Post di Prime Engineering Italia

#Vacature: #Elektrotechnisch Specialist #energiesector #duurzaamheid #energiebranche #werkenindeenergie #werkenindetechniek #energiejobs #careerinenergy #energietransitie #duurzaamheidsbanen #vacatures #energievacatures #energie #energievacature https://lnkd.in/e4pnm_PS

Join GE Vernova within my dynamic engineering teams to support specific and critical Grid Code activities from design to the connections of our power plants to the electrical networks

There are three main areas of job growth that are expected to be the fastest growing over the next 10 years. If you're looking for a career change consider these areas: 📍Solar energy - specifically wind turbine technician roles are projected to grow the fastest 📍Healthcare is expected to be the fastest-growing sector as the population ages and continues to fight chronic illness 📍Workers who specialize in big data are also likely to be in high demand Up level your skills today and secure a stable and growing job tomorrow. 🔃 If you know of someone that hates their job and is looking for a change then share this good news with them. #CareerChange #CareerAdvice #SolarEnergy #Healthcare #BigData

Il Proposal Manager è una figura chiave nella fase di analisi dei requisiti posti dal cliente e identificazione dei parametri fondamentali per la preparazione dell'offerta.

ENERGY MANAGEMENT SOLUTIONS Nell’ambito del suo ampio know-how, la Engineering BU di Comes gestisce le risorse energetiche per la progettazione, il funzionamento e l’automazione dei sistemi di alimentazione. ETAP (Electrical Transient Analyzer Program) è il software che rappresenta lo standard di riferimento del settore, utilizzato dalla Engineering BU di Comes per la modellazione, la simulazione e l’ottimizzazione dei sistemi di alimentazione elettrica di qualsiasi tipo e configurazione. Il modulo Load flow Simulation è fondamentale per la simulazione di flussi di carico nelle reti, comprese le perdite dei sistemi e la determinazione delle cadute di tensione e delle relative regolazioni e ottimizzazioni. Il modulo Short Circuit consente simulazioni al fine di valutare le correnti di corto circuito nei vari punti e negli scenari definiti della rete elettrica; consente inoltre la visualizzazione e la reportistica dei vari tipi di correnti di corto circuito (massima, minima, ecc.). Il modulo Transient Stability permette la simulazione dinamica della rete in caso di perturbazioni quali inserzione carichi, guasti o altri eventi sulla rete; è possibile creare accurati report sugli andamenti dinamici dei vari parametri. Scopri di più sulle attività, i servizi ed il know-how della Engineering BU di Comes su: https://lnkd.in/deUQWwJZ #comesspa #engineering #electrical #mechanichal #marineindustry #IndustrialPartnership #electricalinstrumentation

#WindResourceAnalysis # WindEnergy #WindTurbineTechnology #WindResourceModeling #WindFarmSiteAssesment Position Title: Wind Resource Analysis Function: Project Management Location: Bangalore - Mumbai Qualification: Degree in electrical/electronic Experience: 4 - 8 years Salary Budget: 8.00 Lac - 14.00 Lac Job Purpose: • To lead the wind resource linked renewable energy project development initiatives for the organization to ensure availability of financially prudent and operationally feasible future power project portfolio for the organization. • To assess and analyse the wind resource potential across India for the development of wind/hybrid energy projects. • The primary goal is to provide accurate and detailed information about the wind resource characteristics, such as wind speed, direction, turbulence, and other meteorological factors that influence the generation of wind power. • To keep update on changing regulatory framework, wind/hybrid development activities across country, availability of potential area/sites and find the best course of action beneficial for the organization to get into the wind energy business Job Context & Major Challenges: • In country like India, the biggest challenge is the availability and quality of accurate and reliable meteorological data. Obtaining comprehensive and long-term data sets is challenging, especially in remote or undeveloped regions. • The wind flow patterns are very complex due to various factors such as topography, land cover, nearby obstacles, changing environment etc. Analysing and modelling the complex wind flow patterns accurately is challenging and needs advanced knowledge and expertise of modelling. • Wind resources exhibit natural variability over time, which adds uncertainty to wind energy predictions. Estimating long-term wind patterns and accurately quantifying the uncertainty associated with wind resource assessments pose challenges for analysts. Capturing the spatial variations in wind speed and direction is crucial for selecting optimal turbine locations within a wind farm. Proper statistical analysis and consideration of confidence intervals are necessary to address this issue. • There are continuous advancements in turbine technology, control systems, and data collection methods. Staying up to date with these technological developments is essential for Wind Resource Analysts to ensure accurate and relevant assessments and selection of right model for maximum possible generation from project. • Wind energy projects must consider environmental factors and potential impacts on wildlife, habitats, and local communities. Wind Resource Analysts need to integrate environmental data, such as migratory bird patterns or noise regulations, into their assessments. Interested candidates connect with me on phone number 9861675055 or anandita.behera55@gmail.com Sushree Sudeshna Sahoo Rashmi Ranjan Barik Julie Meher Komal Panda Lopamudra Barik Suchismita Sahoo

Impianti elettrico

#WindResourceAnalysis # WindEnergy #WindTurbineTechnology #WindResourceModeling #WindFarmSiteAssesment Position Title: Wind Resource Analysis Function: Project Management Location: Bangalore - Mumbai Qualification: Degree in electrical/electronic Experience: 4 - 8 years Salary Budget: 8.00 Lac - 14.00 Lac Job Purpose: • To lead the wind resource linked renewable energy project development initiatives for the organization to ensure availability of financially prudent and operationally feasible future power project portfolio for the organization. • To assess and analyse the wind resource potential across India for the development of wind/hybrid energy projects. • The primary goal is to provide accurate and detailed information about the wind resource characteristics, such as wind speed, direction, turbulence, and other meteorological factors that influence the generation of wind power. • To keep update on changing regulatory framework, wind/hybrid development activities across country, availability of potential area/sites and find the best course of action beneficial for the organization to get into the wind energy business Job Context & Major Challenges: • In country like India, the biggest challenge is the availability and quality of accurate and reliable meteorological data. Obtaining comprehensive and long-term data sets is challenging, especially in remote or undeveloped regions. • The wind flow patterns are very complex due to various factors such as topography, land cover, nearby obstacles, changing environment etc. Analysing and modelling the complex wind flow patterns accurately is challenging and needs advanced knowledge and expertise of modelling. • Wind resources exhibit natural variability over time, which adds uncertainty to wind energy predictions. Estimating long-term wind patterns and accurately quantifying the uncertainty associated with wind resource assessments pose challenges for analysts. Capturing the spatial variations in wind speed and direction is crucial for selecting optimal turbine locations within a wind farm. Proper statistical analysis and consideration of confidence intervals are necessary to address this issue. • There are continuous advancements in turbine technology, control systems, and data collection methods. Staying up to date with these technological developments is essential for Wind Resource Analysts to ensure accurate and relevant assessments and selection of right model for maximum possible generation from project. • Wind energy projects must consider environmental factors and potential impacts on wildlife, habitats, and local communities. Wind Resource Analysts need to integrate environmental data, such as migratory bird patterns or noise regulations, into their assessments. Interested candidates connect with me on phone number 9861675055 or anandita.behera55@gmail.com Rashmi Ranjan Barik Sushree Sudeshna Sahoo Komal Panda Arpita Pattjoshi Julie Meher Suchismita Sahoo Lopamudra Barik

Presentazione del Corso di Progettazione Impianti fotovoltaici....#corsi #formazione #engineering #training #teaching #elearning #learning #education #stem #instructor #ingegneria #ingegneriaelettrica #electrical #electric #project #engineer #fotovoltaico #industrialengineering #photovoltaics #network #impianti

⚡ Fault Analysis in Power Systems: Key Calculations Fault analysis is essential to ensuring the stability, reliability, and protection of power systems. Calculating the fault currents for Single Line-to-Ground (SLG) and Three-Phase (3-Ph) faults is critical for system protection. 🔹 Single Line-to-Ground (SLG) Fault An SLG fault occurs when one phase makes contact with the ground, leading to an unbalanced fault current. The analysis of SLG faults focuses on calculating the fault current to protect equipment and ensure system stability. 🔹 Three-Phase (3-Ph) Fault A 3-Ph fault is a balanced fault where all three phases short together, resulting in high fault currents. This type of fault is typically used to design protection systems, as it represents the worst-case scenario. 🔹 Fault Current Ratio: 3-Ph to SLG The ratio between the 3-Ph fault current and the SLG fault current is a key factor in determining protection settings. Understanding this ratio helps engineers assess how the system responds to both balanced and unbalanced faults. 🔹 Zero Sequence Impedance (Z0) Calculation In SLG fault analysis, zero-sequence impedance (Z0) plays a crucial role in determining fault current levels. Proper calculation of Z0 ensures accurate fault detection and protection coordination across the network. Dr.Mahalakshmi Ganapathee Selvakumar S #PowerSystems #FaultAnalysis #ElectricalEngineering #SystemProtection #SLGFault #ThreePhaseFault #GridStability #ElectricalDesign #PowerDistribution #ProtectiveDevices #PowerQuality #EngineeringSolutions #GridProtection #ShortCircuitAnalysis #PowerEngineering #EnergyManagement #ElectricalSafety #EngineeringExcellence #HighVoltageSystems #ElectricalInfrastructure #UtilityManagement #LoadAnalysis #AdvancedEngineering #PowerFlow #ElectricalFaults #CircuitProtection #SmartGrid #ElectricalSystems #PowerTransmission #GridResilience #SystemStability