Full Job Description
Overview:
Sargent & Lundy is one of the most experienced full-service architect-engineering firms in the world. Founded in 1891, the firm is a global leader in power and energy with expertise in grid modernization, renewable energy, energy storage, nuclear power, and fossil fuels. Sargent & Lundy delivers comprehensive project services—from consulting, design and implementation to construction management, commissioning and operations/maintenance—with an emphasis on quality and safety. The firm serves public and private sector clients in the power and energy, gas distribution, industrial, and government sectors.
Sargent & Lundy's Core Values
Every decision we make is guided by our core values. By upholding these six principles, we support our clients, employees, and community. They are the compass we follow as we continue to grow our business and lead the industry.
Quality – We provide high-quality deliverables and services through an uncompromising focus on peer review, safety, and continuous improvement.
Accountability – Our actions demonstrate the highest levels of professionalism, integrity, and respect.
Our People – We value diverse perspectives, encourage professional growth, and are committed to providing a work community where people thrive. Our work is challenging but rewarding.
Our Clients – We deliver value and exceed our clients’ expectations through outstanding customer service, personal accessibility, and clear communication.
Innovation – Since 1891, we have invested in the people, training, tools, and technology needed to quickly adapt in a constantly changing world.
Meaningful Impact – We make a positive impact in the communities where we work and live.
Responsibilities:
This senior engineering position is within Sargent & Lundy's Electrical Analytical Division and will be responsible for the following:
Transmission system planning and analysis, including studies in load flow, stability, short circuit and electromagnetic transients (EMT), to support a variety of clients such as Developers, Independent System Operators and Regional Transmission Organizations (ISOs and RTOs), electric utilities, both nationally and internationally
Performing transmission system technical analysis, which includes power flow studies and contingency analysis, stability analysis, voltage analysis, and EMT studies related to the impact of inverter-based generation and high voltage direct-current (HVDC) on the transmission system
Supporting generator interconnection applications and associated system impact studies
Aiding clients to comply with transmission regulatory policies, such as: FERC OATT, NERC TPL, TOP, PRC, and FAC standards, Generator Interconnection Applications, and associated studies
Qualifications:
We do not sponsor employees for work authorization in the U.S. for this position.
Essential skills and experience:
A Bachelor’s Degree in Electrical Engineering and sufficient industry experience is considered in lieu of an advanced degree
A minimum of 5 years relevant engineering experience with an emphasis in power system analysis, modeling and protection, including load flow analysis and time domain analysis
Experience in load flow analysis and contingency analysis to identify transmission thermal and voltage constraints and to identify transfer capability limits
Experience in stability analysis to identify critical clearing times, identify voltage constraints and analyze power system damping
Experience using transmission planning software for load flow modeling, contingency studies and transfer analysis (e.g. PSS/E, PSLF, or PowerWorld, TARA, and PSCAD or EMTP-RV)
Valued but not required skills and experience:
Master’s or PhD in Electrical Engineering is preferred
Experience modeling inverter-based resources and renewable generation, such as Wind Turbine Generators (WTG), photovoltaic (PV), Battery Energy Storage Systems (BESS), and hybrid generation, and associated collector system for interconnection applications within software programs PSS/E, PSLF, and PSCAD
Experience in the interconnection process for large generators (>20MW)
Knowledge of power regions and ISOs/RTOs, such as: PJM, MISO, NYISO, ERCOT, SPP, CAISO, WECC, SERC, ISO-NE
Experience in short circuit analysis and using software programs CAPE or ASPEN
Basic knowledge in renewables generation congestion/curtailment analysis using PROMOD or PLEXOS is a plus
Knowledge of Distributed Energy Resources (DER) and its impact on Transmission Analysis and Planning is a plus
Experience in Python, Java Script, or other scripting languages
Sargent & Lundy is an Equal Opportunity/Affirmative Action employer. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, disability status, protected veteran status, or any protected status as defined by law.