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The world’s energy consumption today and in the future. |
What is the world’s energy consumption today? According to World Energy Outlook (WEO), 166,483 TWh (Terawatt hours) are spent worldwide. In comparison, Denmark’s energy consumption in 2018 totalled 208 TWh, corresponding to 0.12% of the global energy consumption. One TWh corresponds to the annual electricity consumptio... |
Where does the energy come from? We get 81% of our energy from fossil fuels (134,850 TWh). Renewable energy which consists of hydro (26% of RE), modern bioenergy (53% of RE) and other (solar, wind, etc) (21% of RE) accounts for 10% (16,177 TWh). We get 4% (7,211 TWh) from biomass and 5% (8,246 TWh) from nuclear power. |
Where in the world is the energy consumed? Asia and Oceania account for 42% (69,652 TWh), Europe and the Caspian region for 20% (34,122 TWh), North America for 19% (31,599 TWh), Africa and the Middle East for 11% (18,620 TWh) and Central and South America for 5% (7,676 TWh) of the total energy consumption. Besides the ... |
What will the world’s energy consumption be in 2040? The WEO has made three scenarios for the energy system of the future. The following is a short presentation of the development in energy consumption for two of the scenarios. One scenario (A) is based on the policy that has already been defined and is expected to be ... |
How large will the world’s total energy consumption be in 2040? In scenario A, the world’s energy consumption increases by 24% compared to today. In scenario P, the world’s energy consumption falls by 7% compared to today. The difference in the energy consumption in the two scenarios corresponds to almost one third of ... |
Which energy sources will the world’s energy consumption come from in 2040? In scenario A, the consumption of fossil fuels will increase by 13% (18,027 TWh) compared to today and will account for 74% of the total energy consumption. Renewable energy will increase by 125% (20,190 TWh) and account for 33% of the total en... |
In scenario P, the consumption of fossil fuels will fall by 34% (45,613 TWh) and account for 58% of the total energy consumption. Renewable energy will increase by 215% (34,774 TWh) and account for 33% of the total energy consumption. Nuclear power will increase by 62% (5,117 TWh) and account for 9% of the total energy... |
How does the energy consumption change for the world’s regions in 2040? In scenario A, the energy consumption will increase in Asia and Oceania by 37% (25,807 TWh), Africa and the Middle East by 58% (10,734 TWh) and Central and South America by 38% (2,942 TWh). The energy consumption will fall in Europe, including the ... |
In scenario P, the energy consumption will increase in Asia and Oceania by 2% (1,116 TWh), Africa and the Middle East by 11% (1,244 TWh) and Central and South America by 6% (488 TWh). The energy consumption will fall in Europe, including the Caspian region, by 22% (7,641 TWh) and the USA by 23% (7,327 TWh). The energy ... |
20. |
Climate. |
Carbon footprint of ATP’s portfolios. |
Activities. |
As part of our work with the TCFD’s recommendations, we will also be publishing CO2 footprint calculations for 2019 using various methods. ATP reports its CO2 footprint from three different portfolios: Nordic equities, international equities and corporate bonds. We have chosen to state the CO2 footprint of the Nordic e... |
ATP’s viewpoint is that CO2 footprint at portfolio level as a metric to understanding the investors’ climate-related financial risks is of limited use. ATP believes that companies must work to limit their CO2 emissions. However, if investors follow the same logic and sell off companies with high CO2 emissions, it will ... |
Besides, the data quality offers significant challenges since many data are not based on reported emissions and are instead estimated by the data providers. At the same time, the data are based on historical emissions and can therefore not be used to understand the companies’ current standpoint and future strategy. |
Another challenge is that the companies’ emissions are not distributed among their shareholders and creditors, meaning that the companies’ CO2 footprint is often double counted at portfolio level. ATP has chosen to use Enterprise Value, since this to a higher degree takes this double counting into account. |
The above challenges have been described in more detail in ‘Report on Responsibility 2017’ and ‘Report on Responsibility 2018’. |
For the Nordic equities, which primarily consist of Danish companies, the CO2 footprint shows a drop according to all three calculation methods compared with 2018. This is mainly due to the fact that ATP has sold shares in Mærsk and thus reduced its ownership interest. Due to its business model, Mærsk is one of the mos... |
For the international equity portfolios, the carbon footprint and carbon intensity have dropped compared with 2018, while there has been a small increase in WACI. Since the international equity portfolio consists of over 400 companies and has a higher replacement rate of equities, it is difficult to identify a sale of ... |
A comparison of the portfolio at the end of 2018 and the portfolio at the end of 2019 shows that the divested equity had a higher carbon footprint and carbon intensity on our international equity portfolio than the new equity we have invested in. On the other hand, WACI has increased. This is due to the fact that ATP h... |
Activities. |
Carbon Footprint (tonnes CO2e/DKKm) |
Carbon Intensity (tonnes CO2e/DKKm) |
WACI (tonnes CO2e/DKKm) 2019. |
Nordic equities 14.64 36.74 25.99. |
Scope 1 13.45 33.74 23.00. |
Scope 2 1.20 3.00 2.99. |
International equities 13.61 25.76 37.71. |
Scope 1 11.34 21.45 30.99. |
Scope 2 2.28 4.31 6.71. |
Corporate bonds 12.69 17.83 25.95. |
Scope 1 9.48 13.33 19.31. |
Scope 2 3.20 4.50 6.64 2018. |
Nordic equities 20.79 39.68 29.07. |
Scope 1 19.43 37.07 25.94. |
Scope 2 1.37 2.61 3.13. |
International equities 20.08 27.35 36.49. |
Scope 1 16.95 23.09 30.89. |
Scope 2 3.13 4.26 5.60. |
Corporate bonds 10.39 14.01 22.39. |
Scope 1 7.20 9.71 16.44. |
Scope 2 3.19 4.30 5.95 |
22. |
Climate. |
Project N° Project Name Location Sector* Sub-sector. |
CAB-eligible component cost (% of total project cost) |
Allocation from CAB Portfolio in 2019 H1 *(Eur m) |
Eur CAB due 11/13/26 20060086 CHINA CLIMATE CHANGE FRAMEWORK LOAN China RE - EE Various RE & EE 100% 38.00 20060268 INGA POWER REHABILITATION A DRC (Congo) RE Hydropower Rehabilitation 33% 0.10 20070087 BUTENDIEK OFFSHORE WIND FARM Germany RE Wind Offshore 100% 39.00 20070089 WIND FARM GULF OF EL ZAYT Egypt RE Wind Ons... |
Projects financed by ATP’s green bonds. |
ATP wants full transparency when it comes to the projects we help finance through our green bonds. Out of the green bonds that ATP has invested in, only the European Investment Bank (EIB) links the individual projects with an ISIN code, which can be used to identify a security. The list below shows the projects that AT... |
23. |
Climate. |
Project N° Project Name Location Sector* Sub-sector. |
CAB-eligible component cost (% of total project cost) |
Allocation from CAB Portfolio in 2019 H1 *(Eur m) 20120498 BUCHAREST S1 THERMAL REHABILITATION II B Romania EE Buildings 100% 23.00 20120511 TAURON ENERGY INFRASTRUCTURE Poland RE Hydropower 28% 20.00 20120677 MEGALIM SOLAR THERMAL PLANT Israel RE Solar 100% 34.64 20130196 IPTO TRANSMISSION I - A Greece RE Transmission... |
EUR CAB due 15/11/2032 20120174 ONEE - PROJET EOLIEN Morocco RE Wind Onshore 100% 34 20130037 LAS PAILAS GEOTHERMAL PROJECT Costa Rica RE Geothermal 100% 1.7 20130366 JIJI MULEMBWE HYDROPOWER BURUNDI Burundi RE Hydropower 78% 15.6 20140699 SAINSHAND ONSHORE WIND PROJECT Mongolia RE Wind Onshore 100% 3.5 20150240 WINDFL... |
CHP, biomass, Energy from Waste 100% 40 20150465 RENEWABLE ENERGY RISK SHARING FRANCE France RE & EE Various RE & EE 100% 15 20150840 TRIPLA NEAR-ZERO ENERGY BUILDING PROJECT Finland EE Buildings 85% 6.1 20150871 NORTHER OFFSHORE WIND Belgium RE Wind Offshore 100% 13.6 |
24. |
Climate. |
Project N° Project Name Location Sector* Sub-sector. |
CAB-eligible component cost (% of total project cost) |
Allocation from CAB Portfolio in 2019 H1 *(Eur m) 20160241 EGEA NETWORKS Italy EE District heating, CHP 59% 17.7 20160289 MEXICO FIRST RENEWABLE ENERGY AUCTIONS Mexico RE Solar PV 100% 46.5 20160345 TERNA RETI ELETTRICHE VII Italy RE Transmission 12% 3.8 20160642 DEGEWO WOHNUNGSBAU BERLIN Germany EE Buildings 32% 16 20... |
EUR CAB due 11/13/37 20070230 ETED Power Transmission Dominican Republic RE RE Transmission infrastructures 39% 3.87 20090484 Lake Turkana Wind Power B Kenya RE Wind Onshore 100% 6.35 20100203 PNESER – Renewable Energy Transmission Nicaragua RE RE Transmission infrastructures 94% 9.62 20100457 Transmission Line Kafue-L... |
25. |
Climate. |
Project N° Project Name Location Sector* Sub-sector. |
CAB-eligible component cost (% of total project cost) |
Allocation from CAB Portfolio in 2019 H1 *(Eur m) 20130640 Nordergruende Offshore Wind Germany RE Wind Offshore 100% 41.15 20140017 ENERGY EFFICIENCY ITALY FL Italy RE & EE Buildings 100% 45.5 20140251 Nobelwind Offshore Wind Belgium RE Wind Offshore 100% 33.06 20140445 SWM SANDBANK OFFSHORE WINDPARK Germany RE Wind Of... |
CHP from renewable by-products 88% 35.2 20140600 KILPILAHTI CHP PLANT Finland EE CHP 100% 15 20140628 RTE - ELECTRICITY NETWORK PROGRAMME 2015-2019 France RE RE Transmission infrastructures 3% 0.34 20140699 SAINSHAND ONSHORE WIND PROJECT Mongolia RE Wind Offshore 100% 11.45 20150174 Komercni Banka Energy Efficiency FL ... |
Various RE& Distribution of electricity 45% 25.65 20150840 TRIPLA NEAR-ZERO ENERGY BUILDING PROJECT Finland EE Buildings 85% 4.4 20150871 NORTHER OFFSHORE WIND Belgium RE Wind Offshore 100% 92.51 20160151 WATER SUPPLY PROVINCE NORTH HOLLAND III Netherlands RE Energy from waste 3% 0.5 20160288 VVO NEAR ZERO ENERGY BUILD... |
26. |
Climate. |
Project N° Project Name Location Sector* Sub-sector. |
CAB-eligible component cost (% of total project cost) |
Allocation from CAB Portfolio in 2019 H1 *(Eur m) 20170504 OWENINNY ONSHORE WIND FARM PHASE 1 Ireland RE Wind Onshore 100% 1.4 20170647 CURTIS BIOMASS POWER GENERATION PLANT Spain RE Biomass 100% 7.6 20170897 NORTHWESTER 2 Belgium RE Wind Offshore 100% 3.9. |
EUR CAB due 11/15/47 20100575 NORTH YORKSHIRE AND YORK WASTE PPP United Kingdom RE Energy from waste 50% 5.3 20100641 BPER ENERGIA RINNOVABILE FL Italy RE Various RE 100% 17.5 20120546 BUCHAREST S4 THERMAL REHABILITATION II Romania EE Buildings 100% 19.5 20120677 MEGALIM SOLAR THERMAL PLANT Israel RE Solar CSP 100% 18.... |
27. |
Climate. |
Project N° Project Name Location Sector* Sub-sector. |
CAB-eligible component cost (% of total project cost) |
Allocation from CAB Portfolio in 2019 H1 *(Eur m) 20160242 VALECO - RENEWABLE ENERGY PROJECTS PORTFOLIO France RE Solar PV, Wind Onshore 100% 40.5 20160318 BELGIUM COMMUNAUTE FRANCAISE RESEARCH EDUCATIO Belgium EE Buildings 28% 36.4 20160448 HOUSING CORPORATION TRUDO Netherlands EE Buildings 66% 26.4 20160764 BUCHAREST... |
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