Senior Propulsion Engineer – Engine Mechanical Design at Boom Supersonic

Denver, Colorado, United States

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Not SpecifiedCompensation

Senior (5 to 8 years)Experience Level

Full TimeJob Type

UnknownVisa

Aerospace, AviationIndustries

Requirements

Bachelor’s or Master’s in Mechanical or Aerospace Engineering or related field
Expert-level experience with CAD systems such as 3DX, Catia or NX
Expertise in Geometric Dimensioning and Tolerancing (GD&T)
Familiarity with a variety of manufacturing techniques used in gas turbine production (single crystal casting, hollow core fan blades, linear friction welding, additive manufacturing, etc.)
Leadership experience in designing turbomachinery modules and parts throughout different phases of a program
Ability to clearly think through and communicate coupled engine and aircraft system level interactions
Willingness to both speak and listen, to give opinions and receive opinions, to consider all the data and be part of building the team consensus to move forward
What Will Set You Apart
Rig testing or engine testing experience
Supersonic jet engine design experience
Part 33 commercial certification experience
Experience with parametric modeling and PLM/PDM
Knowledge of heat transfer and structural analyses
Experience in the part disposition process
Background in developing design tools, methods or processes
Proficiency with Python or similar programming languages
A strong desire to avoid bureaucracy and move fast in a dynamic environment

Responsibilities

Own the design features covering all the mechanically dynamic phenomena in the engine, including loads, actuation, rotordynamics, failure scenarios, and more
Develop technically sound design solutions to get Symphony turbofan in the air as fast as possible
Interpret, define and review tolerances and features on part drawings
Create physical layouts, models, and general arrangements of modules and whole engines such as 2D cross sections, 3D models, tolerance stackups, etc
Contribute to the creation of whole engine models that incorporate structures, rotors, ducts, services routing, actuation, secondary air systems and thermal management
Collaborate on specifications and design requirements for each module and help lead cross discipline integration efforts
Act as the technical owner for all mechanical aspects of the engine, including fits, seals, mounts, joints and other components
Develop and implement plans for assembly and disassembly for both development and production
Get involved in all aspects of Symphony engine development and Overture propulsion system integration, including fabrication and testing

Skills

Mechanical Design

Rotordynamics

Actuation

Tolerance Analysis

3D Modeling

2D Cross Sections

Tolerance Stackup

Thermal Management

Secondary Air Systems

Engine Layouts

Propulsion Systems

Boom Supersonic

Develops and manufactures supersonic aircraft

About Boom Supersonic

Boom Supersonic develops and manufactures supersonic commercial aircraft aimed at reducing flight times for long-distance travel. Their main product, the Overture aircraft, is designed to run on 100% sustainable aviation fuel, supporting efforts to lower carbon emissions in the aviation industry. Unlike other aviation companies, Boom Supersonic focuses specifically on supersonic travel and has secured partnerships with major airlines like American Airlines and United Airlines, indicating strong market interest. The company's goal is to transform air travel by making it faster and more efficient while promoting sustainability through advanced aerospace technology.

Englewood, ColoradoHeadquarters

2014Year Founded

$398.5MTotal Funding

LATE_VCCompany Stage

Automotive & Transportation, Energy, AerospaceIndustries

201-500Employees

Risks

Potential delays in Symphony engine development could impact Boom's commercial timeline.

Limited availability of SAF may challenge Overture's operational feasibility and cost-effectiveness.

Regulatory hurdles could delay Boom's goal of full operations by 2030.

Differentiation

Boom Supersonic focuses on sustainable supersonic travel with 100% SAF optimization.

The Overture aircraft aims to reduce flight times significantly, enhancing travel efficiency.

Boom's partnerships with major airlines highlight strong market interest in supersonic travel.

Upsides

Boom secured $100M funding, boosting development of the Symphony engine prototype.

The Overture Superfactory in Greensboro supports scaling production for growing demand.

Boom's innovative cockpit design prioritizes pilot safety, enhancing operational reliability.

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