REAL TIME ENERGY OPTIMISATION FEASIBILITY ANALYSIS USING RENKEI CONTROL

Course is FREE.

Next Training Date: 16 January 2025

Training Overview

Unlock the Power of Energy Optimization and Sustainability for Your Organization!

Ready to enhance your energy systems and boost your sustainability initiatives? Join our Workshop on Real-Time Energy Optimization Feasibility Analysis Using RENKEI Control on 16 January 2025, available both online and in-person in Kuala Lumpur.

This hands-on workshop offers a unique learning experience combining training sessions, case studies, practical tools, and system assessments. Discover how RENKEI Control reduces energy consumption through Real-Time Optimization (RTO), assess your system’s energy-saving potential with expert guidance and free tools, and uncover opportunities for efficiency improvements through comprehensive audits.

You’ll also gain valuable insights into implementing RENKEI Control with live demonstrations and explore advanced techniques for energy audits. Learn systematic strategies for improving energy efficiency while aligning with your ESG goals.

This is your chance to transform your energy management practices and drive sustainability. Best of all, registration is free! Don’t miss out—secure your spot today to take your energy optimization to the next level.

Note: The physical slot is limited to 50 pax only and targeted for energy managers, energy auditors and company personnel. The online slot is open to all.

What is RENKEI Control?

RENKEI Control is real time optimisation of multiple equipment to reduce energy consumption in facilities through control via energy digitalisation. It is a quick win approach, requires less investment, a short construction period and is highly cost effective.

Target Participants

Energy Auditors, Energy Managers/Engineers, Energy Service Companies (ESCOs), Sustainability/ESG Manager

Learning Outcomes

    • Understand the fundamentals of RENKEI Control and how it optimizes energy consumption through Real-Time Optimization (RTO) and energy digitalization.
    • Evaluate energy systems’ RTO potential and assess RENKEI Control’s feasibility and energy-saving opportunities using practical tools and techniques.
    • Perform energy audits to identify cost-effective solutions and gain hands-on experience with RENKEI Control assessment tools for improved energy efficiency.

Trainer Profile

Lee Peoy Ying graduated with Bachalor degree of Chemical Process Engineering from Malaysia Japan International Institute of Technology (MJIIT), Universiti Teknologi Malaysia. She has been working with Azbil Corporation in Japan since her graduation in 2019, in the Advanced Solution Department. Her tasks include feasibility studies and implementation of Azbil’s plant operation optimization solution into customer plant.

Ken’ichi Kamada is a manager of Operational Excellence Group, Project Design Department, Innovation Center, Yokogawa Electric Corporation. He has been engaged in research and development on mathematical modeling and optimization technologies for plant operation. He has experiences in projects to improve plant operations in several industry sectors/processes including pulp and paper, wastewater treatment, and chemical recycling processes.

Sei Saisaki is a General Manager of the system engineering department, EBARA DENSAN Limited and a convenor for RENKEI control working group for JEITA. He has actively contributed to infrastructure construction projects like distribution pump stations, irrigation pumping stations, power plants, water treatment plants and incinerator plants in Japan and overseas. Especially, for overseas projects, he has many experiences to plan and design the Japanese ODA project for South-East Asia, Africa and others as an electrical engineer.

Prof. Ir. Ts. Dr. Sharifah Rafidah Wan Alwi is a globally recognized expert in process integration and resource minimization, with over 20 years of experience. She is a Professor in the Faculty of Chemical and Energy Engineering at Universiti Teknologi Malaysia and a Fellow of the Academy of Sciences Malaysia. Prof. Sharifah has led the Process Systems Engineering Research Centre (UTM-PROSPECT) as the Director for a decade. She is also the co-founder and Director of Optimal Systems Engineering Sdn Bhd (OPTIMISE), a UTM spin-off company. Prof. Sharifah is highly active as a consultant, trainer, researcher, and entrepreneur. She holds numerous certifications, including Registered Electrical Energy Manager (REEM), AEMAS Certified Energy Manager (CEM), Certified Trainer for ASEAN Energy Managers, ISO 50001 Lead Auditor, Practicing Professional Engineer, Professional Technologist (Green Technology), HRD Certified Trainer, REISO Lead Assessor, and UKCGE Recognised Research Supervisor. Prof. Sharifah currently serves as the advisor for UTM’s Sustainable Energy Management System, which won the National Energy Award in 2022. She has also been honoured with over 50 international and national awards.

Er Hong An is serving as a Project Engineer at Cyclect Engineering to deliver energy solutions that integrate the EPC for chilled water, advanced cooling, trigeneration, and renewable energy systems. In addition, he is pursuing postgraduate study at Universiti Teknologi Malaysia, focusing on the research in the Heat Integration of non-continuous processes through Heat Exchanger Storage Networks to recover process waste heat. He is proficient in utilizing P-Graph (a MILP framework) and Python to optimize utility system performance. Previously, he worked as a Production Engineer in a steel mill for two years, where he actively contributed to production management, troubleshooting, energy efficiency enhancements, and compliance with international standards, including both ISO 9001 and ISO 14001.

Siti Nor Azreen Ahmad Termizi is a lecturer at the Faculty of Chemical Engineering & Technology at Universiti Malaysia Perlis (UniMAP). She holds both bachelor’s and master’s degrees in Chemical Engineering from Universiti Sains Malaysia (USM) and brings over five years of experience teaching courses in chemical engineering, specializing in process control, dynamics, and simulation. A certified Thermal Energy Recovery Technologist (TERT) at the professional level, she is currently pursuing her PhD at Universiti Teknologi Malaysia (UTM), where her research focuses on advancing heat integration and process control, particularly in the real-time optimization of steam utility plants for Eco-Industrial Parks. She has had a small but impactful role in the RENKEI Control project and other initiatives, such as the Resource Efficiency and Industrial Symbiosis Opportunity (REISO). She remains eager to contribute further to projects that promote sustainable and efficient energy use across various sectors.

Training Mode [Physical / Online]

Training Details

    • Date: 16 January 2025
    • Online Mode
      • Time: 8:30 am to 1.15 pm (GMT+8)
      • Session 1 Only
    • Physical Mode @ Kuala Lumpur
      • Time: 8.30 am to 5.30 pm (GMT+8)
      • Session 1 & 2
      • Limited to 50 participants
    • Fee: Free
Past Participant Reviews
"This workshop truly opened my eyes to the ways modern technology can aid in assessing and implementing energy-saving measures, particularly for systems like chillers, compressors, boilers, and turbines. It has significantly enhanced my understanding and contributed immensely to my knowledge in this field."
"Attending the workshop on RENKEI Control Feasibility Analysis During Energy Audits was an incredibly enriching experience. The comprehensive coverage of RENKEI control systems and integration into energy audits provided valuable insights into optimizing energy efficiency in our organization."
"It is a good opportunity for an existing company/factory to capitalized on the assessment tools to ensure future operation saving & emission compliance."
"The well-structured modules and hands-on exercises enhanced my skills and confidence in applying the concepts learned."
"The trainers were excellent, extremely professional and knowledgeable, and they created positive learning environments."
"Useful new knowledge of applying RENKEI control for analysis energy saving potential of a system."

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