Planning of energy systems development

Our employees have gained a lot of invaluable experience in solving system problems connected with power network development. We develop:

  • Schemes and programs for development of energy systems in regions;
  • Key tasks for developing schemes and programs of regional energy systems development include: forecasting how network infrastructure and generating facilities will develop to meet medium-term demand for electric and thermal energy, creating favorable conditions which will attract investments to build effective and well-balanced energy infrastructure that may trigger socio-economic development and eco-friendly use of energy resources in Russia.

 

These schemes and programs are used to solve the following tasks:

  • Analysis of dynamics of power generation and power consumption in an energy system;
  • Analysis of the structure of power output in an energy system;
  • Evaluation of prospective balances between electric energy and power;
  • Calculation of electric modes;
  • Calculation of short-circuit currents;
  • Calculations of static stability;
  • Calculations of dynamic stability;
  • Identifying restrictions hampering connection of new consumers to electric grids, their lack of power or inability to generate required voltage;
  • Finding locations to install reactive power compensation means, determining their quantity and power;
  • Suggesting measures to eliminate “bottlenecks” (electric network strengthening, replacement of electric network equipment);
  • Working out possible options of electric power network development schemes and optimal technical solutions;
  • Technical and economic evaluation of different options of power output schemes, schemes of connecting new consumers, schemes of electric power network development;

 

Recommendations on installing anticrash devices in energy systems.

Schemes of development of united energy systems and programs of development of systems of anticrash devices, relay protection, dispatching and technological control, information collection and transfer.

The general task of forecasting how energy systems may develop in the future is to devise such schemes (solutions) that would ensure effective development of energy systems and their reliable performance, including the development of generating facilities and electricity network infrastructure, devices of relay protection and automation and means of dispatching and technological control.

 

As part of this challenge we can perform the following tasks:

  • Analysis of dynamics of power generation and power consumption in an energy system;
  • Analysis of the structure of power output in an energy system;
  • Evaluation of forecasted balances between electric energy and power;
  • Calculation of electric modes;
  • Calculation of short-circuit currents;
  • Calculations of static stability;
  • Calculations of dynamic stability;
  • Identifying restrictions hampering connection of new consumers to electric grids, their lack of power or inability to generate required voltage;
  • Finding locations to install reactive power compensation means, determining their quantity and power;
  • Suggesting measures to eliminate “bottlenecks” (electric network strengthening, replacement of electric network equipment);
  • Working out possible options of electric power network development schemes and optimal technical solutions;
  • Technical and economic evaluation of different options of power output schemes, schemes of connecting new consumers, schemes of electric power network development;
  • Working out recommendations on installation of anticrash devices in energy systems.
  • It should be noted that the list of issues is preliminary and must be specified through setting tasks.
  • Justification of investments into construction of thermal, hydro generating and nuclear power plants;

 

Justification and decision making in planning the development of energy systems are based on technical and economic comparison of the options suggested for proper development of an energy system as a whole and its individual parts (elements) by assessing their relative efficiency against the criterion of minimum total discounted costs to meet the requirements of reliability, energy security and technical requirements.

Once the efficiency of constructing generating facilities is proven right, we work out alternative options of power/electric energy transmission from nearby energy systems.

 

We perform the following tasks:

  • Comparison of energy system development options;
  • Technical and economic assessment of possible options of electric power network development;
  • Calculation of electric modes;
  • Calculation of short-circuit currents;
  • Calculations of static stability;
  • Calculations of dynamic stability.

 

It should be noted that the list of tasks is preliminary and must be specified through setting tasks.

Schemes of power output and connection to the system;

Schemes of power output and connection to the system of the largest industrial consumers.

We calculate static and dynamic stability of energy systems and their elements, identify bottlenecks, offer optimal technical solutions and assess the necessary investments.

Schematic solutions aim at finding the most rational scheme how to connect consumers to the grid and guarantee the right power output taking into account aspects of reliability and optimal costs.

 

To cope with this challenge we solve a set of tasks:

  • Comparison of different power output schemes and schemes to connect consumers;
  • Their technical and economic evaluation;
  • Calculation of electric modes;
  • Calculation of short-circuit currents;
  • Calculation of static stability;
  • Calculation of dynamic stability;
  • Identifying restrictions hampering connection of new consumers to electric grids, their lack of power or inability to generate required voltage;
  • Finding locations to install reactive power compensation means, determining their quantity and power;
  • Suggesting ways to eliminate “bottlenecks” (electric network strengthening, replacement of electric network equipment);
  • Working out possible options of electric power network development schemes and optimal technical solutions;
  • Their technical and economic evaluation;
  • Calculation of electric modes;
  • Calculation of short-circuit currents;
  • Calculation of static stability;
  • Calculation of dynamic stability;
  • Identifying restrictions hampering connection of new consumers to electric grids, their lack of power or inability to generate required voltage;
  • Finding locations to install reactive power compensation means, determining their quantity and power;
  • Suggesting ways to eliminate “bottlenecks” (electric network strengthening, replacement of electric network equipment);
  • Working out possible options of electric power network development schemes and optimal technical solutions;
  • Working out recommendations on installation of anticrash devices in energy systems.

 

It should be noted that the list of tasks is preliminary and must be clarified at the stage when tasks are set.

 

Experience in energy system development

Power delivery scheme of Nizhny Novgorod NPP

Development of design and detail engineering documentation for systems of relay protection, anticrash devices and communication for a scheme of power distribution at Beloyarsk NPP-2.

Development of options of temporary power output from Zagorsk pumped storage power plant-2

Scheme of power distribution for Novogorkovskaya thermal station which was reconstructed by using a steam generator which resulted in the installation of GT13E2gas turbines.

Development of power output scheme of gas turbine unit – thermal station with power capacity of 20 MW, Obninsk, Kaluga region.

Power output scheme of TES for Tolyatikauchuk.

Scheme of power distribution of thermal station near “Vorsino industrial park”.

Scheme of power output for Mayak nuclear power plant facilities.

General scheme of power supply for Moscow for a period up to 2030

Scheme and program of electric power industry development in Moscow in 2014-2019, 2015-2020, 2016-2021, 2017-2022, 2018-2023.

General scheme of power supply for Moscow for a period up to 2030

Development of a scheme of power supply of networks with voltage 110 kV and higher in Troitskiy and Novomoskovskiy administrative districts in Moscow

Scheme and program of electric power industry development in Kostroma region for 2014-2018

Scheme and program to develop electric power industry in Vologda region, 2014-2018, 2017-2021.

Scheme and program to develop electric power industry in Samara region, 2014-2018.

Scheme of development of electric networks with voltages of 110-35 and lower for JSC “Interregional distribution company Volga – Penzaenergo.

Scheme and program of electric power industry development in the Republic of Dagestan for 2017-2021.

Scheme and program to develop electric power industry in Nizhny Novgorod Region, 2013-2017 with a forecast up to 2022.

Development of a scheme and program for long-term development of electric power industry in the Vladimir region in 2015-2020.

Scheme and program to develop electric power industry in Leningrad region, 2017-2021.

 

 

 

Feedbacks

CentrInzhEnergoProject

ETS-Project is a design organization which deals with designing power grid facilities under general contract.

Due to its highly professional team of engineers, equipped with modern hardware and software, the company successfully performs functions of a general designer.

We would like to particularly underline mobility of its employees who promptly respond to any problems by directly interacting with the contractor on the construction site.

During our mutual cooperation ETS-Project confirmed its high professional status and competences in solving various engineering tasks.

We recommend ETS-Project as a reliable strategic partner capable of both developing the whole range of relevant documentation and providing author’s supervision during construction.

Technical director Kuznetsov S.I.

17.08.2017

Government of the Leningrad region

On behalf of the Committee for fuel and energy in Leningrad region, I would like to express my gratitude to ETS-Project which was chosen for devising the scheme and program of development of electric power industry in Leningrad region over a period of 2017 – 2021.

The Committee is fully satisfied with the quality of work performed and notes the company’s employees’ professionalism and responsible attitude to work.

First Deputy Chairman of the committee Y.V. Andreyev

20.06.2017

Ministry of energy and communications of the Republic of Dagestan

On behalf of the Ministry of transport, energy and communications of the Republic of Dagestan, I would like to express my gratitude to ETS-Project which was responsible for devising the scheme and program of development of electric power industry in Dagestan over a period of 2017 – 2021.

The Ministry is fully satisfied with the quality of work performed and notes the company’s employees’ professionalism and responsible attitude to work.

First Deputy Minister A. Arslanov

29.05.2017

 

PJSC “Interregional distribution grid company of North-West”, branch of PJSC “IDGC of North-West” – “Vologdaenergo”.

In 2015 the branch of IDGC of North-West – Vologdaenergo within its own competence participated in developing the “Scheme and program of electric industry development in Vologda Region for 2017 – 2021”, ordered by the Department of fuel and energy in Vologda. According to the state contract “4/16/15 – OD dated 24.09.2015 ETS-Project was selected as the contract executor.

The branch of PJSC “IDGC of North-West – Vologdaenergo” confirms high quality of the developed document and productive collaboration with ETS-project, which resulted in finding feasible and effective technical solutions necessary for the development of electric facilities in Vologda region. Therefore, on behalf of the company we would like to recommend ETS – Project as a reliable partner.

First Deputy Director – Chief Engineer, Vologdaenergo branch of IDGC of North-West, PJSC.

A.V. Pinizhaninov

08.07.2016

 

JSC “Oboronenergo”

As part of state contracts on devising schemes and programs of development of electric industry in Moscow as well as in Leningrad, Vologda, Samara, Vladimir regions, ETS-Project cooperated with structural units of JSC “Oboronenergo” in the above regions of the Russian Federation.

Based on the results of development and subsequent coordination of schemes and programs of electric industry development in these regions, JSC “Oboronenergo” confirms efficiency and professionalism of specialists employed by “ETS-Project” in addressing issues connected with the development of electric networks and reliability of power supply. We recommend ETS-Project as a reliable contractor for developing similar documents for other regions of the Russian Federation.

Deputy General director on property and legal issues A.N. Kobzev

07.07.2016

 

Vologda region

Department of fuel, energy and tariffs of Vologda region expresses its gratitude to ETS-Project for fruitful cooperation in completing the project “Scheme and program of electric industry development in Vologda region for 2017 – 2021”.

The tasks were completed on time and with proper quality.

ETS-Project proved itself to be a reliable and responsible partner, performing its duties on a high professional level. The company’s staff demonstrated strong skills in electrical engineering, responsible attitude, attention and desire to meet customer’s demands with maximum efficiency.

Head of Department M.B. Krivohizhin

24.06.2016

 

Ministry of energy and housing in Samara region

The Ministry of energy and housing in Samara region expresses its gratitude to ETS-Project for devising Scheme and program of electric power development in Samara region for 2014-2018 and hopes to continue cooperation in the future. ETS-Project proved itself to be a reliable and responsible partner which always professionally fulfills its obligations.

Deputy Chairman of Samara regional government S.A. Krainev

30.05.2014

 

Fuel and energy department, Vologda region

The fuel and energy department, Vologda region, expresses its gratitude to ETS-Project for fruitful cooperation in devising Scheme and program of electric industry development in Vologda region for 2014-2018.

ETS-Project proved itself to be a reliable partner.

The tasks were carried out on time and with proper quality.

Head of Department N.A. Potapov

22.01.2014

 

 

OJSC Volga Region Power Engineering Center

OJSC Volga regional energy center expresses its gratitude to ETS-Project for completing the project “Technical re-equipment of cogeneration plant -1 with a 200 MW gas turbine installation. Reconstruction of 110 kV switchgear of cogeneration plant – 1. Cogeneration plant -2 to ensure power output from generating facilities located in Samara branch of OJSC Volzhskaya heat generating company, Novokuibyshevskaya cogeneration plant-1”.

We would like to underline punctuality, professionalism, efficiency in solving tasks and attention which were demonstrated by specialists of ETS-Project to meet the requirements of the customer.

The employees actively participated in agreeing documentation with relevant organizations (both regional and general dispatchers’ office).

The use of advanced technologies, well-trained personnel with strong professional skills, engagement into process of continuous improvement in electrical engineering allow us to treat ETS-Project as a reliable partner capable of designing 110 kV+ facilities.

Deputy General Director of central production A.S. Davydov

28.10.2013

 

OJSC Rosenergoatom branch of Beloyarsk NPP

Under the contract with OJSC SPbAEP ETS-Project develops project and detail engineering documentation for relay protection and anticrash devices according to technical requirements as part of the project “Development of project and detail engineering documentation for relay protection, anticrash devices and communication systems of Beloyarsk NPP-2 power output scheme”.

At the moment the first stage of designing relay protection of outdoor switchgear – 220 kV of unit 4, Beloyarsk NPP is in the process of completion. Specialists of ETS – Project have shown a high level of qualification and knowledge of regulatory documentation, experience in developing project documentation for relay protection, ability to make the most effective and technically competent decisions. Your employees take an active part in agreeing documentation with supervisory organizations (regional dispatcher unit, as well as in liaising with plants and equipment manufacturers to obtain necessary data.

I would like to highlight punctuality, efficiency and readiness to cooperate which were demonstrated by specialists of ETS – Project to meet the customer’s demands.

Chief engineer Y.V. Nosov

13.11.2012