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MARSE

Virtual Reusable launch Vehicle Internship  programs - 1 March 2025

we believe in nurturing the next generation of aerospace pioneers. Our internship program is designed to provide aspiring engineers and scientists with hands-on experience and mentorship in cutting-edge aerospace technologies, particularly Mars exploration.

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Learning Softwares -> Catia V5 .NASA CEA
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Lead Form 2025 a
DURATION
3 Months
MODE
LIVE + Recorded
HOURS
5-6 Hours/Week
TIME
6 PM (Mon- Sat)
LOCATION
Work From Home
SOFTWARE
Ansys Workbench. fluent.CFX
DEADLINE
28 Feb 2025

Welcome to Our Virtual 
Reusable launch Vehicle Internship Program!

Are you fascinated by space exploration and the possibilities of reusable launch vehicles? Join our innovative team and be a part of the future of space travel. Our Reusable Launch Vehicle Online Internship offers a unique opportunity to engage with cutting-edge technology, learn from industry experts, and contribute to the advancement of space exploration.

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Internship Overview

As a Reusable Launch Vehicle Online Intern, you will delve into the world of reusable space transportation, gaining insights into the design, development, and operation of next-generation launch systems. This internship is designed to provide a virtual, hands-on experience, allowing you to contribute your ideas, enhance your skills, and interact with experts in the field.

 Are you fascinated by the world of aviation and eager to explore the exciting field of RLV ? MARS Exploration is offering a dynamic RLV Online Internship for enthusiastic individuals who are ready to take their first step into the aerospace industry, all from the comfort of their own space. We will assist you to complete the project and assignments which help you to showcase your skill and gain practical experience

Internship Objectives

To contribute to the advancement of reusable launch vehicle technology by applying engineering principles to design, analysis, and optimization of critical components. Seeking to gain practical experience in aerospace engineering, specifically in the development of reusable launch vehicle systems, through hands-on projects and collaboration with industry professionals.

Internship Description

Internship Name- Reusable Launch Vehicle Internship 

Type – Live Training Session (online)

Location -Work From Home

Training Day- Monday – Saturday 

Training Hr- 1 hr/ day

Time-6pm-9pm in between 1 hr

Stipend- No

Registration Fees- need to pay

Why choose FEA Internship

  • Hands-On Experience

    You’ll gain practical skills in aircraft design and engineering, applying theoretical knowledge to real-world projects.

  • Expert Mentorship

    Working with industry professionals provides invaluable insights, guidance, and networking opportunities that can enhance your career prospects.

  • Flexibility

    An online format allows you to balance the internship with other commitments, making it accessible regardless of your location.

  • Cutting-Edge Projects

    MARS Exploration is likely involved in innovative aerospace projects, giving you exposure to the latest technologies and methodologies in the field.

  • Enhanced Portfolio

    Completing this internship can strengthen your resume and portfolio, showcasing your commitment and expertise in aircraft design to future employers.

  • Career Development

    The experience can help you identify your interests within the aerospace industry, guiding your career path and future studies.

Under Register & Certified

  • Introduction to Reusable Launch Vehicles (RLVs)
  • History and evolution of RLVs
  • Advantages and challenges of RLVs compared to traditional launch vehicles
  • Different types of RLVs (single-stage-to-orbit, two-stage-to-orbit, etc.)
  • Types of propulsion systems for RLVs.
  • Engine technologies and energy sources.
  • Liquid and solid rocket propulsion
  • Hybrid propulsion systems
  • Electric propulsion
  • Regenerative cooling and thermal management
  • Thrust, efficiency, and performance optimization

 

  • Fundamentals of RLV design.
  • Materials selection for RLV components
  • Structural analysis and design considerations
  • Thermal protection systems
  • Structural considerations and materials.
  • Payload capacity and engineering challenges
  • Principles of aerodynamics and flight dynamics.
  • Stability and control of RLVs.
  • Mission planning and navigation
  • Atmospheric flight and reentry
  • Aerodynamic heating and control
  • Trajectory optimization
  • Guidance, navigation, and control systems

 

Vehicle Configuration Design:

  • Preliminary design concepts
  • Trade studies and optimization
  • Integration of propulsion, structures, and avionics
  • Finite element analysis (FEA) for load and stress calculations
  • Design of primary and secondary structures
  • Fatigue and damage tolerance analysis
  • Engine cycle analysis
  • Propellant tank design
  • Turbomachinery design
  • Integration of propulsion system with vehicle
  • Flight control system design
  • Guidance, navigation, and control algorithms
  • Sensor and actuator selection
  • Software development and simulation

System Integration:

  • Integration of subsystems (propulsion, structures, avionics)
  • Ground support equipment (GSE) design
  • Launch and recovery operations
  • Ground testing (static firing, structural testing)
  • Flight testing (subscale and full-scale)
  • Data acquisition and analysis
  • Reliability and safety assessment
  • Emerging technologies in RLVs
  • Research opportunities and challenges
  • Presentation of internship project and findings
  • RLV launch and landing procedures.
  • Safety standards and risk mitigation.
  • Ethical issues and regulatory compliance

 

  • Reentry strategies and challenges.
  • Heat shielding and thermal protection systems.
  • Case studies of RLV reentry and landing.

 

  • Human spaceflight on RLVs.
  • The emerging field of space tourism.
  • RLV technologies and the future of space travel.

 

  • Advanced RLV technologies and trends.
  • Spaceplanes, vertical landing rockets, and more.
  • The future of RLV design and operations.

 

NASA CEA Software

  • Basic thermodynamic principles and definitions
  • Thermodynamic properties of matter
  • Ideal gas law and equation of state
  • Combustion processes and heat transfer
  • Rocket propulsion fundamentals
  • Types of rocket engines (liquid, solid, hybrid)
  • Performance parameters (specific impulse, thrust, propellant mass fraction)
  • Introduction to NASA CEA software
  • Software interface and navigation
  • Input file structure and format
  • Output file interpretation
  • Case studies and examples
  • Equilibrium calculations for combustion products
  • Performance calculations (specific impulse, thrust, chamber pressure)
  • Frozen flow calculations
  • Nozzle design and performance
  • Propellant combinations and performance evaluation
  • Rocket engine cycles (open, closed, staged combustion)
  • Component performance analysis (turbopumps, combustor, nozzle)
  • Cycle simulations and optimization
  • Sensitivity analysis of engine parameters
  • Rocket engine design and sizing
  • Propellant selection and characterization
  • Combustion instability analysis
  • Two-phase flow and cavitation
  • Nozzle performance optimization
  • Real-world rocket engine design projects
  • Optimization of rocket engine performance
  • Sensitivity analysis of engine parameters
  • Comparison of different propellant combinations
  • Integration of CEA with other engineering tools

Key Highlight

Learning Software

How to apply

Register for only indian students
  1. Fill up Pre Registration Form
  2. Scan and Pay or use UPI or Phone Pay/G pay
  3. Send Payment Receipts to hrmarsexplorationpvt@gmail.com
  4. you will Received Official Whatsapp Group link through Email
Verify our Bank Detalis
  1. Scan QR code and Check Banking name 
  2. Banking name is – Mahamanav Aerospace and Research Space Exploration (NARSE)
  3. UPI No-marsexplorationpvt@ybl
Register for only International Students

International Students kindly contact on  offical Whatsapp No or Email ID

MARS QR Code Phone pay
UPI No- marsexplorationpvt@ybl
Phone Pay/G Pay -+918600064474
Registration fees-
1 Months -1750 Rs
3 months -2750 RS

Contact for Payment Issue

  1. Contact on Whatsapp +918530636474
  2. Email Id- hrmarsexplorationpvt@gmail.com

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Enjoy The Best Learning Experience with Us

Join us at MARS Exploration for an extraordinary journey into the future of space exploration. Our internship program offers unparalleled opportunities for aspiring scientists, engineers, and innovators to contribute to groundbreaking missions aimed at unlocking the mysteries of Mars.

Welcome to MARS Exploration, the top aerospace startup in India, offering a cutting-edge online internship program for engineering students.

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Important Links

Aircraft Design Internship

Rocket Design Internship

CFD Internship

Design & Analysis Internship

Finite Element Analysis Internship

Contact

hrmarsexplorationpvt@gmail.com

+91 8530636474 (Whatsapp)

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Dist Sangli Maharashtra

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