Rationing the consumption of fuel and energy resources. Rationing of energy resource consumption Total energy consumption

The actual annual consumption of electricity, heat and fuel for the production of certain types of products, works (services) indicated in column A is reflected.

11.6. Lines 0010, 0018, 0019, 0011 in column 1 “Products produced (work performed) for the reporting year” provide data on the volume of electricity supplied from the buses of power plants, excluding their losses and consumption for own needs.

The volume of energy received from outside and supplied to consumers (i.e., transit electricity), for the production of which the organization did not consume fuel, is not reflected in Section 2.

Information on electricity supply is provided by the following operating power plants (electric generating units):

Stationary, power over 2 kW;

Mobile, power 5 kW and above;

All types of power plants, regardless of capacity, serving enterprises related to the type of economic activity "Forestry and logging" (OKVED code 2 - ).

Organizations of other types of economic activity that have on their balance sheet boiler houses and electric boilers for heating with a productivity of less than 20 Gcal/hour do not provide information on the supply of heat energy and fuel consumption for the operation of this heating equipment in Section 2.

There is no need to reflect data in Section 2 by organizations (schools, kindergartens, medical and health institutions, boarding homes, cultural institutions, student dormitories, communal institutions and others) using special gas heating boilers with a capacity of up to 3 Gcal/h, provided if organizations do not produce products or perform work (services) specified in Appendix 2 to these Instructions.

11.7.3. Line 0034 “Thermal energy supplied by electric boiler installations (electric boilers)” provides data on the volume of thermal energy supplied by heating boilers of any type that are on their own balance sheet or the balance sheet of other organizations. In cases where boilers are part of the production equipment of thermal power plants and boiler houses, and the operation of electric boilers is directly related to the technological process of heat energy production, information on the volume of heat energy supplied by such electric boiler installations (electric boilers) and the corresponding electricity consumption are not included in the totals on lines 0025, 0032 turn on.

11.8. Lines 0021, 0031, 0050, 0190, 0195, 0200 in column 1 “Products produced (work performed) for the reporting year” provide data on the volume of losses. Information in columns 2 of the above lines is not reflected. Energy losses are distributed on the basis of experimental measurements or in proportion to the volume of energy consumed for the production of relevant types of products (works and services).

11.8.1. Line 0050 “Heat energy losses in heating networks” in column 1 reflects the total volume of heat energy losses in main heating networks, heating networks of cities and towns, as well as in factory and factory heating networks that provide heat supply to the outside. Losses of heat energy during its production are not reflected in this line.

11.8.2. Lines 0190 “Gas losses in main gas pipelines” and 0195 “Oil losses in main oil pipelines” provide, respectively, data on the volume of gas and oil losses during their transportation through main pipelines and branches from them and as a result of accidents that occurred on them. Information about gas and oil losses on in-field pipelines is not reflected in the form.

11.9. Line 0140 “Oil refining, including gas condensate” in column 1 provides information on the volumes of oil and gas condensate received for processing in this organization. These volumes do not include gas condensate, which went through the stabilization stage in this organization, oil, which went through the preparation stage and, accordingly, after stabilization and preparation without further processing, were shipped externally.

11.17. According to the accounting methodology, line 2840 “Transportation of goods by trucks” corresponds to the indicator “Freight turnover”. Freight turnover includes the total volumes carried on a commercial basis (for a fee for the customer - a legal entity or individual) on public roads with own and leased operational cargo-carrying vehicles: trucks (including cargo taxis), pickups and vans on passenger car chassis, as well as trailers .

Volumes of cargo turnover performed by freight vehicles for their own production purposes (non-commercial transportation of their own goods) are not taken into account in line 2840. Also, the transportation of goods carried out without going onto a public road (within the territory of the reporting entity) is not taken into account. Such transportation is technological. These include on-farm, intra-factory, intra-facility, intra-quarry, intra-building and other transportation. The transportation of passengers in trucks should not be equated with the transportation of goods in tons and ton-kilometers.

11.18. Line 2870 “Gas transportation through main gas pipelines” provides data on the volume of gas transportation work performed, with the unit of measurement “million m3 km”, calculated by multiplying the volume of gas transported in millions of cubic meters by the transportation distance in kilometers.

11.19. Line 2930 “Lifting and supplying water” provides data on the volume of water intended for supplying and/or lifting it from the water intake facility to treatment facilities or directly into the network using pumps, and data on electricity, heat and fuel consumed for this type works, as well as other related works and auxiliary processes related to the lifting and supply of water.

11.20. Line 2950 “Power supply to greenhouses” reflects the cost of electricity for lighting, operation of the electric motor and other electrical equipment used for greenhouse farming. In the case of using fuel resources (coal, gas, oil products and other resources) to operate the engine or equipment, the consumption for them is reflected in the corresponding columns on line 2950.

11.21. Line 2960 “Heating of greenhouses” reflects the cost of heat energy for heating, as well as the fuel consumed for heating. If the greenhouse is heated by electrical appliances, then the electricity consumption for them is indicated.

11.22. "List of types of products, works (services) for which electricity, thermal energy, boiler and furnace fuel and petroleum products in internal combustion engines are consumed" Appendix No. 2 to these Instructions excludes data on the consumption of fuel and energy resources for road and air transport, for with the exception of lines for which a special order is prescribed.

11.23. For lines 9400 “Operation of agricultural tractors and combines” and 9401 “including the work of tractors” in column 1, the data is reflected in conditional reference hectares of the total area of agricultural land of the farm, and in column 4 - in conventional terms, the volume of actual fuel consumption by tractors and combines, working on the farm, performing work with trailed, mounted agricultural machines, transporting loads on trailers, used for harvesting and other agricultural work.

The table of conversion factors and the replacement reference output of tractors of the main brands are given in Appendix No. 5 to these Instructions.

To determine the level of efficiency in the use of agricultural machinery (tractors and combines) and to ensure control over the consumption of fuel resources (fuel), indicators such as a conventional reference tractor and a conventional reference hectare are used. Physical tractors are converted into conditional standard ones according to coefficients that are determined based on standard output per shift. Conditional reference hectares are calculated by multiplying the number of standard changes performed by a tractor of the corresponding brand by the value of the variable reference output.

For reference: Conventionally, a standard hectare represents the amount of work corresponding to plowing one physical hectare of cereal stubble to a depth of 0.2 - 0.22 m of medium loamy, non-stony soils at a humidity of 20 - 22%, with a specific resistance of a plow with standard bodies of 50 kN/m2 per speed 1.4 m/s (5 km/h), flat terrain (slope angle up to 1°), height above sea level no more than 200 m, run length 800 m, on fields of the correct configuration without obstacles. The conversion of the volume of specific work performed by a tractor into conditional reference hectares (Fusl.et ha) is carried out by multiplying the number of shift norms actually completed (normosmen) (N) by the shift output of a given tractor under reference conditions Wusl.et.ha, i.e. according to the following formula:

Fusl standard ha = N x Wsl et ha, where

Fusl et ha - the volume of work performed by the tractor, in conditional reference hectares;

"Conversion factors and replacement reference output of tractors of the main brands" of these Instructions.

Since there are no conversion factors for combine harvesters, we recommend applying the coefficients specified in Appendix No. 5, using the “Power” criterion for them, i.e. to the corresponding power of the combine (in case of discrepancy, take a close value) - the corresponding conversion factor.

13.1. Column A contains the names of the types of products produced, works (services) performed, for which fuel, thermal and electrical energy are consumed, according to the List of types of products, works (services) given in Appendix No. 2 to these Instructions. Column A is filled out in the sequence specified in this appendix.

13.2. Columns B, C, D indicate line codes corresponding to the types of products, works (services) given in column A, units of measurement according to the All-Russian Classifier of Units of Measurement (OKEI).

13.3. Column 1 provides data on the volume of products produced and work (services) performed for the reporting year in physical terms. These data must coincide with similar data from other forms of federal statistical observation, which contain indicators on the production of products, works (services).

13.4. Columns 2, 3 and 4 reflect the actual annual consumption of electricity, heat and fuel for the production of the types of products, works (services) indicated in column A.

In columns 2 and 3, the actual consumption of electricity and heat energy includes the expense for the main and auxiliary technological processes in the production of the specified products (works, services), as well as the expense for the auxiliary needs of production, the expense for maintaining technological units in hot reserve: for their heating and start-up after current repairs and cold downtime, energy losses in converters, in thermal and electrical networks of the organization (workshop), attributed to the production of this product, work (service).

The consumption of thermal and electrical energy for auxiliary needs includes consumption for heating, ventilation and lighting of the main, auxiliary and service workshops and services, for the operation of intra-shop (factory) transport, for the work of workshop (factory) repair shops, expenses for household and sanitary -hygienic needs of workshops, for external lighting of the organization’s territory, for heating factory pipelines, for inter-shop transportation of raw materials and semi-finished products.

In cases where individual auxiliary needs (water supply, ventilation, production of oxygen, cold, compressed air and others) are an integral part of the technological process of production of products, works (services), energy costs for them are considered technological costs.

If there are significant expenditures of thermal and electrical energy for individual components of auxiliary needs, they are accounted for independently.

In organizations that produce diverse products, it is advisable to distribute general production workshop and factory expenses of thermal and electrical energy for the production of products, works (services) if it is impossible to accurately determine them, it is advisable to carry out in proportion to the energy consumption for technological production processes or depending on the volume of services received from auxiliary and ancillary workshops, namely from the transport workshop - in proportion to the volume of transported goods; from tool, repair and other auxiliary shops - in proportion to the share of services; from a pumping station, compressor and other workshops or power plants - in proportion to the volumes of water, air, gas, etc. received from them; from the central factory laboratory - in proportion to the number of analyzes and the volume of experimental work carried out in connection with the release of products.

Energy losses in factory thermal, electrical networks and converters are distributed on the basis of experimental measurements or in proportion to energy consumption in the production of the relevant types of work products (services), i.e. are determined by calculation according to the standard specific fuel consumption (SFC).

Data on energy losses in thermal and electrical networks of trunk and distribution network companies and organizations, other public networks, networks of cities and towns, as well as networks of this organization serving third-party consumers, are not taken into account when determining energy consumption for the production of certain types of products .

Column 4 reflects the actual consumption of boiler and furnace fuel, as well as petroleum products used in internal combustion engines.

The indicated volumes should not include the consumption of fuel used as a raw material for the production of other types of fuel, chemical, petrochemical and other non-fuel products, as well as as a material for non-fuel needs.

Thus, only the fuel that was burned in various boilers, technological installations, and internal combustion engines for one purpose or another is reflected.

Actual fuel consumption for the production of products, works (services) includes consumption only for the main and auxiliary technological processes of production of this type of product, work (service).

Data on fuel consumption and its types are given in tons of standard fuel.

All types of fuel from natural are converted into conventional fuel, as a rule, according to their actual thermal equivalents, defined as the ratio of the lower calorific value of the working state of the fuel to the calorific value of 1 kg of conventional fuel, i.e. 7000 kcal/kg:

where - K is the coefficient of conversion of fuel into conventional fuel;

Q is the lower calorific value of the working state of the fuel, kcal/kg.

The lower calorific value of the working state of the fuel, as a rule, should be determined in the laboratory.

If it is impossible to determine the calorific value in a laboratory, it is possible to use the relevant information from fuel suppliers, and in the absence of this information, use data on the average conversion factors of natural fuel into conditional fuel, given in Appendix No. 3 to these Instructions.

The conversion of natural fuel into conventional fuel is carried out by multiplying the amount of natural fuel by the corresponding conversion factor.

The actual consumption of fuel, thermal and electrical energy for the production of products, works (services) includes the costs of these resources associated with deviations from the adopted technology, operating modes, recipes, non-compliance with quality requirements for raw materials and materials, and other irrational costs.

13.5. Columns 5 - 28 provide a breakdown of the data in column 4 "fuel - total" by type of fuel. The sum of the data in columns 5 - 28 must be equal to the data in column 4 on the corresponding lines.

13.5.1. Columns 5 and 6 provide data on the consumption of hard coal (with a calorific value of more than 5700 kcal/kg) and brown coal (with a calorific value of less than 5700 kcal/kg), respectively, as well as the consumption of fuel products obtained as a result of the enrichment of these coals (concentrate, middlings, screenings and sludge) and their agglomerations (coal briquettes).

13.5.2. Column 7 provides data on fuel peat consumption.

13.5.3. In column 8, data on the consumption of peat briquettes and semi-briquettes are given in terms of conditional humidity: briquettes - at 16% humidity, semi-briquettes - at 28% humidity.

Conversion of the weight of peat, peat briquettes and semi-briquettes of actual moisture content to conditional moisture content is carried out using the following formula:

Where

R conventional - weight of peat (briquettes and semi-briquettes) in terms of conditional moisture content in tons;

R fact - the weight of peat (briquettes and semi-briquettes) with actual moisture content in tons;

IN fact - the actual moisture content of peat (briquettes and semi-briquettes) in percent;

IN conditional - conditional moisture content of peat (briquettes and semi-briquettes) in percent.

For example, in the reporting year, an enterprise used 1,500 tons of sod peat with a moisture content of 70%; the weight of sod peat in terms of a conditional moisture content of 33% will be:

13.5.4. Column 9 reflects data on the consumption of firewood for heating, both prepared by the organization itself and received from other organizations.

To convert firewood into standard fuel, information on firewood counted in dense cubic meters is used. Organizations that record firewood in storage cubic meters need to convert it into dense cubic meters by multiplying the number of storage cubic meters by a factor of 0.7.

13.5.5. Column 10 reflects the total consumption of metallurgical coke (blast furnace and foundry) with a piece size of 25 mm and above, coke and coke breeze with a piece size of less than 25 mm (in terms of dry coke).

If the coke breeze has a moisture content of 10%, then its natural weight should be multiplied by 0.9%, i.e. the dry weight reflected in the reporting will be 90% of the natural weight.

13.5.6. Column 11 shows the consumption of oil and gas condensate used only as boiler and furnace fuel.

13.5.7. Column 12 reflects gasoline consumption only as boiler and furnace fuel.

13.5.8. Column 14 provides data on the use of diesel fuel.

13.5.9. Column 18 shows the consumption of low-sulfur, medium-sulfur and high-sulfur heating oil, fuel oil for open-hearth furnaces, technological export fuel (TU 38.001361-87).

Oil refineries in this column also reflect liquid petroleum products of their own production (stripped oil at oil stabilization plants, reflux, straight-run fuel oil, etc.), which, according to production conditions, were consumed by them for their own technological needs as fuel.

13.5.10. Column 16 shows the consumption of low-sulfur household heating fuel (with a sulfur content of no more than 0.5%) and sulfurous (with a sulfur content of 1.2%).

13.5.11. Column 19 shows the consumption of naval fuel oil and gas turbine fuel.

13.5.12. Column 21 takes into account liquefied hydrocarbon gases of the following fractions: technical butane, butane-isobutane, isobutane, normal butane, propane, technical propane, propane-butane-pentane fraction (other liquefied gases), a mixture of technical propane and butane (SPBT), propane fractions -butane and propane-propylene. Other types of liquefied gases used as fuel are reflected on line 28.

13.5.13. Column 22 reflects the consumption of only dry gas from oil refineries. Liquefied gas from oil refineries is accounted for in column 21.

13.5.14. Columns 23 - 24 show the consumption of natural gas from gas, gas condensate, and oil fields, as well as processed gas - dry gas from gas processing plants.

Gas obtained as a result of oil refining, gas condensate (dry gas from oil refineries) and liquefied gas are not reflected in these lines.

13.5.15. Column 25 provides data on the consumption of blast furnace gas and other waste gases from metallurgical production (converter gas, ferroalloy gas, etc.).

13.5.16. Column 26 shows the consumption of coke oven gas, as well as waste gases from chemical and other industries (except for waste gases from metallurgical production).

Columns 25 and 26 do not provide data on the amount of gases used only to extract the thermal energy contained in them at heat recovery and other installations.

13.5.17. Column 27 shows the consumption of other types of solid fuel not listed in columns 5 - 10 (industrial waste, including solid and liquid secondary energy resources specified in Appendix No. 4 to these instructions, household waste, oil shale, other types of natural fuels (peat chips, straw, reeds, brushwood, firewood, corn stalks, husks, logging and woodworking waste, as well as dismantled wooden sleepers used as fuel, a mine stand, communication poles, wooden containers, logs from dismantled old buildings, etc. .).

13.5.18. Column 28 shows the consumption of other types of petroleum products not listed in columns 12 - 21.

13.19. Information on lines 2700, , , , reflects all organizations engaged in raising cattle, sheep, goats, pigs and poultry for slaughter, as well as organizations that own, manage or otherwise operate specialized sites for slaughtering livestock and birds. Column 1 indicates the volume of production of livestock and poultry for slaughter in live weight, columns 2 and 3 indicate the consumption of electricity and heat for the operation of specialized equipment (electric motors, electric conveyors, electric forklifts, etc.), lighting and heating of premises during the reproduction period livestock and poultry and/or keeping them for veterinary quarantine. Column 4 provides data on the amount of fuel consumed by vehicles for transporting livestock and poultry, the volume indicated in column 1.

13.20. Data on

Date of introduction 09/01/2000

GOST R 51379-99

UDC 621.004:002:006.354

Group E01

STATE STANDARD OF THE RUSSIAN FEDERATION

Energy saving

ENERGY PASSPORT FOR INDUSTRIAL CONSUMER OF FUEL AND ENERGY RESOURCES

Basic provisions. Standard forms

Energy conservation. Power engineering certificate of fuel-energy resources

for industrial consumer. Basic rules. Standard forms

OKSTU 3103, 3104, 3403

Entry into force 2000—09—01

Preface

1 DEVELOPED by a temporary creative team at the Russian Energy Efficiency Agency

INTRODUCED by the Scientific and Technical Directorate of the State Standard of Russia

2 ADOPTED AND ENTERED INTO EFFECT by Resolution of the State Standard of Russia dated November 30, 1999 No. 471-st

3 INTRODUCED FOR THE FIRST TIME

Introduction

The State Energy Supervision Authority of the Russian Federation, in collaboration with the Moscow Energy Saving Agency, has prepared standard forms of energy passport for consumers of fuel and energy resources, proposed for pilot implementation at a number of enterprises. These forms allow you to obtain, in a concentrated form, objective information about the level and efficiency of the use of fuel and energy resources at production enterprises of the fuel and energy complex, industry and utilities. Approbation of the developed forms was actively carried out for two years by the Nizhny Novgorod and Moscow regional energy saving centers and other organizations specializing in the field of energy audit.

This standard, which regulates the main provisions of energy certification, establishes the forms of documents - components of the passport of an industrial consumer of fuel and energy resources, supplementing and clarifying previously developed forms, reflects the accumulated experience in the field of energy certification of enterprises and offers a single unified approach to its composition and structure.

1 area of use

This standard establishes the basic requirements for the construction, presentation and content of the energy passport of an industrial consumer of fuel and energy resources (FER) in order to determine the actual balance of FER consumption, assess energy efficiency indicators and formulate energy saving measures.

The obligation to develop and maintain an energy passport for a consumer of fuel and energy resources is determined by regulatory legal acts adopted by federal executive authorities and executive authorities of constituent entities of the Russian Federation.

The standard is used by state energy supervision authorities when conducting energy surveys of energy consumers and assessing the efficiency of using fuel and energy resources.

GOST 8.417-81 State system for ensuring the uniformity of measurements. Units of physical quantities

GOST 27322-87 Energy balance of an industrial enterprise. Basic provisions

GOST R 51387-99 Energy saving. Regulatory and methodological support. Basic provisions.

3 Definitions

The following terms with corresponding definitions are used in this standard:

energy saving: Implementation of legal, organizational, scientific, production, technical and economic measures aimed at the efficient use of energy resources.

fuel and energy resources: A set of natural and produced energy resources, the stored energy of which, at the current level of development of technology and technology, is available for use in economic activities.

efficient use of energy resources: Achieving economically justified efficiency in the use of energy resources at the existing level of development of technology and technology and compliance with environmental protection requirements.

consumer of fuel and energy resources: An individual or legal entity that uses fuel, electrical energy (power) and (or) thermal energy (power).

energy passport of an industrial consumer of fuel and energy resources: A normative document reflecting the balance of consumption and containing indicators of the efficiency of the use of fuel and energy resources in the process of economic activity by industrial facilities, as well as containing energy-saving measures.

energy auditor organization: A legal entity (organization, other than state supervisory authorities) that carries out energy inspections of consumers of fuel and energy resources and has a license to perform this work.

4 General provisions

4.1 The energy passport of a consumer of fuel and energy resources is developed on the basis of an energy survey conducted to assess the efficiency of using fuel and energy resources, the development and implementation of energy-saving measures.

4.2 The development and maintenance of the passport is ensured by the consumer of fuel and energy resources.

Methodological recommendations for filling out and maintaining an energy passport are developed by energy auditors and agreed upon with federal executive authorities authorized for state supervision of the effective use of fuel and energy resources.

4.3 Energy surveys of the efficiency of using fuel and energy resources are carried out by:

Consumers of TER (own internal surveys);

Energy audit organizations working under contract;

Bodies exercising supervision and control over the effectiveness of the use of fuel and energy resources. The rules for conducting energy surveys of fuel and energy resources consumers are established by the federal executive body authorized for state supervision over the efficient use of fuel and energy resources.

4.4 The objects of the energy survey are:

Production equipment, machines, installations, units that consume fuel and energy resources, convert energy from one type to another for the production of products, performance of work (services);

Technological processes associated with the transformation and consumption of fuel, energy and energy carriers;

Processes associated with the consumption of fuel and energy resources for auxiliary needs (lighting, heating, ventilation).

4.5 Information in the energy passport is updated in accordance with current regulatory legal acts in the field of monitoring the efficiency of use of fuel and energy resources.

4.6 Responsibility for the accuracy of the energy passport data lies with the persons who conducted the energy surveys and the consumer’s administrative management TER.

4.7 The energy passport of the consumer of fuel and energy resources must be stored at the enterprise, in the territorial body of state energy supervision and in the organization that conducted the energy audit.

4.8 The energy passport stamp is determined by the management of the fuel and energy resources consumer in the prescribed manner.

5 Structure and content of the energy passport

industrial consumer of fuel and energy resources

5.1 The energy passport consists of the following sections.

5.1.1 general information about the consumer of fuel and energy resources;

5.1.2 information on fuel and energy resources consumption:

Total energy consumption,

Electricity consumption

Thermal energy consumption,

Consumption of boiler and furnace fuel,

Motor fuel consumption;

5.1.3 information on the efficiency of using fuel and energy resources;

5.1.4 measures to save energy and increase the efficiency of using fuel and energy resources;

5.1.5 conclusions.

The final section of the energy passport of a consumer of fuel and energy resources must include:

A list of facts of unproductive expenses of fuel and energy resources recorded during the consumer survey, indicating their value in value and physical terms;

Proposed directions for increasing the efficiency of using fuel and energy resources with an assessment of the savings of the latter in value and physical terms, indicating costs, implementation time and payback;

Quantitative assessment of reducing the level of unproductive costs of fuel and energy resources through the introduction of energy-saving measures:

Cost-free and low-cost;

Average cost;

High-cost.

5.2 Standard forms of an energy passport for an industrial consumer of fuel and energy resources include:

5.2.1 title page of the energy passport of the consumer of fuel and energy resources (Appendix A);

5.2.2 general information about the consumer of fuel and energy resources, given in the form (Appendix B), containing information about the name, details of the enterprise, volume of production of main and auxiliary products, number of personnel and other information about the enterprise;

5.2.3 information on total energy consumption, given in the form (Appendix B), containing information on annual consumption and commercial accounting of consumption of all types of energy resources used by the consumer of fuel and energy resources;

5.2.4 information on electricity consumption, given in forms (Appendices G-K), containing information on transformer substations, installed capacity of electrical receivers in areas of use with a brief energy characteristics of energy-intensive equipment, containing information on the own production of electrical and thermal energy (own thermal power plant) , as well as the annual balance of electricity consumption;

5.2.5 information on the consumption (production) of thermal energy, given in forms (Appendices L-P), containing information on the composition and operation of boiler houses (boiler units included in the own thermal power plant), information on technological equipment using thermal energy, calculated - standard heat energy consumption, as well as the annual balance of heat energy consumption;

5.2.6 information on the consumption of boiler, furnace and motor fuel, on the use of secondary energy resources, alternative fuels, renewable energy sources, given in forms (Appendices R-F) containing information on the characteristics of fuel-using units, on the use of motor fuels by vehicles, etc. ., as well as balances of consumption of boiler, furnace and motor fuels;

5.2.7 information on the efficiency indicators of the use of fuel and energy resources, given in the form (Appendix X), containing information on the specific costs of fuel and energy resources;

5.2.8 information on energy-saving measures, given in the form (Appendix C), containing information on energy-efficient measures for each type of fuel and energy resources.

The standard energy passport forms presented in the standard are used as basic ones. Depending on the consumer’s affiliation with a particular sector of the economy, the features and specifics of production equipment and technological processes, standard forms of energy passports, according to the recommendations of the Federal executive body exercising state supervision over the effective use of fuel and energy resources, can be supplemented and approved as part of the relevant regulatory document.

5.3 When filling out the energy passport of an industrial consumer of fuel and energy resources, the regulatory and methodological materials presented in Appendix III can be used.

APPENDIX A

(required)

ENERGY PASSPORT No.____

industrial consumer of fuel and energy resources

_______________________________________________________________________________

name of organization, enterprise

Passport developed

month _____________200... g.

_______________________________________

name of the developer organization

_____________________________________________________________

position of the head of the development organization, signature, surname

_______________________________________________________________

signature, surname, position of the responsible executor,

energy sector of the consumer signature, surname

Valid until ________________________________

five years, not counting the year of development

APPENDIX B

(required)

General information about the industrial consumer of fuel and energy resources

_______________________________________________________________________________

(full name of the consumer of fuel and energy resources)

1 Type of ownership ______________________________________________________________

2 Address ________________________________________________________________________

3 Name of the parent (superior) organization ________________________________

4 Full name manager _________________________________________________________________

5 Full name Ch. engineer_______________________________________________________________

6 Full name Ch. energy _________________________________________________________________

7 Fax ________________________________________________________________________________

8 Bank details ________________________________________________________________

9 Phones:

Ch. engineer ______________________

Ch. energy _____________________

Reference _______________________

Name	Unit	Base year	This year	Note

1 Volume of production (services, works)
2 Product production in physical terms
2.1 Main products
2.2 Additional products
3 Energy consumption	thousand tce
	thousand roubles. 1)
4 Energy intensity of production 2)	thousand tce

5 Share of payment for energy resources in the cost of manufactured products 3)
6 Average headcount
6.1 incl. industrial production personnel

1) The cost of fuel and energy resources is determined based on the submitted invoices.

2) Determined by the formula

Value of item 3 (numerator)

Meaning of item 1

3) Determined by the formula

Value of item 3 (denominator)

Meaning of item 1

APPENDIX B

(required)

Total energy consumption

Name of energy carrier	measurements	Consumed	Commercial accounting		Note
Name of energy carrier	measurements	quantity per year	Device type (brand)	Quantity	Note

1 Boiler and furnace fuel
1.1 Gaseous fuels
1.2 Solid fuel
1.3 Liquid fuel
1.4 Alternative (local) fuels
1.5 Conversion factors to equivalent fuel
2 Electricity
3 Thermal energy
3.1 Pressure
3.2 Temperature of forward and return water
3.3 Steam superheat temperature
3.4 Steam dryness level
4 Compressed air
4.1 Pressure
5 Motor fuel:
5.1 - gasoline
5.2 - kerosene
5.3 - diesel fuel

APPENDIX D

(required)

Information about transformer substations

Production, workshop, substation number	Year of commissioning	Transformer type	Number of transformers	Total power of the substation, kVA	Voltage, kV highest/	Note

APPENDIX D

(required)

Installed power of electricity consumers

by areas of use

Direction of use electricity	Number and total power, kW, of electric motors (in workshops, areas, production facilities, etc.)



1 Technological equipment, including:
Electric drive, electro-thermal equipment
Dryers


3 Ventilation equipment

5 Compressors
6 Welding equipment
7 Refrigeration equipment
8 Lighting
9 Other, including household appliances

Information about compressor equipment

Workshop, site, production, type of compr.

Year of commissioning

Quantity

Productivity, m 3 /min

Pressure, MPa

Power electric drive,

Compr. operating time per year according to the log, h, year

Estimated average annual electricity consumption, MWh

Specific energy consumption fact./

norm.*, kW×h/

Cooling system (circuit, water, etc.)

* In the absence of regulatory (passport) data, it is calculated using the formula

Characteristics of refrigeration equipment

Heat sink type___________

source unit	commissioning	Power in cold weather, Gcal/h	Temperature in refrigerating chamber, °C	power, kWt	Specific electricity consumption, actual/ normal, kW×h/	Opening hours, summer/ winter, h/day	Heat removal system from the condenser
source unit	commissioning	Power in cold weather, Gcal/h	Temperature in refrigerating chamber, °C	power, kWt	Specific electricity consumption, actual/ normal, kW×h/	Opening hours, summer/ winter, h/day	Coolant consumption in summer/ winter, t/h	Cooling in summer/

Information on the composition and operation of the main equipment of the thermal power plant*

Fuel: main ___________

backup___________

Year of commissioning of the thermal power plant

Electric power of thermal power plants, project/actual, kW

Thermal power of thermal power plants, design/

actual, Gcal

Type of turbine unit

Number of turbine units

Turbine unit efficiency, %

Annual use of turbine unit, design/

Installed capacity efficiency factor,

Specific fuel consumption for electricity production g.t./

Note

* Information on the composition and operation of boiler units included in the thermal power plant is filled out according to formula L.

APPENDIX K

(required)

Balance of electricity consumption in 200...G.

MWh (column 5 - as a percentage).

Income/expense items	Total consumption	Including calculated and standard consumption taking into account standard losses	Note


1 Third-party source (by meters),
2 Own thermal power plant
II Flow*
1 Technological equipment, including:
Electric drive, electrothermal equipment
Dryers


3 Ventilation equipment
4 Handling equipment
5 Compressors
6 Welding equipment
7 Refrigeration equipment
8 Lighting
9 Other, including household appliances

10 Subsubscribers
11 Operationally inevitable losses:
In networks, total
In transformers
12 Irrational losses
Total: total consumption

* If there is an in-plant metering of electricity in the “Consumption” article, column 2 is also filled in.

APPENDIX L

(required)

Information about the composition and operation of the boiler room

Fuel: main - natural gas

backup - ________

Boiler type

Year of commissioning

Quantity

Productivity, design/actual*, t/h,

Pressure, work./

actual*, MPa

Gross efficiency according to latest tests, %

Efficiency according to the passport, %

Specific fuel consumption for heat generation fact./

normal* kg equivalent fuel/Gcal

Annual fuel consumption according to commercial accounting, thousand.

Annual heat production according to instrument metering, Gcal

* Determined by passport data.

APPENDIX M

(required)

Characteristics of technological equipment,

using thermal energy (steam, hot water)

Purpose, direction of use of the unit	Unit name, year of commissioning, type, brand, type of energy carrier	Productivity of the unit (passo rt) by product, .../h	Quantity	Input operating parameters/ at the exit		Specific heat energy consumption per unit of production, Gcal/...	Efficiency according to the passport, %	Steam traps: type, quantity	Availability of heat recovery devices, condensate temperature, °C	Note (characteristics condensate contamination)
Purpose, direction of use of the unit		Productivity of the unit (passo rt) by product, .../h	Quantity	working pressure, MPa	operating temperature, °C		Efficiency according to the passport, %	Steam traps: type, quantity		Note (characteristics condensate contamination)

APPENDIX H

(required)

Estimated standard consumption of thermal energy in 200...g.

Object name (workshop, site, etc.), coolant (steam, hot water)	Technological equipment	At the actual values of the average annual temperature, °C, and the duration of the heating period, days
	Technological equipment	Heating	Forced ventilation	Hot water supply

1 Production premises


Total: by production premises
2 General production services and premises


Total: for general production services

APPENDIX P

(required)

Balance of thermal energy consumption in 200...

Gcal (columns 8, 10, 12 - as a percentage)

Income/expense items	Characteristics, parameters			Total consumption	Estimated standard consumption with taking into account standard losses (Appendix M)	Losses: operational inevitable/	condensate
Income/expense items	coolant	pressure R, MPa	temperature, °C*	Total consumption		Losses: operational inevitable/	condensate


1 Own boiler room
2 Third party source
Total, arrival

1 Technological costs
1.1 including a pair, of which by contact (sharp) method
1.2 hot water
2 Heating and ventilation, including air heaters
3 Hot water supply
4 Third party consumers
5 Total network losses (standardized)
Total: production cost
6 Subscribers
7 Irrational technological losses in heating, ventilation, hot water supply systems
Total: total consumption

* For “hot water” coolant, indicate the temperature of the forward and return water.

APPENDIX P

(required)

Characteristics of fuel-using units

Purpose, direction of use	Unit name, type, brand, characteristic size, year of commissioning	Quantity	Unit productivity (datasheet) by product, .../h	Specific fuel consumption per unit of production, kg fuel equivalent/...		Name and brief characteristics of heat recovery equipment, exhaust gas temperature, °C	Note
Purpose, direction of use		Quantity	Unit productivity (datasheet) by product, .../h	actually for 200...g.	consumption standard		Note

APPENDIX C

(required)

Balance of boiler and furnace fuel consumption in 200...g.

(Consumption in t.e.)

Income/expense items	Total energy consumption	Including		Efficiency factor	Note
Income/expense items	Total energy consumption	calculated and standard consumption taking into account standard losses	energy losses: operational-inevitable / fact.	Efficiency factor	Note


Total: arrival

1 Technological use, including:
1.1 non-fuel use (in the form of raw materials)
1.2 heating

1.4 firing (melting, annealing)
2 For thermal energy production:
2.1 in the boiler room
2.2 in own thermal power plant (including electricity generation)
Total: total consumption

APPENDIX T

(required)

Characteristics of the use of motor fuels by vehicles

Name, (brand), type of transport

means, year of release

Number of vehicles

Load capacity, t, passenger capacity, people.

Type of fuel used

Specific fuel consumption according to passport data, l/km; l/

Annual figures for the current year

Col. fuel consumed, l

Flow measurement method

Specific fuel consumption, l/

The amount of fuel received,

Fuel losses

Mileage, km

Freight volume, t×km

APPENDIX U

(required)

Balance of motor fuel consumption

Income/expense items	Total consumption,	Calculation and normative consumption, l	Losses, l		Actual specific consumption, l/(t×km)	Note
Income/expense items	Total consumption,	Calculation and normative consumption, l	inevitable	actual	Actual specific consumption, l/(t×km)	Note


Total: arrival


1 Transportation of goods
2 Transport of people
3 For energy production
Total: consumption

APPENDIX F

(required)

Information on the use of secondary energy resources,

alternative (local) fuels and renewable energy sources

Characteristic name	Unit	Characteristic value	Note

1 Secondary (thermal) SER
1.1 Characteristics of VER
1.1.1 Phase state
1.1.2 Consumption
1.1.3 Pressure
1.1.4 Temperature
1.1.5 Typical pollutants, their concentration
1.2 Annual output of VER
1.3 Annual actual use
2 Alternative (local) and renewable types of fuel and energy resources
2.1 Name (type)
2.2 Main characteristics
2.2.1 Calorific value
2.2.2 Annual operating time of the power plant


2.3 Power of the power plant	Gcal/h, kW
2.4 Power plant efficiency
2.5 Annual actual energy output	Gcal, MWh

APPENDIX X

(required)

Specific consumption of fuel and energy resources for manufactured products

Types of energy carriers and names of products (works)	Unit	Base year: actual specific consumption of general plant/shop	Estimated specific energy costs (standards) by type of product, taking into account the implementation of the energy saving program (Appendix C) for the volume of production in... examinations
Types of energy carriers and names of products (works)	Unit		this year

1 Boiler and furnace fuel:
1.1 - for products	kg.t./unit ed.
1.2 - for the production of thermal energy	kg equivalent/Gcal
1.3 - for the generation of electrical and thermal energy	g equivalent fuel/(kW×h), kg equivalent fuel/Gcal
2 Thermal energy:	Gcal/unit ed.
2.1 - for products
3 Electricity:	kWh/unit ed.
3.1 - for products
3.2 - for the production of compressed air	kWh/(kN×m 3)
3.3 - for cold production	kWh/Gcal
4 Motor fuel:

Kerosene
Diesel fuel

APPENDIX C

(required)

List of energy saving measures

Name of events, type of energy resource	Costs, thousand rubles	Annual savings in fuel and energy resources		Agreed term	Payback period
Name of events, type of energy resource	Costs, thousand rubles	in kind	in value terms, thousand rubles. (according to tariff)	implementation, quarter, year	Payback period

Saving measures:
Boiler and furnace fuel, t.e.
Thermal energy, Gcal
Electricity, MWh
Compressed air, kN×m 3 and other material resources
Motor fuel:
Gasoline
Kerosene
Diesel fuel
Savings, total:
thousand tce .



including on measures taken for implementation:
thousand tce

APPENDIX III

(informative)

Bibliography

1 Guidelines for organizing fuel accounting at thermal power plants. RD 34.09.105-96. M. SPO ORGRES, 1997

2 Rules for measuring the flow of gas and liquids using standard tapering devices. RD 50-213—80. Change No. 1 to RD 50-213-80. M. Standards Publishing House, 1998

3 Methodology for performing measurements using tapering devices. MI 2204-92. M. Standards Publishing House, 1997

4 Guidelines for the inventory of coal and oil shale at power plants. MU 34-70-050—83. M. SPO Soyuztekhenergo, 1983

5 Guidelines for inventory of liquid fuel at power plants. MU 34-70-152—83. M. SPO Soyuztekhenergo, 1983

6 Guidelines for rationing heat consumption for heating and ventilation of industrial buildings. TES MU 34-70-079—84. M. SPO Soyuztekhenergo, 1984

7 Rules for installation of flow metering devices. RD-50-213, M. Standards Publishing House, 1985

8 Methodology for assessing the technical condition of steam turbine units before and after repairs and in the period between repairs, RD 34.20.581.85. M. SPO ORGRES, 1995

9 Methodology for assessing the technical condition of boiler installations before and after repairs. RD 34.26.617—97 M. SPO ORGRES, 1997

10 Rules for the technical operation of power plants and networks of the Russian Federation. M. SPO ORGRES, 1996

11 Standard instructions for accounting of electrical energy during its production, transmission and distribution, RD 34.09.101-94. M. SPO ORGRES, 1995

12 Rules for the construction of electrical installations, 6th edition, M. Glavgosenergonadzor of the Russian Federation, 1998

13 Rules for metering thermal energy and coolant. P-683, Glavgosenergonadzor. M. Publishing house MPEI, 1995

14 Information letter from RAO UES of Russia “On commercial metering of thermal energy.” IP-01(02)-97.

15 Guidelines for drawing up a report from the power plant and JSC Energo on the thermal efficiency of equipment. RD 32.08.522—95

16 Rules for conducting energy surveys. Approved by the Ministry of Fuel and Energy of Russia on March 25, 1998. M. SPO ORGRES, 1998

17 Methods for determining the limits of permissible differences when determining the “net” weight of cargo transported during bulk transportation. MI 1953-88. M. SPO Soyuztekhenergo, 1984

18 Oil and petroleum products. Mass measurement methods. GOST 26976—86

19 Guidelines for quality control of solid, liquid and gaseous fuels for calculating specific costs. TES RD 34.09.114-92, M., SPO ORGRES, 1993

20 B.P. Varnavsky, A.I. Kolesnikov, M.N. Fedorov. "Energy audit of public utilities and industrial enterprises." Tutorial. M. MIKSiS, 1998

21 Transport Charter of the Railways of the Russian Federation dated 08.11.98 No. 2-FZ (Collection of legislative acts of the Russian Federation. 12.01.98. No. 2)

22 Rules for the supply of gas to the Russian Federation dated 02/05/98 No. 162 (Collection of legislative acts of the Russian Federation, No. 6)

23 Standard instructions for the operation of heating networks in district heating systems. Approved by the Department of Development Strategy and Scientific and Technical Policy of RAO UES of Russia

24 Guidelines for compiling energy characteristics for thermal energy transport systems. Approved by the Department of Construction on 07/07/98

25 Guidelines for determining heat losses in water heating networks. RD 34.09.255-97. M., SPO ORGRES, 1998

26 Guidelines for testing water heating networks for hydraulic losses. RD 34.20.519-97. M. SPO ORGRES, 1998

27 Standard regulations on the electrical workshop. TP 34-70-014—86. SPO Soyuztekhenergo, 1987

28 Guidelines for the inspection of heat-consuming installations of closed heat supply systems and the development of energy saving measures. Industry guidance document of the Russian Federation 34.09.455-95 RAO UES of Russia. M., 1996

29 Energy audit and regulation of energy consumption. Collection of teaching materials. Edited by prof. S.I. Sergeeva. NSTU, NICE, N. Novgorod, 1998

General tasks. Rationing the consumption of fuel and energy resources (FER) is the determination of a measure of rational consumption of these resources per unit of product of established quality. The main task of rationing energy consumption as an integral part of energy management is to ensure the application in production of methods of rational distribution and efficient use of energy resources.

The consumption rate of fuel and energy resources allows:

Plan the need for fuel and energy resources for the production of a certain amount of products;

Analyze the work of the enterprise and its divisions by comparing standards and actual unit costs of fuel and energy resources;

Determine the specific energy intensity of this type of product;

Compare the energy intensity of a product of the same name produced in different ways.

The basis for drawing up fuel and energy resources consumption standards is the analysis of energy balances of industrial enterprises.

Classification of fuel and energy resources consumption rates . The consumption rates of fuel, thermal, electrical and mechanical energy differ both in the degree of aggregation - individual, group, and in the composition of costs - technological, general production.

Individual consumption rate of fuel and energy resources - This is the rate of consumption for the production of a unit of a certain product manufactured in a certain way on specific equipment.

Group consumption rate of fuel and energy resources- this is the rate of consumption for the production of a unit of products of the same name, manufactured according to different technological schemes, on different types of equipment, from different raw materials.

Technological consumption rate of fuel and energy resources- this is the rate of consumption for the main and auxiliary technological processes of production of this type of product.

General production consumption rate of fuel and energy resources- this is a norm that takes into account energy costs for main and auxiliary technological processes, for auxiliary production needs, as well as technically inevitable energy losses in converters, thermal and electrical networks of enterprises attributed to the production of these products.

Approximate composition of technological and general production standards for fuel and energy resources consumption:.

General production norm

Technological standard

Heating

Ventilation

Lighting

Internal transport

Household needs

Technological processes

Maintaining process equipment in hot reserve

Losses in networks and converters

Warming up and starting up units after planned shutdowns

Standard losses of process equipment

The main methods for developing fuel and energy resources consumption standards are:

Experienced (instrumental);

Calculated-statistical - based on statistical data on specific energy costs for a number of previous years, i.e., the method of extrapolation or energy planning;

Calculation and analytical - based on a mathematical description of energy consumption, taking into account standard-forming factors.

Calculation-statistical and calculation-analytical methods are used to develop both individual and group norms for fuel and energy resources consumption. The experimental (instrumental, instrument-calculation) method is used to determine only individual group consumption rates of fuel and energy resources.

Example 1.

Characteristics of industrial enterprises:

Enterprise No. 1. Fuel and energy resources costs:

For the main technological process - 5-10 MJ;

For warming up and starting up equipment - 3-10 MJ;

For planned losses - 2-10 MJ.

Enterprise No. 2. Fuel and energy resources costs:

For the main technological process - 2-10 MJ;

For warming up and starting up equipment - 5-10 MJ;

For planned losses - 4-10 5 MJ.

Exercise.

1. Determine individual technological standards.

2. Find the group technological norm.

3. Draw conclusions regarding the energy efficiency of technological processes.

Solution.

In accordance with the definitions of individual, group and technological standards:

(T*)! = (5-10 6 MJ+3-10 5 MJ+210 9 MJ) /10,000 units. products = 0.55-10 3 MJ/unit. products;

(T™^ = (2-10 7 MJ+5-10 5 MJ+4-10 5 MJ) /20,000 units of production = 1.04-10 3 MJ/unit of production;

T = (0.55 4/3+1.04 -2/3) 10 3 MJ/unit. products = 0.82x -10 3 MJ/unit.

"Zgi 1SW.

1. The technological process at enterprise No. 1 is organized with lower fuel and energy resources costs for the production of products of the same name than at enterprise No. 2.

2. The group technological norm is closer to the individual technological norm at enterprise No. 2, since it produces more products than enterprise No. 1.

Example 2.

Characteristics of an industrial enterprise:

The enterprise has two workshops. In total, the enterprise consumes 75 MWh for lighting.

Workshop characteristics:

Workshop No. 1: lighting area - 1000 m.

Workshop No. 2: lighting area - 4000 m.

Exercise.

Determine energy costs for lighting for each of the workshops to establish a general production norm for fuel and energy resources consumption.

Solution.

E 1 = 75 MWh (1000 m 2 /5000 m 2) = 15 MWh;

E 2 = 75 MWh (4000 m 2 / 5000 m e) = 60 MWh.

If a shop produces products of the same type (of the same quality), then in this case the general production shop consumption rate of fuel and energy resources is determined by the ratio: C n = (E t + E v)/V,

where E t is the energy consumption for the technological process; E in - energy consumption for auxiliary needs; V - volume of product production in the workshop.

Example 3.

Characteristics of industrial enterprises:

Enterprise No. 1.

Individual technological norm - 0.55-10 3 MJ/unit; products.

Costs of fuel and energy resources for auxiliary production needs are 1-10 e MJ.

The number of units of production is 10,000.

Enterprise No. 2.

Individual technological standard - 1.04"10 MJ/unit of product.

FER costs for auxiliary production needs are 0.5-10 G MJ.

The number of units of production is 20,000.

Exercise.

1. Determine individual general production standards.

2. Find the group general production norm.

3. Draw a conclusion regarding the energy efficiency of production organization in enterprises.

Solution.

In accordance with the definitions of individual, group and general production standards:

(3rd) 1 = (0.55-10 8 MJ/unit of production + 110 6 MJ/10,000 units of production = (0.55+ 0.1) -10 3 MJ/unit of production - 0.65 -10 3 MJ/unit of production;

(Z and) 2 = (1.04-10 3 MJ/unit of product + O.5-10 7 MJ/20,000 units of product = (1.04+ 0.25)-10 3 MJ/unit of product = 1.29-10 3 MJ/product unit;

Z g = (0.65-1/3 +1.29-2/3) 10 3 MJ/unit. products = 1.08 * 10 3 MJ/unit. products.

1. At enterprise No. 1, a smaller amount of fuel and energy resources is spent on the production of a unit of the same product than at enterprise No. 2. Consequently, the production process at enterprise No. 1 is organized more efficiently.

2. The group general production norm is closer to the individual general production norm at enterprise No. 2, since it produces more products than enterprise No. 1.

Auxiliary criteria for energy efficiency. To carry out an energy saving regime and analyze energy use, along with the consumption rates of fuel and energy resources, the following indicators must be used to characterize the efficiency of the use of fuel and energy resources in an enterprise or industry: specific energy intensity of products (works, services), the provision of an increase in the need for fuel and energy resources due to their savings, energy productivity.

Specific energy intensity of products is the ratio of all energy consumed for production needs per year to the annual volume of production:

E = P ter /V,

where Pter is all the energy consumed for production needs per year (in terms of standard fuel); V - annual production volume (in natural, conditional or value terms).

Securing the increase in demand for fuel and energy resources due to their savings - the ratio of savings in fuel and energy resources to the increase in demand for fuel and energy resources:

DP E = (E/DP)100%;

E = E n + E VER;

En=(N b -H o)/V

where E is fuel and energy resources savings; DP - increase in demand for fuel and energy resources; E n - savings due to a reduction in consumption rates in relation to the base year (the average statistical year preceding the reporting year is taken as the base year); Ever - savings due to increased use of renewable energy resources in relation to the reporting year; N b, N o - norms of energy resource consumption in the base and reporting years; V is the volume of production in the reporting year.

Energy productivity - output per unit cost of fuel and energy resources:

EPR = V/3 TER,

where V - volume of production (in value terms); 3 ter - volume of fuel and energy resources costs (in value terms).

GOST R 51379-99

UDC 621.004:002:006.354

Group E01

STATE STANDARD OF THE RUSSIAN FEDERATION

Energy saving

ENERGY PASSPORT FOR INDUSTRIAL CONSUMER OF FUEL AND ENERGY RESOURCES

Basic provisions. Standard forms

Energy conservation. Power engineering certificate of fuel-energy resources

for industrial consumer. Basic rules. Standard forms

OKSTU 3103, 3104, 3403

Entry into force 2000-09-01

Preface

1 DEVELOPED by a temporary creative team at the Russian Energy Efficiency Agency

INTRODUCED by the Scientific and Technical Directorate of the State Standard of Russia

2 ADOPTED AND ENTERED INTO EFFECT by Resolution of the State Standard of Russia dated November 30, 1999 No. 471-st

3 INTRODUCED FOR THE FIRST TIME

Introduction

1 area of use

The standard is used by state energy supervision authorities when conducting energy surveys of energy consumers and assessing the efficiency of using fuel and energy resources.

GOST 8.417-81 State system for ensuring the uniformity of measurements. Units of physical quantities

GOST 27322-87 Energy balance of an industrial enterprise. Basic provisions

GOST R 51387-99 Energy saving. Regulatory and methodological support. Basic provisions.

3 Definitions

The following terms with corresponding definitions are used in this standard:

energy saving: Implementation of legal, organizational, scientific, production, technical and economic measures aimed at the efficient use of energy resources.

consumer of fuel and energy resources: An individual or legal entity that uses fuel, electrical energy (power) and (or) thermal energy (power).

4 General provisions

4.2 The development and maintenance of the passport is ensured by the consumer of fuel and energy resources.

4.3 Energy surveys of the efficiency of using fuel and energy resources are carried out by:

Consumers of TER (own internal surveys);

Energy audit organizations working under contract;

4.4 The objects of the energy survey are:

Production equipment, machines, installations, units that consume fuel and energy resources, convert energy from one type to another for the production of products, performance of work (services);

Technological processes associated with the transformation and consumption of fuel, energy and energy carriers;

Processes associated with the consumption of fuel and energy resources for auxiliary needs (lighting, heating, ventilation).

4.5 Information in the energy passport is updated in accordance with current regulatory legal acts in the field of monitoring the efficiency of use of fuel and energy resources.

4.6 Responsibility for the accuracy of the energy passport data lies with the persons who conducted the energy surveys and the consumer’s administrative management TER.

4.8 The energy passport stamp is determined by the management of the fuel and energy resources consumer in the prescribed manner.

5 Structure and content of the energy passport

industrial consumer of fuel and energy resources

5.1 The energy passport consists of the following sections.

5.1.1 general information about the consumer of fuel and energy resources;

5.1.2 information on fuel and energy resources consumption:

Total energy consumption,

Electricity consumption

Thermal energy consumption,

Consumption of boiler and furnace fuel,

Motor fuel consumption;

5.1.3 information on the efficiency of using fuel and energy resources;

5.1.4 measures to save energy and increase the efficiency of using fuel and energy resources;

5.1.5 conclusions.

The final section of the energy passport of a consumer of fuel and energy resources must include:

A list of facts of unproductive expenses of fuel and energy resources recorded during the consumer survey, indicating their value in value and physical terms;

Quantitative assessment of reducing the level of unproductive costs of fuel and energy resources through the introduction of energy-saving measures:

Cost-free and low-cost;

Average cost;

High-cost.

5.2 Standard forms of an energy passport for an industrial consumer of fuel and energy resources include:

5.2.1 title page of the energy passport of the consumer of fuel and energy resources (Appendix A);

5.2.6 information on the consumption of boiler, furnace and motor fuel, on the use of secondary energy resources, alternative fuels, renewable energy sources, given in forms (Appendices RF) containing information on the characteristics of fuel-using units, on the use of motor fuels by vehicles, etc. ., as well as balances of consumption of boiler, furnace and motor fuels;