MINISTRY OF ENERGY OF THE RUSSIAN FEDERATION

ORDER

ON THE APPROVAL OF THE PROCEDURE FOR DETERMINING THE STANDARDS FOR SPECIFIC FUEL CONSUMPTION IN THE PRODUCTION OF ELECTRIC AND HEAT ENERGY

With changes:

(as amended by Orders of the Ministry of Energy of Russia dated 10.08.2012 N 377, dated 23.07.2015 N 494, dated 30.11.2015 N 904)

In accordance with paragraph 4.2.14.8 of the Regulations on the Ministry of Energy Russian Federation, approved by Decree of the Government of the Russian Federation of May 28, 2008 N 400 (Collected Legislation of the Russian Federation, 2008, N 22, Art. 2577; 2011, N 44, Art. 6269), I order:

1. Approve the attached procedure for determining the standards for specific fuel consumption in the production of electrical and thermal energy.

2. Recognize as invalid:

Order of the Ministry of Industry and Energy of the Russian Federation of October 4, 2005 N 268 "On the organization in the Ministry of Industry and Energy of the Russian Federation of work on the approval of standards for the specific fuel consumption for the supplied electrical and thermal energy from thermal power stations and boiler houses" (registered in the Ministry of Justice of Russia on October 28, 2005 N 7117).

S.I.SHMATKO

Approved

Order of the Ministry of Energy of Russia

No. 323 dated December 30, 2008

PROCEDURE FOR DETERMINING STANDARDS FOR SPECIFIC FUEL CONSUMPTION IN THE PRODUCTION OF ELECTRIC AND HEAT ENERGY

I. General provisions

1. Specific fuel consumption for:

released electrical energy from tires and thermal energy from collectors of thermal power plants operating on fossil fuels;

released thermal energy from boiler collectors.

2. Standards for specific fuel consumption are determined for each thermal power plant (hereinafter referred to as TPP) and boiler house (with the exception of heating and industrial heating boiler houses of the housing and communal sector).

The standard for specific fuel consumption for the supplied heat energy by heating and industrial heating boiler houses in the housing and communal sector is determined as a whole for the organization.

3. The norm of specific fuel consumption (hereinafter referred to as NUR) in this procedure is understood as the maximum allowable technically justified measure of fuel consumption per unit of electrical energy supplied from tires, per unit of thermal energy supplied to the heating network. The standards are determined in grams of standard fuel per 1 kilowatt-hour (g of reference fuel/kWh), kilograms of reference fuel per gigacalorie (kg of reference fuel/Gcal) with differentiation by months.

This procedure is applied when establishing NUR for the next billing period regulation (financial year), as well as when establishing the NRM for each settlement period of regulation within the framework of long term regulation in setting long-term tariffs in the field of heat supply.

4. The primary objects of NUR calculations at TPPs with steam turbine units are groups and subgroups of equipment. A group of equipment is a set of condensing turbine units or turbine units with controlled steam extraction and back pressure (for power units also with the same capacity), as well as all boilers (both pulverized coal and gas oil) that ensure the operation of these turbine units. The subgroup of power units includes a combination of only pulverized coal or only gas-oil boilers and condensing or cogeneration turbine units working together with them with the corresponding pressure of live steam and the same power. A subgroup of equipment with cross-links is a set of condensing or cogeneration turbine units with the same live steam parameters and boilers that ensure the operation of these turbine units and burn only solid or gas-oil fuel.

If pulverized-coal and gas-oil boilers operate on a common live steam collector, then a subgroup of equipment with cross-links is conditionally considered pulverized-coal.

For thermal power plants equipped combined cycle plants(hereinafter - CCGT) or gas turbine units (hereinafter - GTU), as well as diesel generators (hereinafter - DG), NUR calculations are performed for each piece of equipment.

The standard of specific fuel consumption for the supplied heat energy from the heating (industrial and heating) boiler house (group standard) is calculated on the basis of individual boiler standards, taking into account their productivity, operating time, the weighted average standard for the production of thermal energy by all boilers of the boiler house and the amount of heat energy consumption for its own boiler room needs. Individual norm of specific fuel consumption - the norm of consumption of the design type of fuel for the boiler for the production of 1 Gcal of thermal energy under optimal operating conditions.

Thermal energy supplied to the heating network is defined as the thermal energy produced by boiler units, minus the thermal energy used for the boiler house's own needs, and transferred to the heating network.

5. For steam turbine and gas turbine TPPs with an installed electric capacity of 10 MW or more and boilers with a heat output of 50 Gcal/h or more, NUR calculations are performed on the basis of the normative and technical documentation (hereinafter - RTD) in force at the time of the calculations for fuel use.

The composition of the NTD for fuel use and the requirements for its development are given in Section II of this procedure.

For TPPs with a capacity of less than 10 MW and boiler rooms with a heat output of less than 50 Gcal/h, as well as in the event of a temporary absence of NTD for fuel use or the expiration of its validity at TPPs and boiler houses of larger capacity, it is allowed to use in the calculations:

indicators of the base period;

manufacturer's data, typical energy characteristics of boiler and turbine units;

expert assessments based on reporting or other data.

According to DG, passport, reference data and operational indicators are used in NUR calculations.

6. When calculating the NUR, additional fuel and energy costs caused by:

omissions in the operational and repair maintenance of equipment;

carrying out construction and installation, experimental and research work;

start-up and adjustment of new equipment;

conservation of units.

7. In the event that the actual values ​​of the indicators exceed the indicators of the energy characteristics of the equipment (in terms of the efficiency of boiler and turbine units, vacuum, feed water temperature, electricity and heat costs for own needs, etc.) in the year preceding the calculated one, the NUR values ​​calculated based on the NTD for fuel use, are adjusted downward by the amount of fuel savings against the energy performance obtained in the previous year.

8. The choice of the composition of operating equipment and the distribution of electrical and thermal loads between individual units of power plants and boiler houses are based on the principles of ensuring reliable energy supply to consumers and minimizing fuel costs for energy supply.

9. NUR calculations are performed for each of the months of the settlement period of regulation (long-term period of regulation) and in general for the entire settlement period of regulation (each settlement period within the framework of the long-term period of regulation). NUR as a whole for the settlement period of regulation is determined by the results of calculations for each month.

10. The distribution of fuel costs by power boilers between electric and thermal energy generated in the combined cycle at TPPs in the NUR calculations is made in accordance with the methods adopted in the preparation of state statistical reporting.

11. The documents substantiating the values ​​of the standards considered by the Ministry of Energy of Russia for power plants and boiler houses in the electric power industry include:

a summary table of the results of calculations of the standards for specific fuel consumption for supplied electricity and heat, prepared in accordance with Appendix 1 to this procedure;

explanatory note;

NUR calculations for each TPP and boiler house for each month of the settlement period of regulation (long-term period of regulation) and in general for the settlement period of regulation (each settlement period of regulation within the long-term period of regulation). When performing calculations of specific fuel consumption based on the NTD for fuel use, the supporting materials must contain completed layouts (included in the NTD for fuel use) for each TPP and boiler house for each of the months of the estimated regulation period (each estimated regulation period within the long-term regulation period) ;

calculations of the minimum electricity generation for thermal power plants for each month of the regulation period and in general for the billing period;

energy balances for each month of the settlement period of regulation (long-term period of regulation) and in general for the settlement period of regulation (each settlement period of regulation within the framework of the long-term period of regulation), agreed with the Regional Dispatch Department and the authority executive power subject of the Russian Federation in the region state regulation tariffs. If there are no indicators in the forecast energy balance for each settlement period of regulation within the framework of the long-term regulation period, the volume taken into account in the forecast energy balance for the first settlement period of regulation within the framework of the long-term regulation period is taken into account for the calculation of the NOR;

plan for repairs of the main power equipment in the billing period;

copies title pages current regulatory and technical documentation on fuel use for each TPP and boiler house in accordance with Appendices 10 and 11 to this procedure;

a map of fuel burns due to the deviation of the actual performance of the equipment from the standard level for the year preceding the current one in accordance with Appendix 12 to this procedure;

a plan for the implementation of organizational and technical measures to eliminate fuel burns due to the deviation of the actual equipment performance from the standard level and a plan for realizing the energy saving potential, developed on the basis of the results of energy surveys;

the structure of the fuel balance, the quality indicators of the types and grades of fuel used for the last three years preceding the current period, for the current period and forecasted in the billing period (calorific value, ash content, humidity) for the billing period on a monthly basis;

copies of statistical reports on the operation of a thermal power plant in the form of N 6-TP (annual) for the last 3 years preceding the current one;

information on the fulfillment of the standards approved by the Ministry of Energy of Russia for a thermal power plant for the current year and for the two years preceding the current year, in accordance with Appendix 13 to this procedure;

the values ​​of the standards for the settlement year, the current year and for the two years preceding the current year, included in the tariff;

materials and tables substantiating the values ​​of the standards submitted for approval in accordance with the list and requirements of this procedure (in the format of the editor spreadsheets and CD).

The explanatory note reflects:

name and mailing address energy supply organization, position, phone number, surname, name and patronymic of the first head;

a brief description of the installed main equipment in accordance with appendices 4 - 6 to this order;

features of thermal and electrical circuits, equipment operation modes, fuel and water supply conditions;

predicted volumes of electricity generation with an indication of the sources of their receipt;

predicted volumes of heat supply in steam and hot water with the application of relevant calculations for their justification, temperature schedules of the heating network, copies of applications for heat supply from consumers;

temperature values ​​of the outside air, cooling water at the inlet to the turbine condensers and their dynamics for the last three years in monthly and annual terms, accepted for a regulated period;

substantiation of the predicted structure and quality of the fuel burned, with copies of the relevant fuel supply contracts and certificates of quality indicators attached;

the accepted composition of the operating equipment for each month of the billing period with the appropriate justification;

principles of distribution of electrical and thermal loads, between the turbine units of TPPs, between heat supply sources of TPPs (regulated and unregulated extractions, reduction-cooling units (hereinafter referred to as ROU), peak hot water boilers (hereinafter referred to as PVK));

information about the NTD for fuel use: validity period, values ​​of thermal efficiency reserves, availability of measures to realize the energy saving potential;

results of NUR calculations, analysis of the reasons for the change in standards in comparison with their actual and standard values ​​for the period preceding the calculation period;

dynamics of the main technical and economic indicators for the last three years for TPPs and boiler houses in accordance with appendices 7 - 9 to this order;

analysis of compliance with the standards approved by the Ministry of Energy of Russia for the current year and for the two years preceding the current year.

Each of the documents included in the materials substantiating the NUR values ​​must be signed by the head of the TPP, boiler house or enterprise.

II. The composition of the regulatory and technical documentation for the fuel use of steam turbine, gas turbine TPPs and boiler houses and the requirements for its development

12. Normative and technical documentation on fuel use is developed for steam turbine and gas turbine thermal power plants with an installed electric capacity of 10 MW or more and boiler plants with a heat output of 50 Gcal/h and more.

13. The composition of the regulatory and technical documentation for the fuel use of a thermal power plant includes:

energy characteristics of boiler units of each of the equipment groups;

energy characteristics of turbine units of each of the equipment groups;

dependencies of technological heat losses associated with the heat output of each of the equipment groups;

dependence of the absolute or specific costs of electricity and heat for the own needs of each of the groups of equipment, the power plant as a whole;

explanatory note on the development of the energy characteristics of the equipment and the dependences of the costs of electricity and heat for own needs;

graphs of initial-nominal specific fuel consumption for supplied electricity and heat;

layouts for calculating the nominal indicators of equipment and standards for specific fuel consumption;

reporting data on nominal and actual specific fuel consumption for the last 3 years preceding the development of the NTD for fuel use.

Normative and technical documentation for the fuel use of the boiler house includes:

energy characteristics of each type of installed steam and hot water boilers;

dependence of absolute or specific heat consumption for own needs;

dependences of power costs on the mechanisms of the boiler room (blower fans, smoke exhausters, feed pumps, network pumps, etc.);

an explanatory note on the development of the energy characteristics of the equipment and the dependencies of heat costs for own needs;

graphs of initial-nominal specific fuel consumption for supplied heat;

model of calculation of nominal indicators and standards of specific fuel consumption;

plan of organizational and technical measures for the implementation of reserves of thermal efficiency and rational use fuel and energy resources, developed on the basis of mandatory energy audits;

Normative and technical documentation on the use of fuel by organizations operating heating (industrial and heating) boiler houses includes:

technical characteristics of equipment and modes of operation;

energy characteristics of boilers;

characteristics of the fuel used;

regime maps developed based on the results of regime and adjustment tests;

calculations and indicators of heat consumption for auxiliary needs of the boiler house for the billing year;

a plan of organizational and technical measures for the rational use and saving of fuel and energy resources and the reduction of standards for specific fuel consumption;

reporting data on nominal and actual specific fuel consumption for the last 3 years preceding the development of the NTD for fuel use.

14. The energy characteristic of the unit (hereinafter referred to as the EC) is a complex of dependencies of the nominal and initial-nominal values ​​of the parameters and indicators of its operation in absolute, specific or relative terms from the load or other standard-forming indicators at fixed values ​​of external factors.

EC is developed for a specific thermal scheme of a technically sound unit, taking into account its design features, conditions and modes of operation, operating time.

EC reflects the maximum possible efficiency of the use of energy resources by the unit, provided there are no omissions in its operation, maintenance and repair.

EH includes a system of corrections that provide the ability to assess changes in the volume of energy consumption by the unit when external factors change and the actual values ​​of parameters and indicators deviate from the parameters and indicators of EH.

External factors include objective factors that affect the efficiency of equipment operation, the values ​​of which do not depend on the activity. production staff and contractor repair organizations.

As initial data in the development of EC equipment, the following are used:

results of representative balance tests;

data of regime-adjustment or express tests;

Balance tests are performed on equipment that has passed overhaul and having higher operational values ​​of thermal efficiency indicators compared to other similar equipment of a thermal power plant or boiler house.

In the absence of test results and TEC, the best performance indicators or data from equipment manufacturers can be used as initial data for the development of temporary EC, with a validity period of not more than 1 year.

15. When developing an EC, with appropriate justification, it is allowed to take into account the accuracy of the source material used in the development of energy characteristics, aging (wear and tear) of equipment, the presence of fatal defects in design, manufacture and installation. The operating tolerance, due to its objectivity, is taken into account without additional justification, as it reflects the deterioration in the efficiency of equipment during the overhaul period.

The accuracy of the source material reflects the errors of thermal tests, typical energy characteristics.

Aging (wear and tear) of equipment characterizes the natural physical wear and tear of equipment that is technologically unrecoverable by repairs during its long-term operation, leading to deterioration technical condition, reducing the efficiency and reliability of work.

16. The corrections for changes in parameters and indicators given as part of the energy characteristics of the equipment provide:

determination of nominal values ​​of parameters or indicators with actual or predicted values ​​of external factors;

assessment of the reserve of thermal efficiency of equipment due to the deviation of the actual value of a parameter or indicator from its nominal value.

17. Graphs of the initial nominal specific fuel consumption are calculated and built:

for each group (subgroup) of power plant equipment for winter and summer periods with characteristic combinations of operating equipment, average values ​​of heat supply in the real range of changes in electrical loads;

for steam and hot water boilers of a boiler house for characteristic combinations of operating boilers in a real range of changes in thermal loads.

The charts show:

parameters, conditions and values ​​of external factors under which the graphs are built;

corrections to specific fuel consumption for changes in external factors and conditions;

combinations of operating units;

fuel losses during equipment start-ups from various thermal states;

values ​​of the coefficients of the thermal efficiency reserve for the supply of heat and electricity and the degree of their use.

18. The model for calculating nominal indicators and standards for specific fuel consumption is a table that reflects the calculation procedure, determines the sources of primary information and contains calculation formulas.

Models are developed by groups (subgroups) of equipment, take into account the composition of the equipment and the features of its thermal schemes, operating modes, types of fuel burned.

Layouts reflect:

initial-nominal values ​​of indicators determined by energy characteristics (without amendments) at actual average loads. The parameters of turbine units are determined for each of their modes of operation (condensing, with one or two adjustable steam extractions, with one- or two-stage heating of network water);

actual values ​​of external factors, indicators characterizing the volume of energy production, equipment operation modes, start-ups;

the values ​​of amendments to indicators for the difference between the actual values ​​of external factors and those adopted in the construction of energy characteristics;

nominal values ​​of the main and intermediate indicators of units for actual operating modes and values ​​of external factors;

the values ​​of corrections to the specific fuel consumption for the stabilization of modes, the development of newly introduced equipment;

standards for specific fuel consumption.

19. Validity period of NTD on fuel use cannot exceed 5 years. At the end of the validity period of the NTD is reviewed, the period of validity of the NTD is not extended. The NTD is reviewed a quarter before its expiration date.

An extraordinary review of the NTD is carried out when:

transfer of boilers to burning fuel of a different type or brand;

transfer of turbine units with steam condensation to work with back pressure or degraded vacuum;

reconstruction of turbine units with the organization of controlled extraction or with an increase in the release of steam from controlled extraction;

introduction of new equipment.

On approval of the procedure for determining the standards for specific fuel consumption in the production of electrical and thermal energy

Adopted December 30, 2008
Ministry of Energy of the Russian Federation Registered March 16, 2009 No. 13512
Ministry of Justice of Russia

• Editorial
• No. 13512 dated March 16, 2009.

1. In accordance with paragraph 4.2.14.8 of the Regulations on the Ministry of Energy of the Russian Federation, approved by Decree of the Government of the Russian Federation of May 28, 2008 N 400 (Collected Legislation of the Russian Federation, 2008, N 22, Art. 2577; 2011, N 44, Art. 6269 ), I order:
2. 1. Approve the attached procedure for determining the standards for specific fuel consumption in the production of electrical and thermal energy.
3. 2. Recognize as invalid:
4. Order of the Ministry of Industry and Energy of the Russian Federation of October 4, 2005 N 268 "On the organization in the Ministry of Industry and Energy of the Russian Federation of work on the approval of standards for specific fuel consumption for the supplied electrical and thermal energy from thermal power plants and boiler houses" (registered with the Ministry of Justice of Russia October 28, 2005 N 7117).
5. Minister
6. S.I.SHMATKO

Application
to the Order of December 30, 2008 №№ 323, 13512
Order

1. (pre) Summary table of the results of calculations of the norms of specific fuel consumption for supplied electricity and heat by ____________________________ for 20__ (name of organization) (/pre)
2. Power plant, indicator Equipment group Average annual valueJanuary February March April May June July August September October November DecemberGroup 1Group 2Group 1Group 2- heat supply, Gcal TotalGroup 1Group 2Group 1Group 2Group 1Group 2Power plant - electricity generation, thousand kWh TotalGroup 1Group 2- electricity supply, thousand kWh TotalGroup 1Group 2- heat supply, Gcal TotalGroup 1Group 2- normative specific fuel consumption for supplied electricity, g/kWh TotalGroup 1Group 2- normative specific fuel consumption for released heat, kg/Gcal TotalGroup 1Group 2Boiler house - heat supply, thousand Gcal- normative specific fuel consumption for released heat, kg/GcalEnergy supply organization as a whole - electricity generation, thousand kWh- electricity supply, thousand kWh- heat supply, thousand Gcal- specific fuel consumption standard for supplied electricity, g/kWh- normative specific fuel consumption for released heat, kg/Gcal

   The value of the indicator by month

3. (pre) Chief engineer (Head) __________________________________ _________________ ______________________ (name of organization) (signature) (full name) Chief engineer (Head) __________________________________ _________________ ______________________ (name of thermal power plant, boiler house) (signature) )(/pre)

Application
to the Order of December 30, 2008 №№ 323, 13512
Order

1. (pre) Summary table of the results of calculations of the standards for specific fuel consumption for electricity supplied by diesel power plants according to ___________________________________________________ name of the organization for 20__ (/pre)
2. (pre) total for the organization (branch): Head (position) _______________________________ ______________ _______________ (name of organization) (signature) (full name) (/pre)

Application
to the Order of December 30, 2008 №№ 323, 13512
Order

1. (pre) Technical characteristics of thermal power plant equipment _________________________________ (name of organization) Boiler units (/pre)
2. (pre) Turbo units(/pre)

Application
to the Order of December 30, 2008 №№ 323, 13512
Order

1. (pre) Specifications equipment diesel power plant ________________________________ (name of organization) ────┬─────────────────────────┬─────────┐ │ Diesel generators │According to DPP │ │ │ (station N N) │overall│ │ │ │ ├─────┬───────┬─────┬───────┤ │ │ │ │ │ 1 │ 2 │ 3 │ 4 │ │ ├────────────────────────────────────── ──┼─────┼──────┼─────┼─────┼────────┤ │ 1 │ 2 │ 3 │ 4 │ 5 │ 6 │ 7 │ 8 │ ├────────────────────────────── ──┼─────┼──────┼─────┼─────┼───────┤ │ diesel generator type │ │ │ │ │ │ │ │ │ (brand) ────┼─────┼─────┼────────┤ │ │ base engine│ │ │ │ │ │ │ │ │ ───────┼────────┼─────────┼─────┼──────┼─────┼───── ┼───────┤ │ │generator │ │ │ │ │ │ │ │ ─┼─────────┼─────────────────┼────────────────┼──────┼────── ──┤ │power │N │kW │ │ │ │ │ │ │ │ nominali │ │ │ │ │ │ │ ──────┼────────┼────────┼─────┼──────┼─────┼──────┼ ───────┤ │Rated │ │ d │ │ │ │ │ │ │ │fuel consumption │diesel │b │g/kWh │ │ │ │ │ │ │for electric power production en. │ │ i │ │ │ │ │ │ │ │ ├───────────────────────────────────────── ─────┼─────┼─────┼────────┤ │ │diesel- │ dg │ │ │ │ │ │ │ │ │generator │b │g/kWh │ │ │ │ │ │ │ │ │ i │ │ │ │ │ │ │ ───────┼────────┼──────┼──────┼──────┼──────┼──────────┤ generator ─────────────────────────────────────────────────────── ──────────────┼──────────────────┼──────┼───────┼────── ┼─────┼───────┤ │electricity production │e │thous. │ │ │ │ │ │ │ │ i │kWh │ │ │ │ │ │ ├─────────────────────────────── . ─┤ │number of hours of work │tau │h │ │ │ │ │ │ │ │ i │ │ │ │ │ │ │ ───────┼────────┼─────────┼─────┼──────┼─────┼───── ┼───────┤ │average load per estimated │N │ │ │ │ │ │ │ │number of hours of work │ parts │ │ │ │ │ │ │ ├────────────── ─┬──────┬─────────┼──────────┼───────────────┼───────────── ────┼─────┼─────────┤ │ parameters │ nom. │ │ d │ │ │ │ │ │ │ │ adjustable │exp. │dis. │b │g/kWh │ │ │ │ │ │ │characteristics│fuel │ │ reg │ │ │ │ │ │ │ │ (according to the passport) ──────┼─────┼─────┼────────┤ │ │ │diesel- │ dg │g/kWh │ │ │ │ │ │ │ │ │ generator │b │ │ │ │ │ │ │ │ │ │ │ reg │ │ │ │ │ │ │ │ ──────┼─────┼──────┼──────┼─────┼─────────┤ │ │ Generator efficiency │ gene │ │ │ │ │ │ │ │ │ │this │ │ │ │ │ │ │ │ │ │ part ─── ──────┼────────┼────────┼─────┼──────┼─────┼──────┼ ───────┤ │number of starts │n │ │ │ │ │ │ │ │ │ xx │ │ │ │ │ │ │ ───────────┼─────────┼─────────┼──────┼───────┼──────────── ────┼────────┤ │fuel consumption for cold. stroke │b │kg/h │ │ │ │ │ │ │ │ xx │ │ │ │ │ │ │ ├────────────────────────────────────────────────────────── ────┼────────┼────────┼──────┼───────┼──────┼──────┼── ─────┤ │ operating time │ passport │ │ thous. h │ │ │ │ │ │ │ ─────┼─────┼─────┼────────┤ │ │expected for │ │thous. h │ │ │ │ │ │ │ │01.01 │ │ │ │ │ │ │ │ │ │ regulatedregulated │ │ │ │ │ │ │ │ │ │of this year │ │ │ │ │ │ │ │ ├──────── ───────┼─────────────────────────┼─────────┼─────┼─── ────┼─────┼─────┼─────────┤ │fuel │brand │ │ │ │ │ │ │ │ │ ────┼────────┼────────┼──────┼───────┼──────┼──────┼── ─────┤ │ │calorific value │ n │kcal/kg │ │ │ │ │ │ │ │ability │Q │ │ │ │ │ │ │ │ │ │ r │ │ │ │ │ │ │ └────── ─────────┴────────────────┴────────────────────┴────────┴ ──────┴─────┴──────┴─────────┘(/pre)

Application
to the Order of December 30, 2008 №№ 323, 13512
Order

1. (pre) Dynamics of the main technical and economic indicators of a thermal power plant ____________________________________ (name of organization) (/pre)
2. Index Previous year target Target for the regulated year Target for the regulated year Target for the regulated year20__ 20__ 20__ 20__ 20__ 20__ 20__ 20__Electricity generation, thousand kWhElectricity generation according to the heating cycle, thousand kWhThe same, in %% of the total outputElectricity supply, thousand WhHeat output, Gcal, including: with steam for process needs with hot water exhaust steam from RDU from HVACCombusted fuel structure, %%: solid fuel gas fuel oilInstalled capacity utilization factor, %%: electric thermal power of turbine extractionsSpecific fuel consumption for vacation: electricity, g/kWh of heat, kg/Gcal

   Fact.

Application
to the Order of December 30, 2008 №№ 323, 13512
Order

1. (pre) Dynamics of the main technical and economic indicators of the boiler house, branch ___________________________________ (name of organization) (/pre)

____________________________________

Application
to the Order of December 30, 2008 №№ 323, 13512
Order

1. (pre) Validity period from "__" __________ 200_ to "__" ___________ 200_ Number of bound sheets ___________ AGREED: Head _______________________________________ _____________ ___________________ (name of the expert organization) (signature) (full name) Head _______________________________________ _____________ ___________________ (name of organization) (signature) (full name) Head _______________________________________ _____________ ___________________ (name of TPP, boiler house) (signature) (full name)

Application
to the Order of December 30, 2008 №№ 323, 13512
Order

1. REGULATORY AND TECHNICAL DOCUMENTATION ON FUEL USE _______________________________________________ (name of TPP, boiler house, organization)

   Book 2

   Group (subgroup) of equipment _____________________________________________ (name of group (subgroup))

   (pre) Validity from "__" _________ 200_ to "__" ___________ 200_ Number of bound sheets ____________ AGREED: Head _______________________________________ _____________ ___________________ (name of the expert organization) (signature) (full name) Head _______________________________________ ______ ___________________ (name of organization) (signature) (full name) Head _______________________________________ _____________ ___________________ (name of TPP, boiler house) (signature) (full name)

Application
to the Order of December 30, 2008 №№ 323, 13512
Order

1. (pre) Map of fuel burns at a thermal power plant ______________________________ for 200_ (name of organization) ┌────────────────────────────────── ────────────────────────────────────────────────── ────────────────────────────────┐ │Power plant,│ Components of fuel burns due to deviations from the norm., t c.u. t.: │ │ group ──────┬──────┬───────┬───────────────── ────┤ │ equipment │ specific │pressure│temperature-│pressure│temperature│ efficiency │temperature-│excess│suction │chemical│total│ │ │ consumption tour│air │ air │ and mechanical │ │ │ │ heat │ steam │ fresh │ conden- │ water │ boiler │ leaving-│ in re- │ on │ incompleteness │ │ │ │ gross │ │ steam │ sator e │ │ │general │pressure │ path │ combustion │ │ │ │ turbine │ │ │ │ │ │ gases │ section │ "boiler -│ │ │ │ │ installation │ │ │ │ │ │ │ │ smoke exhauster" │ │ │ ├────────── ──────┼───────────┼────────────────────────────────── ──────┼──────┼──────┼─────────────────┼───────────────── ────┤ │ 1 │ 2 │ 3 │ 4 │ 5 │ 6 │ 7 │ 8 │ 9 │ 10 │ 11 │ 12 │ ───────┼────────┼─────────┼────────────────────────┼─── ───┼──────┼───────┼─────────┼──────────┼──────┤ │Total by │ │ │ │ │ │ │ │ │ │ │ │ │ power plants, │ │ │ │ │ │ │ │ │ group 1 │ │ │ │ │ │ │ │ │ │ │ │ │ group 2 │ │ │ │ │ │ │ │ │ │ │ │ ────────┴─────────┴───────────────────────┴───────┴──── ──┴────────┴─────────────────────┴──────┘

________________________________________________________

1. Index 20__ 20__ 20__Specific fuel consumption for supplied electricity, g/kWh: actual approved as a standardSpecific fuel consumption for released heat, kg/Gcal: actual approved as a standardElectricity generation taken into account when calculating the standards, thousand kWh, total, including: group 1 group 2Actual electricity generation, thousand kWh, total, including: group 1 group 2Electricity supply, thousand kWh based on standard calculations actualElectricity generation according to the heating cycle, thousand kWh: based on the calculations of the standards, the actualAverage electrical load of power units based on the calculation of standards, MW Group 1 Group 2Actual average electrical load of power units, MW Group 1 Group 2Total heat output, Gcal from calculation of standards actualHeat output by exhaust steam from extractions, from backpressure, from turbine condensers, Gcal: actual from calculation of standardsHeat output from peak hot water boilers, Gcal: Actual based on standard calculationsHeat supply with hot water, Gcal: actualThe share of gas in the structure of fuel burned, %% of the calculation of standards actualThe share of fuel oil in the structure of fuel burned, %% of the calculation of standards actualThe share of solid fuel in the structure of fuel burned, %% of the calculation of standards actual

   Indicator value

Initial data

1. When calculating the minimum electrical load of a CHP plant, the following initial data are used:
2. a) a reasonable forecast for each of the pressures of steam supplied to consumers:
3. - hourly consumption, t/h:
4. (pre) p a) released steam - D ; from p b) returned condensate - G ; k(/pre)
5. - temperature, °C:
6. (pre) p a) released steam - t; p b) returned condensate - t ; j b) average monthly temperature for the last 5 years, °C: - outside air - t ; hv - circulating water at the inlet to the turbine condensers - t; 1(/pre)
7. - source water used for:
8. (pre) replenishment of condensate not returned by consumers, intra-plant external losses of steam, condensate, feed water - t ; ref T heating supply network - t ; ref c) average for the last 3 years feeding of the heating network as a whole for the CHPP or for its individual mains: in %% of the water consumption in the supply pipeline - alpha or tons per hour - G ; subp subp(/pre)
9. d) performance indicators of the heating network (depending on the outdoor temperature) approved by the management of the generating company (JSC-Energo) for the upcoming (or current) heating period:
10. - network water temperature, °C:
11. (pre) in the supply pipeline - tau; 1 in the return pipeline - tau; 2 - consumption of network water in the supply (or return) pipeline - G (G), t / h; under arr - network water pressure, kgf / cm2: a) in the supply pipeline - P; under b) in the return pipeline - P; arr(/pre)
12. d) average over the last 3 years heat consumption for household needs, Gcal/h:
13. (pre) -p - in a pair - Q; hoz -gv - in hot water - Q; host(/pre)
14. e) minimum steam flow to turbine condensers, t/h:
15. (pre) min - according to manufacturers - D ; kn,z - actual (due, for example, to the unsatisfactory design of the LPR control diaphragm, an unacceptable increase in the temperature of the metal of the LPR exhaust pipe, increased rotor vibration) - min D ; kn, f e) steam consumption for the turbine unit, at which the high-pressure regeneration control system works stably - D, t / h; o(/pre)
16. g) minimum steam capacity of boilers, t/h:
17. (pre) min - according to manufacturers - D ; k, h - actual (according to the conditions of fuel combustion, slagging of the furnace, circulation min., etc.) - D; k,f(/pre)
18. h) features of the thermal and electrical circuits of the power plant, heat and power supply to consumers [for example, the operation of certain turbine units on certain lines (with different characteristics) of heating networks; the presence of consumers whose power supply interruptions are not allowed; provision of deaerators and heat consumers own needs from a certain group of turbine units, etc.];
19. f) current regulatory and technical documentation on fuel use.
20. Calculation of the minimum CHP load
21. Calculation of the minimum CHP load is recommended to be carried out in the following sequence:
22. 1. Calculation of heat supply to consumers in steam and hot water is carried out (recalculation of weight costs and temperatures into heat).
23. 2. Preliminary distribution of heat supply (including household needs) between heat supply sources (turbine extractions, PVK, ROU) based on the condition that ROU and PVK are not included in the work until the possibilities of heat supply from turbine extractions are completely exhausted.
24. 3. The minimum composition of the equipment is preliminarily determined, the heat consumption for its own needs (in steam and hot water) is calculated for it, technological losses are determined during the heat supply by power and peak hot water boilers.
25. 4. Finally, the total heat demand (external consumers, household and own needs, technological losses) is distributed between heat supply sources.
26. (pre) 5. The heat load of the extractions is distributed between the turbine units. Their number should be minimal, the steam flow in their condensers should be equal to the minimum according to the manufacturer's data. Based on the energy characteristics, the standard power of each turbine unit (N) is determined for the mentioned conditions (n). m i 6. For each turbine unit, the relative increase in heat consumption for electricity production in the condensation cycle is determined for a given heat load - Deltaq . kn i 7. Corrections (DeltaN) to the initial power of each m ij turbine unit are calculated for the deviation of the predicted values ​​from those taken in the construction of energy characteristics (mode diagrams): (/pre)
27. - minimum steam flow to the condenser;
28. - steam pressure in controlled extractions;
29. - vapor pressure in condensers;
30. - temperature of network water in the return pipeline;
31. - the influence of other factors causing a change in the initial power of the turbine unit (for example, live steam parameters).
32. 8. The minimum power of each turbine unit is calculated
33. (pre) min (n) N = N + SUM DeltaN . (1) m i m i m ij _ 9. The heat output of the boilers Q is determined, which is necessary for k1 min to ensure the electric load of the CHP plant equal to SUM N for a given m i _ thermal load of turbine units equal to Q: m i - (n) (n) -3 - 2 Q = SUM x 10 / k1 m i m m ij kn i mi - 2 -min - - 2 / eta + Q x 10 / eta = x 10 / eta. (2) mn ROC mn ei mi ROC mn(/pre)
34. The following options for determining the value of the minimum electrical load of CHP are considered:
35. 1. There are no consumers whose heat supply interruptions are not allowed.
36. (pre) - 1.1. The value of Q is within the regulation k1 of the heat output of at least one combination of operating boilers: min min N = SUM N . (3) CHP m i - 1.2. The value of Q is outside the control range k1 of the heat output of any of the combinations of operating boilers: (/pre)
37. right part formula (3) is supplemented by the term
38. (pre) -min - (Q - Q) x eta to k1 mn + ---------------------- = + DeltaN , (4) 2 kn Deltaq x 10 kN i -min - in which Q is the nearest (greater Q) value of the lower limit to k1 of the heat output control range of one of the combinations of operating boilers. -min - The increase in CHP capacity (DeltaN) due to the excess of Q over Q kn to k1 is distributed among the turbine units (DeltaN) in order of increasing kn i values ​​Deltaq. book i(/pre)
39. 2. To ensure a reliable supply of the consumer, which does not allow interruptions in the supply of heat, a backup boiler must be in operation at the CHPP.
40. (pre) - 2.1. The value of Q is provided by two combinations of operating boilers: k1 min the value of N is determined by formula (3). CHP - 2.2. The Q value is provided by one combination of operating boilers. k1 -min In addition (4) to formula (3), the value of Q is assumed to be equal to the value of the lower limit of the heat output control range of the next combination of operating boilers. - 2.3. The value of Q is outside the range of regulation k1 of the heat output of any of the combinations of operating boilers: -min in addition (4) to formula (3), the value of Q is taken equal to the value of the lower limit of the range of regulation of the heat output of the nearest second combination of operating boilers. (/pre)

"On the procedure for determining the standards for technological losses in the transmission of thermal energy, coolant, standards for specific fuel consumption in the production of thermal energy, standards for fuel reserves at sources of thermal energy (with the exception of sources of thermal energy operating in the mode of combined generation of electric and thermal energy), including including for the purpose of state regulation of prices (tariffs) in the field of heat supply"

Edition of 08/22/2013 - Valid from 05/25/2014

 Show changes

MINISTRY OF ENERGY OF THE RUSSIAN FEDERATION

ORDER
dated August 10, 2012 N 377

ON THE PROCEDURE FOR DETERMINING STANDARDS FOR TECHNOLOGICAL LOSSES DURING THE TRANSMISSION OF THERMAL ENERGY, HEAT CARRIER, STANDARDS FOR THE SPECIFIC FUEL CONSUMPTION IN THE PRODUCTION OF THERMAL ENERGY, STANDARDS FOR FUEL RESERVES AT HEAT ENERGY SOURCES (EXCEPT SOURCES OF THERMAL ENERGY FUNCTIONING IN THE MODE OF COMBINED GENERATION OF ELECTRIC AND HEAT ENERGY), INCLUDING FOR THE PURPOSES OF STATE REGULATION OF PRICES (TARIFFS) IN THE SPHERE OF HEAT SUPPLY

(as amended by the Order of the Ministry of Energy of the Russian Federation dated 22.08.2013 N 469)

In accordance with paragraph 4 part 2 of article 4 federal law dated July 27, 2010 N 190-FZ "On heat supply" (Sobraniye zakonodatelstva Rossiyskoy Federatsii, 2010, N 31, art. 4159) and paragraph 4.2.14.8 of the Regulations on the Ministry of Energy of the Russian Federation, approved by the Decree of the Government of the Russian Federation of May 28, 2008 No. 400 (Sobranie Zakonodatelstva Rossiyskoy Federatsii, 2008, No. 22, Art. 2577; No. 42, Art. 4825; No. 46, Art. 5337; 2009, No. 3, Art. 378; No. 6, Art. 738; N 33, item 4088; N 52 (part II), item 6586; 2010, N 9, item 960; N 26, item 3350; N 31, item 4251; N 47, item 6128; 2011, No. 6, item 888; N 14, item 1935; N 44, item 6269; 2012, N 11, item 1293; N 15, item 1779), I order:

Approve attached:

The procedure for determining the standards for fuel reserves at sources of thermal energy (with the exception of sources of thermal energy operating in the mode of combined generation of electric and thermal energy);

changes that are made to the orders of the Ministry of Energy of Russia dated September 4, 2008 N 66"On the organization in the Ministry of Energy of the Russian Federation of work on the approval of standards for the creation of fuel reserves at thermal power plants and boiler houses" (registered by the Ministry of Justice of Russia on October 21, 2008, registration N 12560), dated December 30, 2008 N 323 "On the organization in the Ministry of Energy of the Russian Federation on the approval of standards for specific fuel consumption for supplied electrical and thermal energy from thermal power plants and boiler houses" (registered by the Ministry of Justice of Russia on March 16, 2009, registration N 13512) and dated December 30, 2008 N 325 dated February 1, 2010 N 36"On Amendments to the Orders of the Ministry of Energy of Russia dated December 30, 2008 N 325 and dated December 30, 2008 N 326" (registered by the Ministry of Justice of Russia on February 27, 2010, registration N 16520).

Minister
A.V. NOVAK

APPROVED
order of the Ministry of Energy of Russia
dated August 10, 2012 N 377

ORDER
DETERMINATIONS OF STANDARDS OF FUEL RESERVES ON SOURCES OF THERMAL ENERGY (EXCLUDING THE SOURCES OF THERMAL ENERGY FUNCTIONING IN THE MODE OF COMBINED GENERATION OF ELECTRIC AND HEAT ENERGY)

I. General provisions

1. Present Order establishes the rules for calculating the standards for fuel reserves at sources of thermal energy, with the exception of sources of thermal energy operating in the mode of combined generation of electric and thermal energy (hereinafter referred to as boiler houses), and the basic requirements for the regulation of fuel reserves (coal, fuel oil, peat, diesel fuel, stove oil). fuel) in the production of thermal energy by organizations, regardless of ownership and organizational and legal forms.

2. The fuel reserve standard at boiler houses is calculated as the stock of the main and reserve fuels (hereinafter - ONCT) and is determined by the sum of the volumes of the irreducible standard fuel reserve (hereinafter - NRCT) and the standard operational fuel reserve (hereinafter - NERT).

3. NNZT is determined for boiler houses in the amount that ensures the maintenance of positive temperatures in the main building, auxiliary buildings and structures in the "survival" mode with the minimum design heat load under the conditions of the coldest month of the year.

4. NNZT at heating boiler houses is determined in the amount calculated in accordance with paragraph 3 of this Procedure, as well as taking into account the need to ensure their operation under unforeseen circumstances when it is impossible to use or exhaust NEZT.

5. The following objects are taken into account in the calculation of NCVT:

objects of socially significant categories of consumers - in the amount of the maximum heat load minus the heat load of hot water supply;

central heat points, pumping stations, own needs of thermal energy sources in the autumn-winter period.

6. NNCT is calculated once every three years, it is recommended that the results of the calculations be drawn up in the form in accordance with Appendix No. 1 to this Procedure.

7. During a three-year period, NNCT is subject to adjustment in cases of changes in the composition of equipment, fuel structure, as well as the load of socially significant categories of consumers of thermal energy that do not have power from other sources.

8. Calculation of NCV is made for boiler houses for each type of fuel separately.

9. NNCT is restored in the approved amount after the elimination of the consequences of emergency situations.

10. For gas-fired boiler houses, NNCT is set according to the reserve fuel.

11. NEZT is necessary for the reliable and stable operation of boiler houses and ensures the planned generation of thermal energy in the event of restrictions on the supply of the main type of fuel.

12. Calculation of NEZT is made annually for each boiler house burning or having solid or liquid fuel (coal, fuel oil, peat, diesel fuel) as a reserve. Calculations are made on October 1 of the planned year.

13. Calculations of NNZT and NEZT are made for boiler houses of electric power industry organizations and heating (industrial and heating) boiler houses of organizations that are not related to electric power industry organizations, in accordance with Section II of this Procedure. In the results of calculations, the values ​​of the standards are presented in tons of natural solid and liquid fuels and are rounded up to tenths of the specified unit of measurement.

14. The determination of standards is carried out on the basis of the following data:

1) data on the actual main and reserve fuel, its characteristics and structure as of October 1 of the last reporting year;

2) methods and time of fuel delivery;

3) data on the storage capacity for solid fuels and the volume of tanks for liquid fuels;

4) indicators of the average daily fuel consumption in the coldest estimated time years of previous periods;

5) technology system and the composition of the equipment that ensures the operation of boiler houses in the "survival" mode;

6) a list of non-switchable external consumers of thermal energy;

7) the estimated heat load of external consumers (the heat load of boiler houses is not taken into account, which, according to the conditions of thermal networks, can be temporarily transferred to other power plants and boiler houses);

8) calculation of the minimum required heat load for the own needs of boiler houses;

9) justification of the accepted coefficients for determining the standards for fuel reserves at boiler houses;

10) the amount of ONRT, broken down into NNCT and NERT, approved for the previous planned year;

11) the actual use of fuel from OHCR with the allocation of NECT for the last reporting year.

The grounds for adjusting fuel reserve standards are changes in the heat generation program or a change in the type of fuel, the implementation of measures for the reconstruction and (or) modernization of heat energy sources and (or) heat networks, leading to a change in the volume of heat generation (capacity).

16. It is recommended that all the results of calculations and justification of the accepted coefficients for determining the standards for fuel reserves at boiler houses be drawn up in the form of an explanatory note on paper (broken into a separate book) and in in electronic format.

II. Methodology for performing calculations of standards for the creation of fuel reserves for boiler houses

17. Standards for the creation of fuel reserves can be formed:

for the organization as a whole, with the possibility of using fuel reserves, regardless of the territorial location of sources of thermal energy and warehouses for storing fuel;

for individual separate subdivisions(branches) by type of fuel;

for separate divisions (branches), geographically remote from other divisions of the organization.

18. Standards for the creation of fuel reserves for organizations and (or) their separate subdivisions (branches) in areas where fuel delivery is seasonal are subject to separate calculation.

The standard for the creation of fuel reserves for these organizations is determined for the period until the next seasonal fuel supply.

19. Estimated amount of NNCT is determined by the average daily planned fuel consumption of the coldest month of the heating period and the number of days, determined taking into account the type of fuel and the method of its delivery:

(thousand tons), (2.1)

where is the average value of heat energy supply to the heating network (boiler house output) in the coldest month, Gcal/day;

Estimated standard of specific fuel consumption for the supplied thermal energy for the coldest month, tce/Gcal;

K - conversion factor of natural fuel into conditional;

T is the duration of the period of formation of the volume of the irreducible fuel supply, days.

20. The number of days for which the NCV is calculated is determined depending on the type of fuel and the method of its delivery in accordance with Table 1.

Table 1

Type of fuel	Fuel Delivery Method	Fuel reserve volume, days
1	2	3
solid	railway transport	14
	motor transport	7
liquid	railway transport	10
	motor transport	5

21. To calculate the amount of NEZT, the planned average daily fuel consumption of the three coldest months of the heating period and the number of days are taken:

By solid fuel- 45 days;

for liquid fuel - 30 days.

The calculation is made according to the formula 2.2.

(thousand tons), (2.2)

where - the average value of the supply of thermal energy to the heating network (production by boiler houses) during the three coldest months, Gcal / day;

Estimated standard for the weighted average specific fuel consumption for the supplied heat energy for the three coldest months, tce/Gcal;

T - number of days, days.

22. For organizations operating gas-fired heating (industrial and heating) boiler houses with reserve fuel, the NEZT additionally includes the amount of reserve fuel necessary to replace () gas fuel during periods of reduction in its supply by gas supply organizations.

The value is determined according to the data on the limitation of gas supply by gas supply organizations during the cold weather period established for the current year.

Taking into account the deviations of the actual data on restrictions from those reported by gas supply organizations for the current and two previous years, the value can be increased according to their average value, but not more than 25%.

(thousand tons), (2.3)

where is the number of days during which the gas supply is reduced;

Percentage of daily fuel consumption to be replaced;

Deviation coefficient of actual indicators of gas supply reduction;

Ratio calorific value reserve fuel and gas.

23. NERT for organizations for which fuel is imported seasonally (before the start of the heating season) is determined by the total planned fuel consumption for the entire heating period for its total duration.

The calculation is made according to the formula 2.4.

(thousand tons), (2.4)

where is the average daily value of the supply of thermal energy to the heating network during the heating period, Gcal/day;

Weighted average standard for specific fuel consumption for the heating period, tce/Gcal;

T - duration of the heating period, days.

NNCT for organizations for which fuel is imported seasonally is not calculated.

24. The main initial data and the results of calculations of the standards for the creation of fuel reserves are recommended to be drawn up in accordance with Appendix No. 1 to this Procedure.

25. For organizations in which the production and transmission of thermal energy are not the main activities, the composition of the ONZT includes:

NNZT, calculated from the total heat load connected to the source;

NEZT, determined by the connected heat load of external consumers of heat energy.

26. Calculations of the standards for the creation of ONZT heating (industrial heating) boiler houses are recommended to be drawn up in the form in accordance with Appendix No. 2 to this Procedure.

Appendix No. 1
to the Order of determination
fuel reserve standards

(excluding sources)

Basic initial data and calculation results for the creation of a normative minimum fuel reserve (NNCT)

Type of fuel						NNCT, thousand tons
1	2	3	4	5	6	7

Basic input data and calculation results for the creation of a standard operating fuel reserve (NEZT)

Type of fuel	Average daily heat generation, Gcal/day.	Specific fuel consumption standard, tce/Gcal	Average daily fuel consumption, t	Coefficient of conversion of natural fuel into equivalent fuel	Number of days for stock calculation	NEZT, thousand tons
1	2	3		4	5	6
IN electronic document the numbering of the columns of the table corresponds to the official source.

Appendix No. 2
to the Order of determination
fuel reserve standards
on thermal energy sources
(excluding sources)
thermal energy, functioning
in combined production mode
electrical and thermal energy)

AGREED

"__" ___________ 20__

TOTAL REGULATORY FUEL STOCK (ONZT) ON THE CONTROL DATE OF THE PLANNED YEAR OF HEATING (INDUSTRIAL AND HEATING) BOILER HOUSES _________________________________________________________________
(name of company)
for 20__

Type of fuel	Total fuel reserve ratio (ONZT), thousand tons	Including
		irreducible reserve (NNZT), thousand tons	operational reserve (NEZT), thousand tons
1	2	3	4

APPROVED
order of the Ministry of Energy of Russia
dated August 10, 2012 N 377

CHANGES THAT ARE INTRODUCED TO THE ORDERS OF THE MINISTRY OF ENERGY OF RUSSIA DATED SEPTEMBER 4, 2008 N 66 "ON ORGANIZING WORK IN THE MINISTRY OF ENERGY OF THE RUSSIAN FEDERATION TO APPROVE REGULATIONS FOR CREATING FUEL RESERVES AT THERMAL ELECTROST ANTIES AND BOILER HOUSES", DATED DECEMBER 30, 2008 N 323 "ON ORGANIZATION IN IN THE MINISTRY OF ENERGY OF THE RUSSIAN FEDERATION WORK TO APPROVE STANDARDS FOR SPECIFIC FUEL CONSUMPTION FOR SUPPLIED ELECTRIC AND HEAT ENERGY FROM THERMAL POWER STATIONS AND BOILER HOUSES" AND DATED DECEMBER 30, 2008 G. N 325 "ON THE ORGANIZATION IN THE MINISTRY OF ENERGY OF THE RUSSIAN FEDERATION OF WORK ON THE APPROVAL OF STANDARDS FOR TECHNOLOGICAL LOSSES DURING THE TRANSFER OF HEAT ENERGY "b) in the preamble:

the figures "4.2.2" shall be replaced by the figures "4.2.14.8";

c) paragraph 1

"1. Approve the attached procedure for determining the standards for specific fuel consumption in the production of electrical and thermal energy.";

d) in the Instructions for the organization in the Ministry of Energy of Russia of work on the calculation and justification of the standards for specific fuel consumption for the supplied electrical and thermal energy from thermal power plants and boiler houses, approved by the specified order (hereinafter referred to as the Instruction):

"The procedure for determining the standards for specific fuel consumption in the production of electrical and thermal energy";

according to the text:

the word "Instruction" in the corresponding case shall be replaced by the word "order" in the corresponding case;

in paragraph 3, after the words "per gigacalorie (kg of fuel equivalent/Gcal)" add the words "with differentiation by months";

e) in appendices N 1 - 14 to the Instruction:

in the numbering headings, the words "to the Instructions on the organization in the Ministry of Energy of Russia of work on the calculation and justification of the standards for the specific fuel consumption for the supplied electric and thermal energy from thermal and electric power plants and boiler houses" shall be replaced by the words "to the procedure for determining the standards for the specific fuel consumption in the production of electrical and thermal energy."

3. In the order of the Ministry of Energy of Russia dated December 30, 2008 N 325"On the organization in the Ministry of Energy of the Russian Federation of work on the approval of standards for technological losses in the transmission of thermal energy" (registered by the Ministry of Justice of Russia on March 16, 2009, registration N 13513) (as amended by the order of the Ministry of Energy of Russia dated February 1, 2010 N 36"On Amendments to the Orders of the Ministry of Energy of Russia dated December 30, 2008 N 325 and dated December 30, 2008 N 326" (registered by the Ministry of Justice of Russia on February 27, 2010, registration N 16520)) (hereinafter referred to as the order):

a) the name shall be stated in the following wording:

"On approval of the procedure for determining the standards of technological losses in the transmission of thermal energy, coolant";

b) in the preamble:

the figures "4.2.4" shall be replaced by the figures "4.2.14.8";

the words "(Sobraniye zakonodatelstva Rossiyskoy Federatsii, 2008, N 22, art. 2577; N 42, art. 4825; N 46, art. 5337)" shall be replaced by the words "(Sobraniye zakonodatelstva Rossiyskoy Federatsii, 2008, N 22, art. 2577); 2011, N 44, art. 6269)";

V) paragraph 1 to read as follows:

"1. Approve the attached procedure for determining the standards for technological losses during the transfer of thermal energy, coolant.";

d) in Instructions on the organization in the Ministry of Energy of Russia of work on the calculation and justification of the standards for technological losses during the transmission of thermal energy, coolant, approved by the specified order (hereinafter referred to as the Instruction):

the name shall be stated in the following wording:

"The procedure for determining the standards of technological losses in the transfer of thermal energy, coolant";

paragraphs one and two paragraph 1 to read as follows:

"1. The standards for technological losses during the transfer of thermal energy, coolant (hereinafter referred to as the norms for technological losses) are determined for each organization operating thermal networks for the transfer of thermal energy, coolant to consumers (hereinafter referred to as the heat network organization). Determining the standards for technological losses is carried out by performing calculations of standards for heat network of each heat supply system, regardless of the calculated hourly heat load connected to it.

Standards for technological losses during the transfer of heat energy, heat carrier through heat networks of organizations for which the transfer of heat energy is not the main activity (hereinafter referred to as enterprises), providing services for the transfer of heat energy to third-party consumers connected to the heat networks of the enterprise, are approved in the part related to to third party users. At the same time, technological losses during the transfer of thermal energy for the enterprise's own consumption are excluded from the specified standards.

in the text, the word "Instruction" in the corresponding case shall be replaced by the word "order" in the corresponding case;

in paragraphs and - the words "during the transfer of thermal energy" shall be deleted;

V paragraph 11.6 the words "with the Instruction on the organization in the Ministry of Energy of Russia of work on the calculation and justification of the standards for specific fuel consumption for the supplied electrical and thermal energy from thermal power plants and boiler houses" shall be replaced by the words "with the procedure for determining the standards for specific fuel consumption in the production of thermal and electrical energy";

e) in the numbering headings of Annexes N - to the Instructions, the words "to the Instructions on organizing in the Ministry of Energy of Russia work on the calculation and justification of the standards for technological losses during the transmission of heat energy" shall be replaced by the words "to the procedure for determining the standards for technological losses during the transmission of thermal energy, coolant".