This document provides a summary of Ekachai Sribundit's qualifications and professional experience. It outlines his educational background which includes a Bachelor's degree in Electrical Engineering and a Master's degree in Business Administration. It also lists over 20 years of experience in engineering design, project management, and sales for various process industry projects. Specifically, it details Ekachai's most recent roles as the Electrical & Automation Department Manager at LV Technology and as a Lead Electrical Engineer on several power plant, petrochemical, and oil and gas projects.
ANALYSIS OF ENERGY CONSERVATION OF AN INSTITUTIONAL BUILDING USING DESIGN BUI...ijmech
Buildings contribute impact on CO2 emission and energy consumption. Electric energy
consumption in buildings is about 40% of the total energy consumption of India. In this work building
simulation technology is used to evaluate a variety of envelope thermal characteristics and low carbon
technology in an integrated manner at the early design stage itself to assist the delivering of sustainable
green buildings with a high rating of performance and energy consumption. Building simulation enables
designer to identify the key energy loads, test their strategies and compare permutation of design strategy
in order to optimize the energy consumption.
Design Builder (DB) software is used to carry out a series of sensitivity analysis on set of design
parameters, with an aim to achieve a comfortable and energy efficient building. Several parametric studies
have been conducted to enable building designers to carry out analysis of energy efficient building model
related to building orientation, construction, air infiltration, natural ventilation, window type, openings,
and lighting. To calculate the energy saving, basic condition of building model is compared with Energy
Conservation Building Code (ECBC) building model. Consider basic condition of building is case A and
condition of building according to ECBC is case B.
Multi-Objective Optimization Based Design of High Efficiency DC-DC Switching ...IJPEDS-IAES
In this paper we explore the feasibility of applying multi objective stochastic
optimization algorithms to the optimal design of switching DC-DC
converters, in this way allowing the direct determination of the Pareto
optimal front of the problem. This approach provides the designer, at
affordable computational cost, a complete optimal set of choices, and a more
general insight in the objectives and parameters space, as compared to other
design procedures. As simple but significant study case we consider a low
power DC-DC hybrid control buck converter. Its optimal design is fully
analyzed basing on a Matlab public domain implementations for the
considered algorithms, the GODLIKE package implementing Genetic
Algorithm (GA), Particle Swarm Optimization (PSO) and Simulated
Annealing (SA). In this way, in a unique optimization environment, three
different optimization approaches are easily implemented and compared.
Basic assumptions for the Matlab model of the converter are briefly
discussed, and the optimal design choice is validated “a-posteriori” with
SPICE simulations.
ANALYSIS OF ENERGY CONSERVATION OF AN INSTITUTIONAL BUILDING USING DESIGN BUI...ijmech
Buildings contribute impact on CO2 emission and energy consumption. Electric energy
consumption in buildings is about 40% of the total energy consumption of India. In this work building
simulation technology is used to evaluate a variety of envelope thermal characteristics and low carbon
technology in an integrated manner at the early design stage itself to assist the delivering of sustainable
green buildings with a high rating of performance and energy consumption. Building simulation enables
designer to identify the key energy loads, test their strategies and compare permutation of design strategy
in order to optimize the energy consumption.
Design Builder (DB) software is used to carry out a series of sensitivity analysis on set of design
parameters, with an aim to achieve a comfortable and energy efficient building. Several parametric studies
have been conducted to enable building designers to carry out analysis of energy efficient building model
related to building orientation, construction, air infiltration, natural ventilation, window type, openings,
and lighting. To calculate the energy saving, basic condition of building model is compared with Energy
Conservation Building Code (ECBC) building model. Consider basic condition of building is case A and
condition of building according to ECBC is case B.
Multi-Objective Optimization Based Design of High Efficiency DC-DC Switching ...IJPEDS-IAES
In this paper we explore the feasibility of applying multi objective stochastic
optimization algorithms to the optimal design of switching DC-DC
converters, in this way allowing the direct determination of the Pareto
optimal front of the problem. This approach provides the designer, at
affordable computational cost, a complete optimal set of choices, and a more
general insight in the objectives and parameters space, as compared to other
design procedures. As simple but significant study case we consider a low
power DC-DC hybrid control buck converter. Its optimal design is fully
analyzed basing on a Matlab public domain implementations for the
considered algorithms, the GODLIKE package implementing Genetic
Algorithm (GA), Particle Swarm Optimization (PSO) and Simulated
Annealing (SA). In this way, in a unique optimization environment, three
different optimization approaches are easily implemented and compared.
Basic assumptions for the Matlab model of the converter are briefly
discussed, and the optimal design choice is validated “a-posteriori” with
SPICE simulations.
Techno Economic Modeling for Replacement of Diesel Power PlantSyamsirAbduh2
Several problems occur in an old diesel power plant such as derating, low efficiency, high emission and noise decrease the performances of the systems. Besides, most of the old diesel power plants in Indonesia is still use High-Speed Diesel (HSD). In order to decide if the old diesel power plant is still feasible from the technical and economical point of view, a detailed analysis should be done. This paper proposes a model management tools to determine its techno-economic feasibility analysis from some factor such as cost, reliability, availability and economic life. This paper also propose the modeling calculation of Cost of Electricity (COE), Life Cycle Cost (LCC) and Equivalent Uniform Annual Cost (EUAC) methods to determine in techno-economic. A simple case study is discussed. The result recommends for asset retirement without abandonment for the old diesel power plant and replacement with the new Power Plant using a dual fuel engine (Gas Fuel and Marine Fuel Oil (MFO)). From the new power plant, it also can be estimated the replacement should be carried out in 14th year for the future. Finally, model management tools can be used to facilitate decision making in similar cases in the diesel power plant.
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Techno Economic Modeling for Replacement of Diesel Power PlantSyamsirAbduh2
Several problems occur in an old diesel power plant such as derating, low efficiency, high emission and noise decrease the performances of the systems. Besides, most of the old diesel power plants in Indonesia is still use High-Speed Diesel (HSD). In order to decide if the old diesel power plant is still feasible from the technical and economical point of view, a detailed analysis should be done. This paper proposes a model management tools to determine its techno-economic feasibility analysis from some factor such as cost, reliability, availability and economic life. This paper also propose the modeling calculation of Cost of Electricity (COE), Life Cycle Cost (LCC) and Equivalent Uniform Annual Cost (EUAC) methods to determine in techno-economic. A simple case study is discussed. The result recommends for asset retirement without abandonment for the old diesel power plant and replacement with the new Power Plant using a dual fuel engine (Gas Fuel and Marine Fuel Oil (MFO)). From the new power plant, it also can be estimated the replacement should be carried out in 14th year for the future. Finally, model management tools can be used to facilitate decision making in similar cases in the diesel power plant.
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Resume electrical design and site engineer(mep) 9+ years of exp
Ekachai_ResumeRev05
1. Page1 Saved December12, 2016
Name:
Ekachai Sribundit
Position: Senior Electrical Engineer
Education
and
Qualifications
Bachelor of Electrical Engineering (1992), Kasetsart University, Major
in Power System
5 months on Job Training for DCS Configuration in Uhde Germany
(1999)
Master in Management Business Administration (2000),
Thammasart University, Major in Finance
ETAP 115 Power system engineering I workshop conducted by
ETAP AUTOMATION in Chennai, India, December 9 -13, 2014
EPLAN Electrical P8 Version 2.2
Professional
Affiliations:
Associate Electrical Engineer (Power) of Thailand council of engineers
(license number 9172)
Software MS office / Autocad / ETAP
Language Thai (native) / English / Chinese (Mandarin)
Contact
details
Ek108@hotmail.com, ekachai.sribundit@gmail.com
My mobile phone : (+66) 0811701290, Myanmar mobile phone 09786238761
Synopsis: Total twenty one years experience including thirteen years in engineering design, six years
in sale & proposal and two years in project management
The last four years I worked in electrical department as a senior electrical engineer. The
range of experience is predominantly in the process industry covering oil refining, Chemical,
gas processing and petrochemicals, oil & gas
Professional Experience:
Aug 2016 – Present
LV Technology Public Co Ltd.
Electrical & Automation Department manager
To lead, supervise and co-ordinate all the
engineering, drafting and technical clerical
activities of the discipline
Technically responsible for the efficiency
of the group and for the quality of the
work performed.
Conduct technical audits of the discipline
output to ensure accuracy, suitability and
quality objectives are met.
To establish and implement estimating
and productivity standards.
Support Project Managers to ensure that
all discipline work is carried out to the
project budget and detailed plan
Ensure that all contract and/or scope
variations are recorded and presented for
approval by appropriate authorities.
Assist the proposal manager(s) in the
preparation and approval of manhour
estimates and technical qualifications for
all discipline engineering work.
Assist Planning Engineers in the
formation of programs and schedules
and actively review and update
information.
Sep 2015 – June 2016
Tonan Asia Co Ltd.
Lead Electrical Engineer (Part time contract)
On-site lead electrical engineer for the
development and execute detailed engineering
design of block 1 and block 2 combined cycle
power plant (230MW) to be located at Mon state,
Myanmar
2. Page2 Saved December12, 2016
To develop all related engineering
drawing such as single line diagram,
cable routing drawing, lighting and socket
plan drawing, motor schematic diagram,
etc
To develop all relevant electrical
document such as load list, cable
schedule, etc
Prepare calculation sheet such as short
circuit analysis, electrical load analysis,
voltage drop, lighting illumination, etc
To consult any technical issues proposed
by owner engineer
Jan 2015 – July 2015
ThyssenKrupp Industrial Solutions
(Thailand)Ltd.
Lead Electrical Engineer
Lead electrical engineer for the development of
front end engineering design of Olio-chemical
process
To develop all related engineering
document applied to modular plant
design concept
To help preparing technical proposal
Aug 2014 – Dec 2014
ThyssenKrupp Industrial Solutions
(Thailand)Ltd.
Lead Electrical Engineer
Lead electrical engineer for the management and
preparation of poly propylene tender, IRPC
Rayong, Thailand
To develop all concerning engineering
document
To develop first BOQ for estimation
purpose
To help preparing technical proposal
Jan 2014 – May 2014
ThyssenKrupp Industrial Solutions
(Thailand)Ltd.
Lead Electrical Engineer
Lead electrical engineer for the management and
execute of Basic engineering design of Low
Pressure Flare Gas Recovery System Project to
be located at Greater Bongkot North (GBN)
platform (PTTEP, Thailand).
To lead and supervise a team of
electrical engineers on a project, check
and approve their work and take full
responsibility for the execution of the
electrical engineering activities on the
project within the time schedule and
budget
Involve in power study including short
circuit, Motor starting and load flow using
ETAP 12.0 and develop power study
report accordingly
Develop electrical design basis to suit
project requirement
Develop electrical calculation including
power consumption calculation, cable
sizing calculation
Develop electrical lists including electrical
load list, control I/O list, cable list
Develop motor datasheet
Develop diagram including SLD, motor
schematic diagram, electrical block
diagram
Develop electrical layout including cable
routing plan, power and earthing plan
Modify existing 6.6KV feeder wiring
diagram
Material take off
Apr 2013 – Sep 2013
Uhde(Thailand)Ltd.
Lead Electrical Engineer
Lead electrical engineer for the management and
execute of detailed engineering design of NTM-A
flow line and facility upgrade project (PTTEP,
Thailand)
Develop electrical calculation including
power consumption calculation, cable
sizing calculation, illumination calculation,
earthing resistance calculation and
lightning risk analysis
Prepare heat tracing and fire alarm data
sheet
Develop motor schematic diagram
Develop interconnection diagram
Develop single line diagram
Prepare load list / cable schedule / gland
schedule / cable drum schedule
3. Page3 Saved December12, 2016
Develop electrical layout including cable
routing, lighting system, earthing system
and hazardous area classification
Prepare RFQ for heat tracing, lighting,
junction box, remote control unit, fire
alarm, plug and socket
TBE of for heat tracing, lighting, junction
box, remote control unit, fire alarm, plug
and socket
Material take off
Develop construction scope of work
Sep 2012 – Mar 2013
Uhde(Thailand)Ltd.
Lead Electrical Engineer
Lead electrical engineer for the management and
execute of Front End Engineering Design of
Terminal series standard vapour recovery unit
(AKER, Denmark)
Develop design guideline of lighting/small
power philosophy, earthing and lightning
protection philosophy, Cabling, Cable
Ladder and Trenching Philosophy,
hazardous area classification philosophy
Prepare heat tracing and LV induction
motor specification
Prepare motor data sheet
Perform maximum power consumption
calculation
Develop motor schematic diagram
Develop preliminary single line diagram
Prepare load list / cable schedule / gland
schedule
Develop electrical layout including cable
routing, lighting system, hazardous area
classification
Material take off
May 2012– Oct 2012
Uhde(Thailand)Ltd.
Lead Electrical Engineer
Lead electrical engineer for the management and
execute of Engineering Design of Sulphur
treatment vapour recovery unit to be located at
Jurong, Singapore (AKER, Denmark)
Develop electrical load list and electrical
equipment list
Develop MV and LV motor schematic
diagram
Develop hazardous area classification
table
Review / comment on single line diagram
Electrical study for short circuit, load flow
and big motor starting
Develop electrical layout of cable routing,
earthing, lighting and hazardous area
classification
Material take off
Jan 2012 - May 2012
Uhde(Thailand)Ltd.
Lead Electrical Engineer
Lead electrical engineer for the management and
execute of Front End Engineering Design of
refinery plant to be located in Iraq - Daura project
Develop preliminary power consumption
calculation
Develop earthing calculation
Prepare electrical load list and electrical
equipment list
Prepare preliminary cable schedule
Produce layout drawings including
light/power, cable routing, hazardous
area classification
Material take off
Jun 2011 - Dec 2011
Uhde (Thailand) Ltd.
Lead Electrical Engineer
Lead electrical engineer for the management and
execute of Front End Engineering Design of Ole-
chemical project (EMERY OLEOCHEMICALS
SDN BHD, Malaysia) as listed below
Mango 1 Project ( production of Methyl
ester with capacity of 20,000 MT per
year)
Strawberry 3 Project (production of
Ethylene Glycol Di-Stearate, Ethylene
Glycol Mono-Stearate, Stearamidopropyl
dimethyl amine, Linoleamidopropyl PG -
dimonium chloride phosphate and
Cocamidopropyl PG - dimonium chloride
phosphate with total capacity of 9700 MT
per year)
The detailed scope of work include
4. Page4 Saved December12, 2016
Develop major electrical calculation
including short circuit calculation, load
flow analysis, big motor starting analysis
Develop preliminary single line diagram
Prepare preliminary motor load list (major
MV and LV loads)
Prepare technical specification/ data
sheet for major equipment such as
MV/LV induction motor, MV/LV
switchgear, power transformer, LV
distribution board, diesel generator
Prepare major equipment layout such as
switch room, sub-station layout
Prepare preliminary electrical layout
including hazardous area classification
plan, lighting plan, earthing and lightning
protection plan, main cable routing plan
Perform material take-off and FEED level
cost estimate
Oct 2010-Jun 2011
Uhde Shedden (Thailand) Ltd
Project Engineer
Project engineer for LS turnkey EPC project of
new reactive dye process (Huntsman,
Samutsakorn province, Thailand)
Ensuring that procedures, work practices
and quality control practices to fully
support the execution plan are provided,
understood and implemented.
Establishing and maintain interfaces at all
levels and facilitate effective information
flows between the project team
departments, and between the project
team and sector company supporting
Divisions.
Encouraging teamwork and innovation;
ensure that the project team operates in an
environment of cooperation and individual
respect, enabling the company's objectives
to be met.
2005 - 2010
Uhde Shedden (Thailand) Ltd
Sale & Proposal Engineer
Responsible for receipt and review of enquiries,
study tender and pre qualification requirement,
prepare draft proposal and pre qualification, co-
ordinate with all relevant discipline engineers,
submit and follow up the bidding proposal. Major
proposals and pre qualification included;
Tender of EPC service, HUNTSMAN
(Thailand) Limited
Tender for Offshore Engineering Services,
Clough Australia
Tender for Offshore Transportation,
Installation and structural Engineering
Services, NorCE (Thailand) Ltd.
Tender for AN&MMA PMC service, PTT
Asa hi
Tender for Songkhla field development,
NuCoastal (Thailand) Ltd.
Tender for Lactic Acid Plant, PURAC
(Thailand) Ltd.
Pre qualification for Clean Fuel, SPRC
Tender for Offshore Engineering Service,
PTTEP
Tender for Engineering Service, IRPC
Tender for EPC Service - Ethane
Recovery, PTT Chemical
Tender & Pre Qualification for Ethanol
Plant, Thai Oil
Various tenders for umbrella contracts ,
Alliance Refinery Company Ltd.
Tender for EPCM Service of Plant l&ll De
Bottlenecking Project
Tender for EPCM Service of Thai
Ethanolamine, TEA
Tender for Methyl Ester (Bio-Diesel), Thai
Ole Chemical Company Ltd.
1996-2004
Uhde (Thailand) Ltd
Senior Electrical Engineer/Electrical Engineer
Responsible for the management and execute
of all work handled by the electrical department
varying from basic design to detail design and
construction supervision. Major projects
included;
TCL-Offsite Tank Farm Project, TPI,
Electrical Load 1600 KVA , Medium
Voltage 6300/400 V
RAY - DCC Loop Waste Project, TPI,
Electrical Load 1000 KVA , Low Voltage
400 V
VAM Tank Project, TPI, Electrical Load 60
KVA , Low Voltage 400 V
5. Page5 Saved December12, 2016
RAYLEN IV, pp Plant, TPI, Electrical Load
20 MVA , Medium Voltage 6300/400 V
GCU Modification, TPI, Electrical Load 60
KVA , Low Voltage 400 V
ACN Tank Project, TPI, Electrical Load
750 KVA , Low Voltage 400 V
KCTF Ammonia Tank, Malaysia, Electrical
Load 1000KVA,Medium voltage 6300/400
V
PET-FDY Polyester Plant, IndoPoly,
Electrical Load 2000KVA, Low Voltage
400V
KCTF OPTIMAL, Malaysia, Electrical Load
60 KVA , Low Voltage 400V
UPOL (Rigid Polyol Expansion), TPI,
Electrical Load 60 KVA, Low Voltage 400V
Stylenic/Acrylonitrile Relocation Plant,
Electrical Load 1500 KVA, Low Voltage
400V
THAI AEROSIL (DEGUSSA), Electrical
Load 1000 KVA, Low Voltage 400 V
1993-1995
Thai Meidensha Co Ltd.
Electrical Site Engineer
Responsible for electrical detailed design and
electrical equipment installation. Major projects
included
Modification of Dynamometer Room, Thai
Automotive Industry
Clock Assembly Plant, Royal Time Citizen,
Aryootaya Province, Electrical Load 1500
KVA, Low Voltage 400 V
Vegetable Oil Plant, Samootprakarn
Province, Electrical Load 2000 KVA, Low
Voltage 400 V