Larry Hebert has over 30 years of experience as a senior electrical and controls engineer working on projects in industries including oil and gas pipelines, mining, manufacturing, semiconductor fabrication, and cleanrooms. He has extensive experience designing electrical systems, instrumentation and control systems, and substations for facilities and projects across North America and Asia. Some of his representative projects include serving as the electrical lead for pump stations on the Enbridge Wood Buffalo Extension Project in Alberta, Canada and high voltage substation design for the Enbridge Alberta Clipper project pipeline connecting Alberta to Chicago.
Here are the details on 300MW Wind Power Project located in the Western Region of India presented by Gensol on the various phases of construction & execution; starting from :
1)Wind resource assessment,
2)Site feasibility studies,
3)Statuary & legal approvals required,
4)Civil & electrical works,
5)Quality & material inspection,
6)Post erection & monitoring etc.
(Click here to read more..)
A Delay of a single day for a 10 MW plant can lead to a loss of Rs. 6.5 Lacs ($110,000) in addition to Statutory Losses. Here, we explore typical project execution timelines and possible reasons for delay. The presentation talks about Lead Times of Equipment, Key vendors, Permits Required, Construction & Engineering related delays and finally, gives recommendations on how to keep project on track.
Here are the details on 300MW Wind Power Project located in the Western Region of India presented by Gensol on the various phases of construction & execution; starting from :
1)Wind resource assessment,
2)Site feasibility studies,
3)Statuary & legal approvals required,
4)Civil & electrical works,
5)Quality & material inspection,
6)Post erection & monitoring etc.
(Click here to read more..)
A Delay of a single day for a 10 MW plant can lead to a loss of Rs. 6.5 Lacs ($110,000) in addition to Statutory Losses. Here, we explore typical project execution timelines and possible reasons for delay. The presentation talks about Lead Times of Equipment, Key vendors, Permits Required, Construction & Engineering related delays and finally, gives recommendations on how to keep project on track.
Neben der Erläuterung des Programms erhalten Sie hier wertvolle Tipps zur Vorbereitung auf den access Women in Technology Career Event. Welche Unternehmen treffe ich vor Ort? Was ziehe ich an? Wie kann ich mich auf eine Fallstudie vorbereiten? Wie kann ich günstig anreisen? Wo findet der Event statt? Fragen über Fragen, die wir Ihnen in unserem Webinar gerne beantworten möchten.
O Mundo Industrializado no século XIX e o Caso PortuguêsCarlos Vieira
Trabalho realizado em sala de aula pelos alunos do 8º ano, turma 7, da Escola Básica 2,3 Roque Gameiro, Amadora;
Ano lectivo 2011/2012;
O manual utilizado para a realização do trabalho foi o “Sinais da História” da
Editora ASA.
1. Name: LARRY HEBERT, P.E.
Title: Senior Electrical/Controls Engineer
Education: MS, 1977, Nuclear Engineering, University of Washington, Seattle
BS, 1975, Electrical Engineering, University of Washington, Seattle
Registrations: P.E. CA, AK, OR, WA, CO, MN; P. Eng. AB, SK, MB
Associations: IEEE, ISA, IES
Career Synopsis:
Mr. Hebert has 30 years of experience in electrical engineering and design in the areas
of pipeline substation and pump station design, power generation, industrial electrical
distribution, instrument ation and control systems engineering design and start- up.
Representative Project Experience:
• Enbridge, Alberta CA. Wood Buffalo Extension Project. Electrical lead for five
synthetic crude oil pump stations on this project. Project included medium and low
voltage power distribution, low voltage standby power, heat trace, and lighting. As
on all Enbridge projects, electrical buildings were built on skids, and shipped to the
sites for the short construction period.
• Anagold - Preliminary design of new 154 kV Substation for a 10,000 tpd Çöpler
Sulfide expansion project for a heap leaching and gold mining developm ent in
Erzincan Province, Turkey. Project included preparation of single lines and
specifications to Turkish and European codes and standards.
• Enbridge, Alberta CA. Line 3 Replacem ent project – Electrical Lead for Oil Pipeline
with 18 pump stations, and 17 new substations with supply voltages of 230 kV, 138
kV, and 66kV. Pump motors were 7000 HP, 6600 Volts. Motors were accelerated via
VFD, and then run across the line. The scope of work included all phases of
Electrical design, and brought the project from concept to the 60% completion
stage.
• Enbridge, Alberta CA. Clipper Expansion 2 (CE2) project – Electrical Lead for Oil
Pipeline project involving eight new pump stations and a retrofit to one existing site.
Electrical scope was comprehensive from the High Voltage switchyards (230 kV, 138
kV and 66 kV) through the lighting and electrical outlets. Each new site included
three or four oil pumps driven by 5000 hp 6900 Volt motors. Motor starting was by
VFD, transitioning to Across the Line. The new high voltage substations included
provision for immediate expansion.
• Enbridge, Alberta CA. Cheecham Surmont Phase II project – Developed purchasing
documents for 5kV outdoor switchgear and for arc resistant switchgear. Contributed
to internal review of single lines, triple lines and schem atics.
• Enbridge, Alberta CA. Athabasca Capacity Expansion project – Medium Voltage
System design for enlarged substations supporting expansion of pipeline pump
stations. Project included preparation of material requisitions, control schmatics,
Privacy of Personal Information: The personal information contained in this document is provided for use by
(client) for purposes related to this document only. The information should not be shared with those who do not
have a need for it, and shall not be used for any other purpose.
Oct 2015 1
2. Hebert, Larry
triple lines, and preliminary switching diagrams for multiple substations. Design
work was done in Mumbai India.
• Enbridge, Alberta CA. Waupisoo Capacity Expansion Project – Designed High
Voltage substation for Leismer pump station. Included single lines, triple lines,
Schematics, Control Panel Layouts and Wiring diagrams, switching diagrams, and all
procurem ent documents. Also developed upstream breaker tripping scheme and
SCADA status reporting design. Contributed to the medium voltage substation
design for multiple substations in the project scope. Prepared white paper
supporting the use of a 5kV main circuit breaker, and high resistance ground if
needed for ground fault protection of substations without transformer primary
breaker tripping. Prepared white paper to allow the use of galvanized steel
grounding grid if needed to protect the cathodic protection system in the case of a
substation with extremely low soil conductivity. Developed detailed utility interface
for tripping of transformer primary circuit breaker, and returning status information
to Enbridge substation.
• Corning BDA Beijing CN, Develop FEED for grass roots flat panel substrate glass
factory in Beijing China. Project involved producing drawings and a conceptual
design report defining the electrical, instrument ation and control systems scope of
work for a new glass factory.
• OCV Composites CN, Provided Electrical and Control Systems design for Process
area of new grass- roots glass reinforcem ents factory in Hangzhou China. Project
included optimized cable tray and raceway plans, routing database and
specifications for furnace area, size, bushings, and eboost as well as medium
voltage and low voltage underground and overhead power distribution system
design.
• Enbridge, Alberta CA. High Voltage switchyard design for six new pumping stations
in the Alberta Clipper project, a new crude oil pipeline connecting Alberta with
Chicago. Project included writing specifications for high and medium voltage circuit
breakers for use in remote stations in an extremely low temperature environment,
creating one- lines, triple lines, schem atics, Control Panel layouts and wiring
diagrams, and selecting protection relays and metering. Project also included
development of SCADA status reporting schem e.
• Mint Farm Energy Center, Longview WA. Lead Control Systems Engineer for the
design completion of an abandoned 320 MWatt 1X1 Combined Cycle power plant.
Plant consists of a GE Frame 7FA combustion turbine, a Foster Wheeler HRSG, and a
Fuji tandem- compound, reheat steam turbine generator. The project was
abandoned for three years at some level of completion, so that all systems needed
to be validated and documents updated and reissued for construction.
• SunPower Laguna Philippines. Lead Electrical and Control Systems Engineer for 210
MWatt/year solar cell manufacturing facility. Programm ed, and delivered
preliminary design for transportable facility to be located in multiple sites
throughout Asia.
• Taiwan Semiconductor Corp, Shanghai China. Lead Control Systems Engineer for
TSMC's first Semiconductor Fab in Mainland China (SS & IDC). Design included
traditional I/O and foundation fieldbus.
• Motorola, Tianjin, China. Lead Electrical Engineer. Continuation of suspended
design of wafer fab and assembly and test facility. Changes in planned use
necessitated extensive redesign of power distribution systems for partially
Jan 2014 2
3. Hebert, Larry
completed facility. Campus was designed to US and local codes, making use of local
engineering design talent.
• Genentec South San Francisco, California. Automation Systems configuration
manage m e nt and testing coordination for multiple use skids producing recombinant
DNA for human injection.
• Dow Chemical Company, Midland Michigan. Lead Electrical and Instrument ation and
Control Systems Engineer for 10,000 square foot class 1 R&D cleanroom project.
• Undisclosed Client, D2P4 Expansion / SC7 Renovation, Santa Clara, California.
25,000 SF Facility Support Addition and 82,600 SF Renovated Existing Facility
including 37,400 SF Class 1 Production Fab / Fab Support Spaces and 5,300 SF Class
10 Fab Support Space. Lead Life Safety Engineer responsible for HPM monitoring
system, Fire Alarm System, Leak Detection, Access Control, CCTV and Radio
Communication Systems design.
• InterConnect Technology, Kuching, Malaysia. Electrical and Control Systems
Schematic Design of foundry Fab facility with Fab 1 complete and Fab 2 shell.
110,000 SF of production and clean support area for each Fab, with future full site
build- out at 6 Fabs. Class 100 / 1 cleanrooms with SMIF enclosures. Design was to
British Standards and in conformance with local codes.
• SEH America, Vancouver, Washington. Lead Electrical and Instrumentation and
Control Systems design of C1a, a 400,000 square foot silicon crystal growing and
processing facility. The design included 50,000 square feet of Class 1000
cleanroom space, site development, support yards and holdings, process systems,
offices, special HVAC requirements for each isolated puller cell, and extensive
analysis of magnetic fields.
• National Semiconductor, S. Portland, Maine. Lead Electrical and Instrument ation
Engineer for Building 18 wafer manufacturing factory. Building 18 has
approximately 40,000 square feet of cleanroom, as well as support, polishing and
test areas, and offices. A new 34.5kV substation was required. Facility controls,
telephone, security, and emergency alarm design was integrated into an existing
campus.
• Atmel Corporation, Fab 5, Colorado Springs, Colorado. Instrument ation and controls
engineer on a new 190,000 SF wafer fabrication facility with 48,000 SF of Class 1
area
• Cypress Semiconductor, Fab 4, Bloomington, Minnesota. Electrical, instrumentation
and controls engineer on a new 100,000 SF wafer fab with 30,000 SF of Class 1/10
area
• SEH America, Inc., CZ Ingot Remodel Project, Vancouver, Washington. Controls
Engineer responsible for instrument specifications and controls for coolant system,
vacuum, instrument air, and air handling units.
• United Microelectronics Corporation Science Based Industrial Park, New Grassroots
Wafer Fab Facility, Hsin- Chu City, Taiwan, ROC. Electrical/ Instrumentation Engineer
responsible for program ming, conceptual, schematic design, and cleanroom/process
gas and chemical systems performance specifications. Provided master planning for
21.25- acre site to accommodat e 1.8 million- square- foot building area. Area
consisted of 950,000 square feet for first phase wafer fab and supporting structures,
future 750,000- square- foot manufacturing facility and supporting structures, and
future 100,000- square- foot office tower. Fab area in first phase consisted of two
58,000- square- foot cleanroom modules (fit-up of one module included in first phase)
providing Class 0 manufacturing aisles and Class 100 support spaces
Jan 2014 3
4. Hebert, Larry
• Applied Materials, Demonstration Cleanroom Facility, Hsin- Chu City, Taiwan, ROC.
Electrical and Controls Engineer for preliminary design of a 300 square meter
cleanroom with supporting areas. Detailed design was completed by local
consultant.
• Applied Materials, Demonstration Cleanroom Facility, Santa Clara, California.
Electrical and Controls Engineer responsible for electrical generation and
distribution design for building 2, phase II, a 50,000- square- foot design/build project,
including B-2 and H-6 occupancies, Class 10 cleanrooms, lab space, and offices.
The project included HVAC control specifications, high purity gases and chemical
distribution systems to support qualification of process tools.
• Confidential Semiconductor Client , Oregon. Complete retrofit of wafer fab , design of
a new energy center and conversion of developm ent area into full production of
microprocessor product. Electrical Engineer responsible for electrical design,
coordination and short circuit study for fab , including occupancies. Also applied
dapper and captor software tools to analyze the power distribution system.
Provided electrical design services for on- going and varied project work for facilities
and process related upgrades and tool installations.
• Confidential Semiconductor Client , Arizona. Electrical Engineer responsible for
design of power distribution for 1,000- ton chiller addition, kitchen remodel, and
control systems design. Provided design for electrical power systems, lighting, fire
protection and security systems for a 150,000- square- foot light industrial facility (C-
11 renovation project).
• STC Submarine Systems, Inc., Portland, Oregon. Controls Engineer responsible for
design of control systems and operator interface using Allen Bradley SLC-500 and
PLC-5 for fiber- optic cable insulation shaving system and power conductor line.
• United Technologies, Hamilton Standard, Commercial Aircraft Electronics Facility,
Colorado Springs, Colorado. Electrical Engineer responsible for design for electrical
distribution system, fire protection system, and emergency power generator for new
103,000- square- foot light manufacturing plant and office building.
• Armstrong World Industries, Inc., Mineral Fiberboard Manufacturing Plant Project, St.
Helens, Oregon. Electrical Controls Engineer. Developed Allen Bradley PLC-5
programs to automat e the dry end and broke re- pulping process.
• Fiberweb North America, Washougal, Washington. Electrical and I&C Engineer
responsible for design of modifications to spun- bond non- woven fabric line including
HVAC instrumentation and controls system for spin beams quench air supply system
using Honeywell UDC-9000, resizing and automation of surfactant foamer and
screen changer for polypropylene extruder.
• Menasha Corporation, 300- ton- per- day Secondary Fiber System and No. 1 Paper
Machine Rebuild Projects, Otsego, Michigan. Project Engineer responsible for the
design of marshaling panel and I/O loops for Foxboro I/A DCS system. Responsible
for instrument ation and control systems discipline review.
• Gridcore Systems International, Long Beach California, Conversion of prototype
batch fiberboard manufacturing line to continuous process. Designed Operator
interface displays, and Alan Bradley SLC-500 software for wet- end process.
Performed optimization and tuning.
• City Light Department at Daishowa America, by request of the City of Port Angeles,
Washington. Principal Investigator responsible for electrical efficiency review.
Provided mill-wide electrical survey of groundwood mill for the purpose of increasing
energy conservation. The project included alternatives involving variable speed
drives, lighting, energy efficient motors, and feeder efficiency.
Jan 2014 4
5. Hebert, Larry
• Grays Harbor Paper Company in Hoquiam, Washington Hemlock pre- refiner
upgrade. Project Engineer for design of new instrumentation and control loops to
improve performance of existing claflin refiners on no. 1 paper machine.
• Boise Cascade in St. Helens, Washington, Kamyr tunnel conveyor project. Project
Engineer Responsible for electrical design.
• City Light Department at ITT Rayonier, by request of the City of Port Angeles,
Washington. Project Engineer for electrical efficiency review. Responsible for mill-
wide electrical conservation survey of sulfite pulp mill. Recomm end ations included
process changes, variable speed drives, and power factor correction.
• Portland General Electric’s Trojan nuclear plant, St. Helens, Oregon, Remote
shutdown station project. Controls Engineer. Produced a conceptual design utilizing
a traditional style control panel and Bailey Network- 90 distributed control systems.
Performed a function/task analysis. Laid out control panels and schem atic type CRT
displays. Designed signal and control interfaces to installed plant equipment.
Wrote specifications, provided test guidelines, debugged vendor supplied software,
and modified software to suit plant operations personnel.
• Southern California Edison Company. Electrical Engineer for San Onofre units 2 and
3, responsible for design coordination, construction and test activities associated
with the annunciator alarm task force. Developed design change logic diagrams
and circuit schematics for annunciator alarm circuits to eliminate spurious or
nuisance alarms. Proposed design changes to the toxic gas isolation system and the
auxiliary feedwater system to support operation requirements
• Southern California Edison, Controls Engineer for San Onofre units 2 and 3,
responsible detailed control room design review. Prepared annunciator design
review guidelines and supervised the review and reorganization of plant
annunciators. Laid out new control and display panels for the CVCS system and the
remote shutdown panel
• Southern California Edison, Electrical/I&C Staff Engineer for San Onofre unit 1,
responsible for identifying probable areas of electrical or instrument ation and
control concern and developing alternative solutions. Provided planning and
schedule input to the return- to-service manager
• Southern California Edison, Lead Start- up/Test Engineer for San Onore unit 1,
responsible for supervising electrical and instrumentation and control start- up
activities related to TMI modifications and major maintenance outages. Identified
scope for prerequisite and preop test procedures, reviewed and approved
procedures and test results. Determined required manpower levels, assigned tasks,
and monitored cost and schedule
• General Automation in Anaheim, California. Engineering Programm er. Designed
device drivers, organized and calculated system scaling constants, and performed
extensive debugging of system level problems.
• Pacific Gas and Electric in Avila Beach, California, Diablo Canyon power plant
project. Instrumentation Engineer. Wrote surveillance and maintenance procedures
for the nuclear instrumentation system and solid state protection systems.
Performed acceptance testing. Responsible for process computer. Designed, wrote
and tested new software as necessary to meet changing requirem ents. Developed
response time testing system for temperature and pressure sensors by linking
together several installed computers to perform the data acquisition and reduction.
Employm e n t History:
• Jacobs Engineerring Group September 2010 to
Present
Jan 2014 5
6. Hebert, Larry
• S.Y Technology, Engineering and Construction Co. Ltd.,
Senior Electrical Consultant June 2009 to September 2010
• Jacobs Engineerring Group November 2005 to
January 2014
• S.Y Technology, Engineering and Construction Co. Ltd.,
Senior Electrical Consultant July 2003 to October 2005
• M+W Zander
Senior Instrument and Controls Engineer June 2002 to April 2003
• Industrial Design and Construction
Senior Electrical Engineer April 2000 to May 2002
• Jacobs Engineering Jun 1989 to April 2000
Senior Electrical/Controls Engineer
• Portland General Electric - Aug. 1985 to 1989
Senior/Project Engineer
• Southern California Edison - Dec. 1979 to Aug. 1985
Electrical/I&C Engineer
Lead Startup & Test Engineer
• General Automation Jul. 1978 to Dec. 1979
Senior Engineering Program m er
• Pacific Gas & Electric - Feb. 1977 to July 1978
• Instrument ation Engineer
Jan 2014 6
7. Hebert, Larry
• S.Y Technology, Engineering and Construction Co. Ltd.,
Senior Electrical Consultant June 2009 to September 2010
• Jacobs Engineerring Group November 2005 to
January 2014
• S.Y Technology, Engineering and Construction Co. Ltd.,
Senior Electrical Consultant July 2003 to October 2005
• M+W Zander
Senior Instrument and Controls Engineer June 2002 to April 2003
• Industrial Design and Construction
Senior Electrical Engineer April 2000 to May 2002
• Jacobs Engineering Jun 1989 to April 2000
Senior Electrical/Controls Engineer
• Portland General Electric - Aug. 1985 to 1989
Senior/Project Engineer
• Southern California Edison - Dec. 1979 to Aug. 1985
Electrical/I&C Engineer
Lead Startup & Test Engineer
• General Automation Jul. 1978 to Dec. 1979
Senior Engineering Program m er
• Pacific Gas & Electric - Feb. 1977 to July 1978
• Instrument ation Engineer
Jan 2014 6