Pipe Stress Engineer at Siemens in Gurugram, Haryana, India | Kablio

Role

Description

decarbonization

bid support

supply chain

document review

mechanical analysis

layout design

Driving industrial decarbonization
Support to Bid phase projects for basic Piping & Layout engineering work. Identify and clarify contract ambiguity, prepare CRS, MOMs and collect vendor offers for costing.
Securing the supply chain and necessary minerals
Review external documents like Civil and Structure arrangement, customer piping layout, cable trays & ducts, to check interface.
Evaluate the mechanical behavior of piping systems
Collaborate with other engineering disciplines, project managers, and construction teams to integrate their findings into overall project designs, ensuring optimal performance and safety.
Preparation of Power Plant TG Hall Layout, Piping Layout, Civil and Structure design inputs, Isometrics and support drawings, Piping BOM with time bound and cost optimization approach.
Co-ordination with Customer, PM, Proposals, QM, Factory, Site team and third-party vendors during execution.
Strengthening electrical grids

Requirements

cadison

autocad

caesar ii

pv elite

b.e.

2-3yr

Soft Skill like Self-motivation, Self Initiative, Team player, Influential and Leadership behavior are expected.
Working on 3D modelling software CADISON/PDMS/E3D for piping engineering activity. Have exposure of various CAD formats.
Able to interpret stress analysis reports for selection and design of critical pipe supports.
Able to calculate pipe size, thickness, material selection, pressure drop.
Strong problem-solving, analytical and decision-making skills.
2-3 years of experience in Mechanical Engineering, preferably in power plant design
Experience in rotating machinery selection, vibration analysis and alignment techniques.
Hands-on experience with piping, pressure vessels, heat exchangers, turbines, boilers and cooling systems
B.E. / B.Tech. in Mechanical Engineering
Ability to conduct fluid dynamics and thermal analysis for power plant systems
Proficiency in design software such as AutoCAD, Rohr II / Caesar II (for piping stress analysis), PV Elite (for pressure vessel design)
deep understanding of engineering principles, as well as familiarity with industry codes and standards like ASME B31.3 and B31.1
Exposure to Piping Engineering codes and standards like: ASME B31.1, B31.3, ANSI, IBR, EJMA and associated codes for Power Plant piping engineering.
Experience with Failure Analysis, HAZOP and FMEA for risk assessment and mitigation
Excellent communication, leadership and interpersonal skills.
Familiarity with international standards (ASME Sec VIII, API 610/650, ISO 9001, IBR, ANSI, TEMA, ASTM)
Strong expertise in detail engineering, mechanical design and stress analysis

Benefits

Information not given or found

Training + Development

Information not given or found

Interview process

Information not given or found

Visa Sponsorship

Information not given or found

Security clearance

Information not given or found

Company

Overview

Founded in 1847

Historical Milestone

Established as a small telegraph company and transformed into a global leader in technology.

The company drives progress with solutions in electrification, automation, and digitalization across industries.
With cutting-edge products and services, it leads sustainable innovation for industries like energy, manufacturing, and infrastructure.
Its impressive portfolio includes smart grids, automated factories, advanced healthcare technologies, and solutions for urban mobility.
Siemens’ digital solutions enhance efficiency and sustainability in everything from smart buildings to electric vehicles.
It has contributed to iconic projects, including energy-efficient train systems and automation in key industrial sectors.
Transforming how industries use digital technology to optimize operations and tackle global challenges.

Culture + Values

Leading change is a team effort
Our people are enthusiasts with diverse backgrounds, skills and interests
Every individual is valued
Ownership – empowering employees to take responsibility
Collaboration – leveraging unique strengths to find creative solutions
Respect & Inclusion – diverse, respectful, flat hierarchies, flexibility, celebrating individual contributions

Environment + Sustainability

90% reduction

Scope 1 & 2 emissions by 2030

Achieve a 90% reduction in own-operations greenhouse gas emissions compared to 2019 levels by 2030.

144 million tonnes

CO₂-equivalent avoided in FY 2024

Products sold in FY 2024 helped customers avoid approximately 144 million tonnes of CO₂-equivalent emissions.

100% renewable

Electricity by 2030

Transition to 100% renewable electricity across operations by 2030, aligned with the RE100 initiative.

90% reduction

Scope 3 emissions by 2050

Achieve a 90% reduction in value-chain (Scope 3) emissions by 2050, validated by the Science-Based Targets initiative.

Achieve net‑zero greenhouse‑gas emissions across the value chain by 2050
Own‑operations net‑zero by 2030
Value‑chain (Scope 3) target: 30% reduction by 2030
€650 million invested in decarbonization efforts by 2030
100% EV fleet (EV100) by 2030
100% net‑zero buildings (EP100) by 2030
Scope 1 & 2 emissions reduced by 50% since 2019, Scope 3 by 15% since 2019
Products sold in FY 2024 helped customers avoid ~144 million tonnes CO₂‑equivalent
Eco‑design standard achievement: 54%; 25,000 Siemens products labeled “EcoTech” for sustainable design
Landfill waste down ~12%; recycling share of total waste 84%

Inclusion & Diversity

Women at 32%

Top Management Increase

Women in top management roles increased significantly from a baseline of 23% in FY 2020 to 32% in FY 2024.

DEGREE strategic framework includes 'Equity' as a measurable field of action
Global Equity program focuses on equal rights in hiring and internal promotion processes
SBTi‑validated targets exclude DEI but inclusion embedded in governance and career development

Articles

Siemens Jobs & Careers – US

Siemens Student & Early Career Programs

Siemens Benefits (Smart Buildings)

Siemens Academic Blog – FIRST Robotics

Role

Description

decarbonization

bid support

supply chain

document review

mechanical analysis

layout design

Driving industrial decarbonization
Support to Bid phase projects for basic Piping & Layout engineering work. Identify and clarify contract ambiguity, prepare CRS, MOMs and collect vendor offers for costing.
Securing the supply chain and necessary minerals
Review external documents like Civil and Structure arrangement, customer piping layout, cable trays & ducts, to check interface.
Evaluate the mechanical behavior of piping systems
Collaborate with other engineering disciplines, project managers, and construction teams to integrate their findings into overall project designs, ensuring optimal performance and safety.
Preparation of Power Plant TG Hall Layout, Piping Layout, Civil and Structure design inputs, Isometrics and support drawings, Piping BOM with time bound and cost optimization approach.
Co-ordination with Customer, PM, Proposals, QM, Factory, Site team and third-party vendors during execution.
Strengthening electrical grids

Requirements

cadison

autocad

caesar ii

pv elite

b.e.

2-3yr

Soft Skill like Self-motivation, Self Initiative, Team player, Influential and Leadership behavior are expected.
Working on 3D modelling software CADISON/PDMS/E3D for piping engineering activity. Have exposure of various CAD formats.
Able to interpret stress analysis reports for selection and design of critical pipe supports.
Able to calculate pipe size, thickness, material selection, pressure drop.
Strong problem-solving, analytical and decision-making skills.
2-3 years of experience in Mechanical Engineering, preferably in power plant design
Experience in rotating machinery selection, vibration analysis and alignment techniques.
Hands-on experience with piping, pressure vessels, heat exchangers, turbines, boilers and cooling systems
B.E. / B.Tech. in Mechanical Engineering
Ability to conduct fluid dynamics and thermal analysis for power plant systems
Proficiency in design software such as AutoCAD, Rohr II / Caesar II (for piping stress analysis), PV Elite (for pressure vessel design)
deep understanding of engineering principles, as well as familiarity with industry codes and standards like ASME B31.3 and B31.1
Exposure to Piping Engineering codes and standards like: ASME B31.1, B31.3, ANSI, IBR, EJMA and associated codes for Power Plant piping engineering.
Experience with Failure Analysis, HAZOP and FMEA for risk assessment and mitigation
Excellent communication, leadership and interpersonal skills.
Familiarity with international standards (ASME Sec VIII, API 610/650, ISO 9001, IBR, ANSI, TEMA, ASTM)
Strong expertise in detail engineering, mechanical design and stress analysis

Benefits

Information not given or found

Training + Development

Information not given or found

Interview process

Information not given or found

Visa Sponsorship

Information not given or found

Security clearance

Information not given or found

Company

Overview

Founded in 1847

Historical Milestone

Established as a small telegraph company and transformed into a global leader in technology.

The company drives progress with solutions in electrification, automation, and digitalization across industries.
With cutting-edge products and services, it leads sustainable innovation for industries like energy, manufacturing, and infrastructure.
Its impressive portfolio includes smart grids, automated factories, advanced healthcare technologies, and solutions for urban mobility.
Siemens’ digital solutions enhance efficiency and sustainability in everything from smart buildings to electric vehicles.
It has contributed to iconic projects, including energy-efficient train systems and automation in key industrial sectors.
Transforming how industries use digital technology to optimize operations and tackle global challenges.

Culture + Values

Leading change is a team effort
Our people are enthusiasts with diverse backgrounds, skills and interests
Every individual is valued
Ownership – empowering employees to take responsibility
Collaboration – leveraging unique strengths to find creative solutions
Respect & Inclusion – diverse, respectful, flat hierarchies, flexibility, celebrating individual contributions

Environment + Sustainability

90% reduction

Scope 1 & 2 emissions by 2030

Achieve a 90% reduction in own-operations greenhouse gas emissions compared to 2019 levels by 2030.

144 million tonnes

CO₂-equivalent avoided in FY 2024

Products sold in FY 2024 helped customers avoid approximately 144 million tonnes of CO₂-equivalent emissions.

100% renewable

Electricity by 2030

Transition to 100% renewable electricity across operations by 2030, aligned with the RE100 initiative.

90% reduction

Scope 3 emissions by 2050

Achieve a 90% reduction in value-chain (Scope 3) emissions by 2050, validated by the Science-Based Targets initiative.

Achieve net‑zero greenhouse‑gas emissions across the value chain by 2050
Own‑operations net‑zero by 2030
Value‑chain (Scope 3) target: 30% reduction by 2030
€650 million invested in decarbonization efforts by 2030
100% EV fleet (EV100) by 2030
100% net‑zero buildings (EP100) by 2030
Scope 1 & 2 emissions reduced by 50% since 2019, Scope 3 by 15% since 2019
Products sold in FY 2024 helped customers avoid ~144 million tonnes CO₂‑equivalent
Eco‑design standard achievement: 54%; 25,000 Siemens products labeled “EcoTech” for sustainable design
Landfill waste down ~12%; recycling share of total waste 84%

Inclusion & Diversity

Women at 32%

Top Management Increase

Women in top management roles increased significantly from a baseline of 23% in FY 2020 to 32% in FY 2024.

DEGREE strategic framework includes 'Equity' as a measurable field of action
Global Equity program focuses on equal rights in hiring and internal promotion processes
SBTi‑validated targets exclude DEI but inclusion embedded in governance and career development

Articles

Siemens Jobs & Careers – US

Siemens Student & Early Career Programs

Siemens Benefits (Smart Buildings)

Siemens Academic Blog – FIRST Robotics