Here are the answers to the quiz questions:
1. Gross National Product
2. Gross Domestic Product
3. Expenditure approach and income approach
4. C (Consumption), I (Investment), G (Government Spending), X-M (Net Exports)
5. The formula for the GDP deflator is: GDP Deflator = Nominal GDP / Real GDP
Here are the answers to the quiz questions:
1. Gross National Product
2. Gross Domestic Product
3. Expenditure approach and income approach
4. C (Consumption), I (Investment), G (Government Spending), X-M (Net Exports)
5. The formula for the GDP deflator is: GDP Deflator = Nominal GDP / Real GDP
Riittääkö sähköä Suomessa? Jukka Ruusunen, Fingridin toimitusjohtaja 25.11.2014.Fingrid Oyj
Käyttövarmuuspäivässä 25.11.2014 käsiteltiin erilaisia aiheita liittyen sähkön käyttövarmuuteen Suomessa. Fingridin toimitusjohtaja Jukka Ruusunen piti tapahtumassa esityksen aiheesta "Riittääkö sähköä Suomessa?".
Lisätietoa tapahtumasta yhtiön sivuilla osoitteessa:
http://www.fingrid.fi/fi/ajankohtaista/tapahtumat/seminaarit/seminaarit2014
Siirtotilanne ja verkkotyöt koettelivat käyttövarmuutta. Kehityspäällikkö Jyr...Fingrid Oyj
Fingridin kehityspäällikkö Jyrki Uusitalo kertoi Käyttövarmuuspäivässä 25.11.2014 Suomen sähkön siirtokapasiteetin ajankohtaisesta tilanteesta.
Lisätiedot tapahtumasta löydät Fingridin sivuilta osoitteesta:
http://www.fingrid.fi/fi/ajankohtaista/tapahtumat/seminaarit/seminaarit2014
Siirtokapasiteetin riittävyys ja häiriöt. Fingridin käytönsuunnittelun suunni...Fingrid Oyj
Fingridin käytönsuunnittelun suunnittelupäällikkö Timo Kaukonen kertoi Tasevastaapäivässä 20.11.2014 sähkön siirtokapasiteetin riittävyydestä ja häiriöistä vuonna 2014.
Lue lisää tapahtumista Fingridin sivuilla osoitteessa: http://www.fingrid.fi/fi/ajankohtaista/tapahtumat/tasevastaavapaivat/Tasevastaavap%c3%a4iv%c3%a4%2020.11.2014
Fingridin varatoimitusjohtaja Kari Kuusela: Kansainväliset yhteydet siirtokap...Fingrid Oyj
Kantaverkkopäivässä 3.9.2014 Fingridin varatoimitusjohtaja Kari Kuusela kertoi esityksessään kansainvälisten yhteyksien siirtokapasiteettien toimimisesta sähkön siirtokapasiteetin varmistajina.
Lisätietoa tapahtumasta yhtiön sivuilla:
http://www.fingrid.fi/fi/ajankohtaista/tapahtumat/seminaarit/seminaarit2014
- Total electricity consumption in Finland decreased by 2% in 2023 compared to 2022, totaling 80 TWh.
- Industrial electricity consumption decreased the most, falling 6% to a total of 33 TWh, with most of the decrease coming from the forest industry.
- Net imports of electricity decreased significantly by 86% (10.7 TWh) compared to 2022, totaling only 1.8 TWh in 2023 as exports increased and imports from Nordic countries decreased.
- CO2 emissions from power generation were down 38% from 2022 and have decreased 87% since 2010 due to replacement of fossil fuels by renewable sources like wind and hydro power.
- Total electricity consumption in Finland decreased by 2% in 2023 compared to 2022, totaling 80 TWh.
- Electricity consumption by industry saw the largest decrease, dropping 6% compared to 2022. The majority of the decrease came from the forest industry.
- Renewable energy sources like hydro, wind and solar power accounted for 52% of electricity production in 2023, an increase from 54% in 2022. CO2-neutral sources (renewables and nuclear) accounted for 94% of production.
District heating in Finland continues to grow more sustainable. In 2023, the share of climate neutral energy sources like renewables, heat recovery, and electric boilers increased from 61% to 69% of the total. The use of electric boilers for district heating increased significantly, producing 710 GWh of heat. CO2 emissions from district heating production decreased 24% from the previous year. District heating remains the most popular method of heating new buildings in Finland, accounting for over half of new construction heating needs.
- Total electricity consumption in Finland decreased 2% in 2023 compared to 2022, totaling 80 TWh.
- Industrial electricity consumption decreased the most, falling 6% overall led by a 1.4 TWh decrease in the forest industry.
- Renewable energy sources like hydro, wind and solar now make up over half of Finland's electricity production and 94% is from carbon-neutral sources like renewables and nuclear.
- Total electricity consumption in Finland decreased 2% in 2023 compared to 2022, totaling 80 TWh.
- Industrial electricity consumption decreased the most, falling 6% overall led by a 1.4 TWh decrease in the forest industry.
- Renewable energy sources like hydro, wind and solar now make up over half of Finland's electricity production, reducing fossil fuel reliance and CO2 emissions.
District heating networks in Finland span over 16,200 km and serve around 2.9 million people. In 2022, natural gas was used less for district heat production due to the Russia-Ukraine war, with natural gas being replaced by oil and coal. Imports of electricity, wood and other fuels from Russia also ended. The year 2022 saw lower district heat consumption and production compared to the previous year due to warmer temperatures. Carbon neutral fuels (renewables and heat recovery) accounted for 61% of district heat supply in 2022.
Riittääkö sähköä Suomessa? Jukka Ruusunen, Fingridin toimitusjohtaja 25.11.2014.Fingrid Oyj
Käyttövarmuuspäivässä 25.11.2014 käsiteltiin erilaisia aiheita liittyen sähkön käyttövarmuuteen Suomessa. Fingridin toimitusjohtaja Jukka Ruusunen piti tapahtumassa esityksen aiheesta "Riittääkö sähköä Suomessa?".
Lisätietoa tapahtumasta yhtiön sivuilla osoitteessa:
http://www.fingrid.fi/fi/ajankohtaista/tapahtumat/seminaarit/seminaarit2014
Siirtotilanne ja verkkotyöt koettelivat käyttövarmuutta. Kehityspäällikkö Jyr...Fingrid Oyj
Fingridin kehityspäällikkö Jyrki Uusitalo kertoi Käyttövarmuuspäivässä 25.11.2014 Suomen sähkön siirtokapasiteetin ajankohtaisesta tilanteesta.
Lisätiedot tapahtumasta löydät Fingridin sivuilta osoitteesta:
http://www.fingrid.fi/fi/ajankohtaista/tapahtumat/seminaarit/seminaarit2014
Siirtokapasiteetin riittävyys ja häiriöt. Fingridin käytönsuunnittelun suunni...Fingrid Oyj
Fingridin käytönsuunnittelun suunnittelupäällikkö Timo Kaukonen kertoi Tasevastaapäivässä 20.11.2014 sähkön siirtokapasiteetin riittävyydestä ja häiriöistä vuonna 2014.
Lue lisää tapahtumista Fingridin sivuilla osoitteessa: http://www.fingrid.fi/fi/ajankohtaista/tapahtumat/tasevastaavapaivat/Tasevastaavap%c3%a4iv%c3%a4%2020.11.2014
Fingridin varatoimitusjohtaja Kari Kuusela: Kansainväliset yhteydet siirtokap...Fingrid Oyj
Kantaverkkopäivässä 3.9.2014 Fingridin varatoimitusjohtaja Kari Kuusela kertoi esityksessään kansainvälisten yhteyksien siirtokapasiteettien toimimisesta sähkön siirtokapasiteetin varmistajina.
Lisätietoa tapahtumasta yhtiön sivuilla:
http://www.fingrid.fi/fi/ajankohtaista/tapahtumat/seminaarit/seminaarit2014
- Total electricity consumption in Finland decreased by 2% in 2023 compared to 2022, totaling 80 TWh.
- Industrial electricity consumption decreased the most, falling 6% to a total of 33 TWh, with most of the decrease coming from the forest industry.
- Net imports of electricity decreased significantly by 86% (10.7 TWh) compared to 2022, totaling only 1.8 TWh in 2023 as exports increased and imports from Nordic countries decreased.
- CO2 emissions from power generation were down 38% from 2022 and have decreased 87% since 2010 due to replacement of fossil fuels by renewable sources like wind and hydro power.
- Total electricity consumption in Finland decreased by 2% in 2023 compared to 2022, totaling 80 TWh.
- Electricity consumption by industry saw the largest decrease, dropping 6% compared to 2022. The majority of the decrease came from the forest industry.
- Renewable energy sources like hydro, wind and solar power accounted for 52% of electricity production in 2023, an increase from 54% in 2022. CO2-neutral sources (renewables and nuclear) accounted for 94% of production.
District heating in Finland continues to grow more sustainable. In 2023, the share of climate neutral energy sources like renewables, heat recovery, and electric boilers increased from 61% to 69% of the total. The use of electric boilers for district heating increased significantly, producing 710 GWh of heat. CO2 emissions from district heating production decreased 24% from the previous year. District heating remains the most popular method of heating new buildings in Finland, accounting for over half of new construction heating needs.
- Total electricity consumption in Finland decreased 2% in 2023 compared to 2022, totaling 80 TWh.
- Industrial electricity consumption decreased the most, falling 6% overall led by a 1.4 TWh decrease in the forest industry.
- Renewable energy sources like hydro, wind and solar now make up over half of Finland's electricity production and 94% is from carbon-neutral sources like renewables and nuclear.
- Total electricity consumption in Finland decreased 2% in 2023 compared to 2022, totaling 80 TWh.
- Industrial electricity consumption decreased the most, falling 6% overall led by a 1.4 TWh decrease in the forest industry.
- Renewable energy sources like hydro, wind and solar now make up over half of Finland's electricity production, reducing fossil fuel reliance and CO2 emissions.
District heating networks in Finland span over 16,200 km and serve around 2.9 million people. In 2022, natural gas was used less for district heat production due to the Russia-Ukraine war, with natural gas being replaced by oil and coal. Imports of electricity, wood and other fuels from Russia also ended. The year 2022 saw lower district heat consumption and production compared to the previous year due to warmer temperatures. Carbon neutral fuels (renewables and heat recovery) accounted for 61% of district heat supply in 2022.
District cooling in Finland has seen growth over the last 10 years. Connected load increased 4% in 2022 and has tripled over the last decade, while delivered energy decreased 1% from the previous year but more than doubled in 10 years. Nearly 90% of district cooling energy comes from otherwise unutilized sources, with heat pumps often producing both cooling and heating. District cooling also utilizes ambient energy from seas, lakes and rivers as well as outdoor air when temperatures allow. Major energy companies have been providing district cooling services in Finland since the late 1990s and early 2000s.
District heating in Finland saw some changes in 2022:
1) Fuels imported from Russia were replaced, renewables and heat recovery increased slightly to 61% of the supply.
2) Temperature-corrected heat consumption decreased from 2021 due to a warmer winter.
3) CO2 emissions from district heating production decreased by 7% from the previous year due to increased use of renewables and recovered heat sources.
Electricity consumption in Finland decreased 6% in 2022 compared to 2021, totaling 82 terawatt hours. The largest decreases were seen in the forest industry which saw consumption drop 2.5 terawatt hours. Domestic production and imports both decreased, with imports dropping nearly 30% and domestic production decreasing 5.3 terawatt hours compared to 2021. CO2 emissions from electricity generation decreased 6% in 2022 and have fallen 77% since 2010.
Electricity consumption in Finland decreased 6% in 2022 compared to 2021, totaling 82 terawatt hours. The largest decreases were seen in the forest industry which saw consumption drop 2.5 terawatt hours. Domestic production and imports both decreased in 2022, with imports dropping 28% or 5 terawatt hours due to the end of imports from Russia in May 2022. Wind power capacity and production increased significantly, with capacity up 76% and production up 41%.
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