Energy&Sustainability Manager

My years of consulting allowed me to acquire a strong know-how on the

activities of transmission and distribution of Electricity, sustainable mobility, RFNBO and Biofuel, strategies for decarbonization and electrification of final consumption, trends and evolutions necessary to enable the energy transition and submission of projects in the public funding field. I consolidated my knowledge and expertise mainly in the fields of energy management / efficiency / strategy, e-mobility and green fuels (bio or RFNBO, including related incentivation mechanisms), energy production from renewable sources, knowledge of national and international energy policies, specialized knowledge on the new evolutions necessary to enable the national and international energy transition, self-consumption and private electricity networks.

The study path focuses on technical aspects relating to the energy value chain, with a focus on renewable energy and related technological and technical aspects, and on energy efficiency, with the development of various energy diagnosis projects. Master's Degree in Energy Engineering

University La Sapienza di Roma January 2015 - October 2017 University KuLeuven, Belgium February 2017 – September 2017 D I G I T A L S K I L L S

Office: Excel, Power Point, Word

Email: Outlook, Gmail

Design: Autocad, Ecotect, Dialux,

QBlade

Programming language: Matlab

Adobe: Photoshop, Premiere, Lightroom

Cell Phone:

+39-327*******

Linkedin:

https://www.linkedin.com/in/vladimir-oleinic

Email:

***********@*****.***

C O N T A C T

VLADIMIR OLEINIC

Research work for the bachelor's and master's thesis. Research work in Energy Engineering

University “KuLeuven”, Belgium 2017

University La Sapienza di Roma 2014

W O R K E X P E R I E N C E

Manager leading projects supporting operators in the energy sector, energy- intensive companies and companies in the industry and transport sector in specialist and/or strategic interventions across the entire energy and gas value chain.

Energy&Utilities Manager

Business Integration Partners (BIP) - ESCo 2018 - Actual E D U C A T I O N & C E R T I F I C A T I O N S

Qualification for the Profession of Industrial Engineer Sec. A - State examination

Order of Engineers of the Province of Rome - February 2018 The course of study focuses on the world of energy, conventional, nuclear and renewable sources, mainly focused on thermodynamics and energy production systems, the design of thermotechnical systems and energy efficiency.

Bachelor's Degree in Energy and Nuclear Engineering University La Sapienza di Roma September 2011 - December 2014 L A N G U A G E S

Italian: mother tongue

Romanian: mother tongue

Russian: C1 (understanding); B2

(spoken); B2 (written)

English: C2 (comprehension, written and

spoken)*

French: A2 (comprehension, written and

spoken)

German: A1

*Toefl (2015); OMS (2017)

S K I L L S S U M M A R Y

Problem Solving & Critical Thinking

Time Management

Proactivity and Spirit of Innovation

Ability to work in a team

Planning and Organization

Adaptation Capacity

H A R D S K I L L S

Decarbonisation and electrification

strategies for end-consumers

Energy Management & Saving

Program & Project Management

Funding Management

Renewable energies

Smart Grid / Smart Cities

e-Mobility

RFNBO & Biofuel

Energy & Risk Management

Speaker at the MIP Level II Master in Energy Management, on issues of energy transmission and distribution, e-mobility, Biomethane and Hydrogen. Speaker at the II Level Master in Energy Management MIP Politecnico di Milano 2022 – Actual

Prince2 7 Foundation Certification in Project Management Prince2 7 Foundation Certification in Project Management from PeopleCert - Dec. 2024 M A I N P R O J E C T A C T I V I T I E S

Analysis for the evaluation and development of the proposal for the acquisition of network portions, development of RES scenarios, analysis of regulatory impact on interconnection with international markets, impact assessment of current and new flexibility tools related to the transmission grid interventions prioritizing and in-depth analysis of regulatory compliance. Technical support and PM for the development of a new industrial plan, including the analysis and compilation of various technical and economic scenarios for the prioritization of interventions and their impacts on the grid. Support to the Transmission Network Operator (TNO) Development&management of multiple projects in the context of European Subsidies for various countries: definition of project concepts, project governance, administrative obligations and preparation of the technical-economic proposal. Evaluation of potential technical-economic KPIs (e.g. Hosting Capacity, FER capacity, Reduction of losses, E-mobility penetration rate) for various project proposals such as: development of AI platform for network load flow analysis to aid in the management of expected e-mobility consumption, Implementation of ADMS with network interventions to maximise benefits and increase technical capacity of the network. Preparation of CBA and technical feasibility studies, based on regulatory compliance. Support to the Distribution Network Operator (DNO) Definition of the ASDC/RIU network perimeter, accreditation as an ASDC/RIU Manager and technical-economic evaluation with the construction of the Transport and Measurement Tariff for the provision of network services. Engineering of a calculation model for the estimation of the Tariffs to be applied to SDC end customers. Development of the industrial plan: analysis of the market and estimation of expected revenues in the subsequent period and quantification of the estimated costs to be incurred. Support for Private Distribution Network Operator (SDC) Technical and operational support for the analysis of current legislation, interventions for obtaining White Certificates and management/sale.

Management of Energy Efficiency Certificates

Management of various types of projects for the penetration of electric mobility, such as: preparation of a national master plan for the development of e-mobility in a foreign country, as part of energy transition initiatives, with a study of the development potential of the electrification and charging infrastructures and assessment for DNOs of the impacts on the network from the integration of EVs; drafting of a proposal for a short, medium and long-term charging infrastructure development plan, Identification of opportunities and support for the development of financing mechanisms; support to customers in the transport sector in the definition of a Charging Infrastructure installation plan and update of the penetration curve for the client perimeter. E-Mobility

End-to-end analyses and development strategies for Battery Energy Storage Systems (BESS), focusing on their integration with energy assets and energy transition targets. Technical and economic feasibility evaluations, definition of different business model scenarios to identify optimal size and most advantageous business model and financing mechanisms, such as participation in the MACSE program or flexibility markets. Regulatory analyses and support in selecting suitable technology partners and flexibility buyers, ensuring alignment with both national energy frameworks and client-specific sustainability goals. Storage/BESS Analysis and Development

Assessment of corporate sustainability level through the definition of specific KPIs; identification, through an action plan, of effective interventions aimed at improving sustainability performance, especially energy supply and production of electrical/thermal energy; use of know-how to manage the planned activities, effectively overseeing all aspects related to energy and sustainability issues, ensuring the most appropriate tools for the challenges, especially with regards to the the implementation of the new Industrial Plan. Development of a tool for collecting and analyzing information on company sites to estimate relative positioning based on 3 areas (Environment, Social, Governance) and based on SDGs of interest. Definition of a sustainable action plan, with focus on RES and green gas Definition and evaluation of Net Zero targets for industrial customers, Construction of energy asset scenarios to achieve the sustainability targets and development of advanced scenario simulation tools for the evaluation of environmental and economical drivers and planning of technological investments. Evaluation of ETS impact and emissions compensation. Net Zero Roadmap

Detailed assessments of RES potential tailored to client consumption profiles, taking into account existing production assets and decarbonization targets, evaluating environmental benefits. Regulatory Compliance analysis and impact assessment, to develop potential business model scenarios. Development of technical and economic feasibility studies, identification and evaluation of public funding opportunities, and hands-on support in drafting successful subsidy applications. Management of stakeholder engagement—including scouting and negotiations with both technology providers and potential energy off-takers—to ensure successful project implementation and long-term value generation. Renewable Energy Sources Analysis and Development

Analysis and evaluation of the opportunities for the integration of alternative fuels in the client perimeter for decarbonization; Definition of Action Plan to evaluate the optimal positioning in the production chain of Biomethane and Green Hydrogen, considering pre-established decarbonization targets and the current technological structure, evaluating the technical-economic conditions for the integration of studied vectors, including the evaluation of incentive tools and subsidized finance. Analysis and definition of supply chain scenarios of SAF and construction of guidelines valid for various types of airport perimeters. Biomethane, Hydrogen, Sustainable Aviation Fuel and other bio-fuel/RFNBO Successful clients guidance in identifying and implementing high-impact energy efficiency initiatives across diverse industrial and infrastructural contexts: assessment of client perimeter to pinpoint opportunities with strong cost-benefit profiles and meaningful environmental returns. Prioritization of interventions, quantifying expected savings, and preparing funding applications. Leveraging strong regulatory and market knowledge, evaluation of subsidy mechanisms and integration of energy efficiency with broader decarbonization roadmaps, ensuring not only compliance but also long-term competitiveness and energy resilience. Energy Efficiency and Decarbonization

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