Energy balance sheet; supply and consumption, sector

Energy balance sheet; supply and consumption, sector

Energy commodities Sectors Periods From consumption Total energy consumption (PJ) From consumption Own use (PJ) From consumption Distribution losses (PJ) From consumption Final energy consumption (PJ) From consumption Non-energy use (PJ)
Total energy commodities Total energy sector and final users 2022** 2,715.2 188.7 26.2 1,635.3 431.4
Total energy commodities Total energy sector 2022** 536.9 183.8 26.2
Total energy commodities Extraction of crude petroleum and gas 2022** 24.3 24.3
Total energy commodities Coke-oven plants 2022** 14.5 8.5
Total energy commodities Blast furnaces 2022** 57.3 9.4
Total energy commodities Oil refineries 2022** 172.6 129.4
Total energy commodities Energy companies 2022** 268.3 12.2 26.2
Total energy commodities Total final users of energy 2022** 2,178.3 5.0 1,635.3 431.4
Total energy commodities Industry (no energy sector) 2022** 950.3 0.8 505.1 427.2
Total energy commodities Mining and quarrying, incl services 2022** 4.9 4.9
Total energy commodities 08 Mining and quarrying (no oil and gas) 2022** 4.7 4.7
Total energy commodities 099 Services for other mining 2022** 0.2 0.2
Total energy commodities 10-12 Manufacture of food and beverages 2022** 82.3 0.1 78.0 0.3
Total energy commodities 10 Manufacture of food products 2022** 76.5 0.1 72.5 0.3
Total energy commodities 101 Slaughtering, processing of meat 2022** 5.3 5.3
Total energy commodities 102 Processing of fish 2022** . . . . .
Total energy commodities 103 Processing of vegetables and fruit 2022** 11.0 0.0 10.8
Total energy commodities 104 Manufacture of edible oils and fats 2022** 6.9 0.0 6.1
Total energy commodities 105 Manufacture of dairy products 2022** 15.1 0.0 14.7
Total energy commodities 106 Grain milling and starch products 2022** 11.0 0.1 9.6
Total energy commodities 107 Manufacture of bakery products 2022** . . . . .
Total energy commodities 108 Manufacture of other food 2022** . . . . .
Total energy commodities 109 Manufacture of animal foods 2022** 6.9 0.0 6.7
Total energy commodities 11 Manufacture of beverages 2022** 5.1 0.0 4.9
Total energy commodities 12 Manufacture of tobacco products 2022** 0.7 0.7
Total energy commodities 13-15 Man. of textile-, leatherproducts 2022** 3.7 3.7
Total energy commodities 13 Manufacture of textiles 2022** 3.4 3.4
Total energy commodities 14 Manufacture of wearing apparel 2022** 0.0 0.0
Total energy commodities 15 Manufacture of leather and footwear 2022** 0.3 0.3
Total energy commodities 16 Manufacture of wood products 2022** 2.7 0.1 2.4
Total energy commodities 17-18 Manufacture of paper and printing 2022** 22.3 0.1 20.7 0.5
Total energy commodities 17 Manufacture of paper 2022** 20.6 0.1 19.0 0.5
Total energy commodities 18 Printing and reproduction 2022** 1.7 1.7
Total energy commodities 20-21 Chemistry and pharmaceuticals 2022** 696.5 0.5 269.7 414.7
Total energy commodities 20 Manufacture of chemicals 2022** 692.1 0.5 265.3 414.7
Total energy commodities 201 Manufacture of basic chemicals 2022** 677.1 0.5 252.8 412.5
Total energy commodities 2011 Manufacture of industrial gases 2022** 37.2 0.1 17.5 18.6
Total energy commodities 2012 Manufacture of dyes and pigments 2022** 2.5 1.8 0.7
Total energy commodities 2013 Manuf. other inorganic basic chemic 2022** 40.7 0.1 22.1 15.7
Total energy commodities 2014 Manufacture organic basic chemicals 2022** 495.7 0.3 161.2 328.0
Total energy commodities 2015 Manufacture of fertilisers 2022** 73.5 0.0 23.5 49.3
Total energy commodities Plastics and synthetic rubber industry 2022** 27.5 0.0 26.7 0.3
Total energy commodities 202-206 Other chemical industry 2022** 15.0 12.6 2.2
Total energy commodities 21 Manufacture of pharmaceuticals 2022** 4.4 0.0 4.4
Total energy commodities 22 Manufacture rubber, plastic products 2022** 9.7 9.7
Total energy commodities 23 Manufacture of building materials 2022** 24.1 0.0 24.1
Total energy commodities 231 Manufacture of glass 2022** 8.4 8.4
Total energy commodities Refractory, other ceramic industry 2022** 0.3 0.3
Total energy commodities 233 Manufacture clay building materials 2022** 7.8 7.7
Total energy commodities 235 Manufacture of cement, lime, plaster 2022** . . . . .
Total energy commodities 236 Manufacture concrete etc. products 2022** 3.4 0.0 3.4
Total energy commodities Stone dressing, other mineral products 2022** . . . . .
Total energy commodities Total basic metals, no blast furnaces 2022** 38.3 0.0 37.9 0.0
Total energy commodities Iron and steel industry 2022** 31.8 0.0 31.4 0.0
Total energy commodities Non-ferrous metal industry 2022** 6.5 6.5
Total energy commodities 25-28 Metal products and machine indus.. 2022** 23.8 19.0 4.8
Total energy commodities 25 Manufacture of metal products 2022** 10.7 10.7
Total energy commodities 26 Manufacture of electronic products 2022** 1.8 1.8
Total energy commodities 27 Manufacture of electric equipment 2022** 7.0 2.2 4.8
Total energy commodities 28 Manufacture of machinery n.e.c. 2022** 4.3 4.3
Total energy commodities 29-30 Transport equipment 2022** 3.9 3.9
Total energy commodities 29 Manufacture of cars and trailers 2022** 2.3 2.3
Total energy commodities 30 Manufacture of other transport 2022** 1.6 1.6
Total energy commodities 31 Manufacture of furniture 2022** 1.4 1.4
Total energy commodities 32 Manufacture of other products 2022** 1.1 1.1
Total energy commodities Manufacturing unknown 2022** 2.9 0.8 2.1
Total energy commodities F Construction 2022** 32.7 27.9 4.8
Total energy commodities Total domestic transport 2022** 387.6 384.9 2.7
Total energy commodities Domestic aviation 2022** 0.5 0.4 0.0
Total energy commodities Road transport 2022** 369.7 367.1 2.6
Total energy commodities Rail transport 2022** 7.0 7.0 0.0
Total energy commodities Pipeline transport 2022**
Total energy commodities Domestic navigation 2022** 10.5 10.4 0.1
Total energy commodities Transport non-specified 2022**
Total energy commodities Other sectors, total 2022** 840.4 4.2 745.2 1.5
Total energy commodities Services, waste, water and repair 2022** 345.9 3.5 259.7 1.5
Total energy commodities 33 Repair and installation of machinery 2022** 1.2 1.2
Total energy commodities E Water supply and waste management 2022** 65.7 3.5 14.3
Total energy commodities 36 Water collection and distribution 2022** 2.6 2.6
Total energy commodities 37 Sewerage 2022** 4.8 0.0 4.0
Total energy commodities 38 Waste collection and treatment 2022** 57.9 3.5 7.4
Total energy commodities 39 Remediation, other waste management 2022** 0.2 0.0 0.1
Total energy commodities Water supply, waste management unknown 2022** 0.2 0.2
Total energy commodities G-S, U Services 2022** 279.0 0.0 244.2 1.5
Total energy commodities G Wholesale and retail trade 2022** 43.5 0.0 .
Total energy commodities H Transportation and storage 2022** 60.3 .
Total energy commodities I Accommodation and food serving 2022** . . .
Total energy commodities J Information and communication 2022** . . .
Total energy commodities K Financial institutions 2022** . . .
Total energy commodities L Renting, buying, selling real estate 2022** . . .
Total energy commodities M Other specialised business services 2022** . . .
Total energy commodities N Renting and other business support 2022** . . .
Total energy commodities O Public administration and services 2022** . . .
Total energy commodities P Education 2022** . . .
Total energy commodities Q Health and social work activities 2022** . . .
Total energy commodities R Culture, sports and recreation 2022** . . .
Total energy commodities S Other service activities 2022** . . .
Total energy commodities U Extraterritorial organisations 2022** . . .
Total energy commodities Services unknown 2022** . . . 1.5
Total energy commodities Dwellings 2022** 358.6 358.6
Source: CBS.
Explanation of symbols

Dataset is not available.

This table contains figures on the supply and consumption of energy broken down by sector and by energy commodity. The energy supply is equal to the indigenous production of energy plus the receipts minus the deliveries of energy plus the stock changes. Consumption of energy is equal to the sum of own use, distribution losses, final energy consumption, non-energy use and the total net energy transformation. For each sector, the supply of energy is equal to the consumption of energy.

For some energy commodities, the total of the observed domestic deliveries is not exactly equal to the sum of the observed domestic receipts. For these energy commodities, a statistical difference arises that can not be attributed to a sector.

The breakdown into sectors follows mainly the classification as is customary in international energy statistics. This classification is based on functions of various sectors in the energy system and for several break downs on the international Standard Industrial Classification (SIC). There are two main sectors: the energy sector (companies with main activity indigenous production or transformation of energy) and energy consumers (other companies, vehicles and dwellings). In addition to a breakdown by sector, there is also a breakdown by energy commodity, such as coal, various petroleum products, natural gas, renewable energy, electricity and heat.

The definitions used in this table are exactly in line with the definitions in the Energy Balance table; supply, transformation and consumption. That table does not contain a breakdown by sector (excluding final energy consumption), but it does provide information about imports, exports and bunkering and also provides more detail about the energy commodities.

Data available:
From: 1990.

Status of the figures:
Figures up to and including 2021 are definite. Figures for 2022 are revised provisional.

Changes as of April 26th of 2024
The energy balance has been revised for 2015 and later on a limited number of points. The most important is the following:
1. For solid biomass and municipal waste, the most recent data have been included. Furthermore data were affected by integration with figures for a new, yet to be published StatLine table on the supply of solid biomass. As a result, there are some changes in receipts of energy, deliveries of energy and indigenous production of biomass of a maximum of a few PJ.
2. In the case of natural gas, an improvement has been made in the processing of data for stored LNG, which causes a shift between stock changes, receipts of energy and deliveries of energy of a maximum of a few PJ.

Changes as of March 25th of 2024:
The energy balance has been revised and restructured. This concerns mainly the following:
1. Different way of dealing with biofuels that have been mixed with fossil fuels
2. A breakdown of the natural gas balance of agriculture into greenhouse horticulture and other agriculture.
3. Final consumption of electricity in services

1. Blended biofuels
Previously, biofuels mixed with fossil fuels were counted as petroleum crude and products. In the new energy balance, blended biofuels count for renewable energy and petroleum crude and products and the underlying products (such as gasoline, diesel and kerosene) only count the fossil part of mixtures of fossil and biogenic fuels. To make this clear, the names of the energy commodities have been changed. The consequence of this adjustment is that part of the energy has been moved from petroleum to renewable. The energy balance remains the same for total energy commodities. The aim of this adjustment is to make the increasing role of blended biofuels in the Energy Balance visible and to better align with the Energy Balances published by Eurostat and the International Energy Agency. Within renewable energy, biomass, liquid biomass is now a separate energy commodity. This concerns both pure and blended biofuels.

2. Greenhouse horticulture separately
The energy consumption of agriculture in the Netherlands largely takes place in greenhouse horticulture. There is therefore a lot of attention for this sector and the need for separate data on energy consumption in greenhouse horticulture. To meet this need, the agriculture sector has been divided into two subsectors: Greenhouse horticulture and other agriculture. For the time being, we only publish separate natural gas figures for greenhouse horticulture.

3. Higher final consumption of electricity in services in 2021 and 2022.
The way in which electric road transport is treated has improved, resulting in an increase in the supply and final consumption of electricity in services by more than 2 PJ in 2021 and 2022. This also works through the supply of electricity in sector H (Transport and storage).

Changes as of November 14th 2023:
Figures for 2021 and 2022 haven been adjusted.
Figures for the Energy Balance for 2015 to 2020 have been revised regarding the following items:
- For 2109 and 2020 final consumption of heat in agriculture is a few PJ lower and for services a few PJ higher. This is the result of improved interpretation of available data in supply of heat to agriculture.
- During the production of geothermal heat by agriculture natural gas is produced as by-product. Now this is included in the energy balance. The amount increased from 0,2 PJ in 2015 to 0,7 PJ in 2020.
- There are some improvements in the data for heat in industry with a magnitude of about 1 PJ or smaller.
- There some other improvements, also about 1 PJ or smaller.

Changes as of June 15th 2023:
Revised provisional figures of 2022 have been added.

Changes as of December 15th 2022:
Figures for 1990 up to and including 2019 have been revised. The revision mainly concerns the consumption of gas- and diesel oil and energy commodities higher in the classification (total petroleum products, total crude and petroleum produtcs and total energy commodities).
The revision is twofold:
- New data for the consumption of diesel oil in mobile machine have been incorporated. Consequently, the final energy consumption of gas- and diesel oil in construction, services and agriculture increases. The biggest change is in construction (+10 PJ from 1990-2015, decreasing to 1 PJ in 2019. In agriculture the change is about 0.5-1.5 PJ from 2010 onwards and for services the change is between 0 and 3 PJ for the whole period.
- The method for dealing with the statistical difference has been adapted. Earlier from 2013 onwards a difference of about 3 percent was assumed, matching old data (up to and including 2012) on final consumption of diesel for road transport based on the dedicated tax specifically for road that existed until 2012. In the new method the statistical difference is eliminated from 2015 onwards. Final consumption of road transport is calculated as the remainder of total supply to the market of diesel minus deliveries to users other than road transport.
The first and second item affect both final consumption of road transport that decreases consequently about 5 percent from 2015 onwards. Before the adaption of the tax system for gas- and diesel oil in 2013 the statistical difference was positive (more supply than consumption). With the new data for mobile machines total consumption has been increased and the statistical difference has been reduced and is even negative for a few years.

Changes as of 1 March 2022:
Figures for 1990 up to and including 2020 have been revised. The most important change is a different way of presenting own use of electricity of power-generating installations. Previously, this was regarded as electricity and CHP transformation input. From now on, this is seen as own use, as is customary in international energy statistics. As a result, the input and net energy transformation decrease and own use increases, on average about 15 PJ per year. Final consumers also have power generating installations. That's why final consumers now also have own use, previously this was not so. In the previous revision of 2021, the new sector blast furnaces was introduced for the years 2015 up to and including 2020, which describes the transformation of coke oven coke and coking coal into blast furnace gas that takes place in the production of pig iron from iron ore. This activity was previously part of the steel industry. With this revision, the change has been put back to 1990.

When will new figures be published?
Revised provisional figures: June/July of the following year.
Definite figures: December of the second following year.

Description topics

From consumption
Calculated from consumption energy consumption is net energy transformation plus own use plus distribution losses plus final energy consumption plus non-energy use.
Total energy consumption
The amount of energy used by companies, households and transport in the Netherlands. Energy can be used
- for transformation into other energy commodities, this is input minus the energy produced.
- as final consumption.
Own use
The consumption of energy in installations for the production or transformation of energy and the consumption of energy by companies in the energy sector. This only concerns the necessary auxiliary energy, not the energy transformation input itself. The energy sector includes the extraction of crude petroleum and gas, coke-oven plants, blast furnaces, oil refineries and energy companies (sector D of the Standard Business Classification (SBI)). Examples of this own use are the combustion of fuels in oil refinery steam boilers to produce steam that brings the refining process to the desired temperature, the consumption of electricity for pumping natural gas from the ground, the consumption of electricity for transporting hard coal in a coal plant and the consumption of electricity by a waste incinerator for flue gas cleaning.
Distribution losses
Distribution losses of electricity and heat.

For electricity includes losses in energy distribution, transmission and transport.
Final energy consumption
Final consumption of energy. No useful energy commodity remains.

Examples are the combustion of natural gas in boilers, household electricity consumption and the consumption of motor fuels for transport.
Non-energy use
Use of an energy commodity for a product that is not energy. The energy used for the production process remains in the product. E.g. use of oil for the production of plastics, or natural gas for fertilisers.

Natural gas, non-energy use

To cope with differences in demand for natural gas in summer and winter there is a need for storage of natural gas.

An empty gas field could be adapted to be used as underground storage for natural gas (UGS). For this purpose a certain pressure is needed to facilitate quick extraction of stored natural gas.

The natural gas that has been injected in the empty field to raise the pressure is called cushion gas. This cushion gas is not part of natural gas as stocks, because it stays in the storage during the entire life time of the UGS.

The amount of natural gas injected in the field to be used as cushion gas is reflected in the energy balance sheet as part of non-energy use of natural gas.