topics and practical applications of waste heat recovery (WHR) in industrial processes. In this workshop, simple and effective WHR techniques will be illustrated, with suitable industrial examples, to help participants quickly identify, calculate and develop the heat recovery saving potentials within their processes. Key benefits/drivers of WHR projects will be illustrated; these are very useful to decision makers and engineers for developing successful WHR business cases.
Next Course Date: 17 & 18 August 2023
Time: 9am - 5pm
Mode of Delivery: Face-to-face
Course Summary
Process plant heaters perform the function to heat and maintain the process fluids at the required temperatures for the manufacture of the product. Process boilers/ hot oil systems provide steam/ thermal energy that can be used at multiple units in the process plant. Electrical heating systems are also becoming popular due to higher thermal efficiencies, compared to fossil fuel-based heating systems. Process heating systems evolved over time and in recent years, a considerable number of technical developments have been made for energy efficiency improvements via combustion optimization and increased heat recovery methods. These technical developments help also with operational safety and reduction of pollutant emissions. Many existing process heating systems provide enormous energy saving
opportunities by simple changes in the combustion control and total system approach modifications.
In process plant pumping and heating systems, energy efficiency is an opportunity as energy recovery may not always be economically attractive and thus process plants are better off saving energy in the first place than attempting to recover it at a later stage.
Although fully optimizing any design will require some effort after installation, the prevalence and magnitude of the savings that are commonly found in revamp projects raise the larger question: How much greater would the savings be if pumps and heaters were selected and applied optimally during the design phase? Process duty conditions decisions made during the design phase have enormous implications on Energy costs throughout the operating life of the process plant. In this background the proposed workshop titled "Energy Efficient Engineering of Process Plant Pumping and Heating Systems" attempts to provide the much-needed clarity on the Process design aspects and Mechanical design aspects of Pumping and Heating Systems towards achieving the energy efficiency immediately after commissioning the
Process Plant
Rates (exclusive of GST)
Standard: S$980
SEAS Member: S$875
SCEM: S$930
Certificate
All participants will receive a Certificate of Attendance from SEAS upon completion.
SCEM Participants will be awarded with 6.5 PDU Points
Course Objective
This workshop is designed to enable the practicing Engineers/ Managers/ Academic staff to enhance their knowledge and understanding of the factors that must be considered into the design of Energy Efficient Engineering of Process Plant Pumping and Heating Systems. The key objectives of the workshop are:
For Pumping System
• Understand the technical principles of fluid flow in pumping System
• Evaluate the pumping applications to choose the proper type of pump
• Adopt Systems approach that integrates process and equipment data together with pipe elements, drivers and control elements for an optimum pumping System design that yields the highest efficiency, reliability and maintainability
• Understand the impact of maintenance on pumping System efficiency
For Heating System
• Understand the technical principles of heat generation and heat transfer using heating System
• Evaluate the heating applications to choose the proper type of heating system
• Adopt Systems approach that integrates process and equipment data together with pipe elements, fuel burners and control elements for an optimum heating System design that yields the highest efficiency, reliability and maintainability