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Introduction
Willie Nelson net worth is a testament to his enduring influence and success in many fields. Born on April 29, 1933, in Abbott, Texas. Nelson's journey from a humble beginning to becoming one of the most iconic figures in American music is nothing short of inspirational. His net worth, which estimated to be around $25 million as of 2024. reflects a career that is as diverse as it is prolific.
Early Life and Musical Beginnings
Humble Origins
Willie Hugh Nelson was born during the Great Depression. a time of significant economic hardship in the United States. Raised by his grandparents. Nelson found solace and inspiration in music from an early age. His grandmother taught him to play the guitar. setting the stage for what would become an illustrious career.
First Steps in Music
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Rise to Stardom
Breakthrough Albums
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Iconic Songs
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Acting and Film Career
Hollywood Ventures
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Television Appearances
Nelson's char
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Impacts of monetary incentives and non-monetary policy measures on transport decarbonization in Ireland
1. Impacts of monetary incentives and non-monetary policy
measures on transport decarbonization in Ireland
PhD student | Energy Policy & Modelling Group, MaREI Center for Energy, Climate and Marine | School of
Engineering, UCC | vahid.aryanpur@ucc.ie | IEA ETSAP Workshop | June 17, 2021
Vahid Aryanpur
2. Content
❑ Background
❑ Purpose of the study
❑ Methodology and model specifications
❑ Scenario assumptions and Results
❑ Conclusions
3. Background
❑ Transport Sector in Ireland (SEAI, 2020)
▪ Transport is the largest energy-consuming sector in Ireland (42% of total final energy consumption in 2018)
▪ This sector significantly relies on fossil fuels and is responsible for 40% of energy-related CO2 emissions
▪ Private cars are responsible for the largest share of transport emissions at 40%
❑ Key solutions (Climate Action Plan, 2019)
▪ Private cars: 840,000 EVs on the road by 2030
▪ Remote and home-working
▪ Modal shift to public transport
▪ Renewable biofuel
▪ Zero carbon public transport fleets
❑ Ambitious targets (Climate Action Bill, 2021)
▪ Target 2030: 51% reduction compared to 2018
▪ Target 2050: Carbon-neutral transport
❑ Approach (Joint Committee on Environment & Climate Action, 2021)
▪ avoid-shift-improve approach into the transport and mobility infrastructure planning
0
2
4
6
8
10
12
14
16
2005 2010 2015 2020 2025 2030 2035 2040 2045 2050
Million
ton
CO
2
CO2 emissions by transport
2030 target
51% reduction
2050 target
Carbon-neutral
4. Focus and Purpose
▪ Focus
✓ Sector: Private cars in Ireland
✓ Target: 51% reduction in CO2 emissions
✓ Year: 2030
▪ Research Questions
✓How different measures impacts on CO2 emissions from private cars
✓ Solutions to reach the mitigation target in 2030
✓ The appropriate time to remove the purchase grant while meeting EV adoption target
5. How policy
measures impact
decarbonization
pathways in
transport sector?
Supply-side Modules
Resources and
Potentials
Power
Renewable
Fossil-Fired
Biogas-Fired
Fossil fuel
▪ Oil
▪ Gas
▪ Coal
Imports
▪ Electricity
▪ Oil products
▪ Biofuels
▪ Natural gas
Fuel Supply
▪ Oil products
▪ NG/Biogas
▪ Liq. Biofuels
▪ Hydrogen
Renewable
▪ Wind
▪ Hydro
▪ Solar
▪ Biomass
Distribution
▪ Electricity
▪ Oil products
▪ Biofuels
▪ Natural gas
Demand-side Modules
Energy Service
Demands
Residential &
Service
▪ Space heating
▪ Hot water
▪ Electricity
▪ Others
Industrial
▪ Chemicals
▪ Machinery
▪ Metals
▪ Food & beverage
▪ Others
End-use
Technologies
Residential
▪ Appliances
▪ Boiler
▪ Heat pumps
Other sectors
▪ Industry
▪ Service
▪ Agriculture
Carbon Constraint (kt CO2)
CCS
(Gas/Biomass)
Policy Measures
Biofuel obligation
Monetary incentives
Banning ICEs
Main Scenarios
BAU Scenario
Low Demand Scenario
Hurdle rates
Energy flow
Scenario assumption
CO2 flow
End-use Demand
Hurdle rates
Transport Technologies
Inland Freight
Light Goods Trucks
PHEVs, BEVS
FCVs
Medium & Heavy
Goods Trucks
ICEs & HEVs
BEVs
FCVs
Trains
ICEs, BEVs, FCVs
Inland Passenger
Heavy-Duty Vehicles
Trains
Buses
Light-Duty Vehicles
Cars & Taxis
ICEs & HEVs
BEVS, PHEVs
FCVs
ICEs
BEVs
FCVs
ICEs (Train)
BEVs (Train)
BEVs (Light rail)
2-Wheelers
Active modes
Walk
Bike
ICEs, BEVs
Other transport
Tourism, Navigation, Aviation, Unspecified
ICEs, HEVs
Transport Demand
Passenger (pkm)
Short-range (<5km)
Medium-range (5-30km)
Long-range (>30km)
Freight (ton.km)
Others (PJ)
Legend
Method
6. Model Specifications
❑ General
▪ Model horizon: 2018 – 2050
▪ Periods: 18 Periods (yearly/multi-years)
▪ Social discount rate: 4%
▪ Flexible Spatio-temporal resolution: 26 sub-regions, 40 time-slices
▪ Model details: >60 Attributes; >150 User Constraints; >300 Commodities;
>2000 Technologies
❑ Transport
▪ Region specific characteristics: vehicle fleet, infrastructure, fuel consumption,
mileage, occupancy rate, and load factor
▪ Historic scrappage profiles for existing vehicles
▪ Retirement profile for new vehicles
7. Vehicle Purchase Decision
❑ Hurdle rates are used to capture the consumer behaviour when purchasing a transport technology
❑ Consumer-specific Hurdle Rate: TAM1, PRIMES2
Individual discount rates in TIM
(region-specific discount rate)
High Med. Low
1. Tash et. "Improved representation of investment decisions in the German energy supply sector: An optimization approach using the TIMES model." Energy Strategy Reviews 26 (2019): 100421.
2. Capros, Pantelis, et al. "EU Reference Scenario 2016-Energy, transport and GHG emissions Trends to 2050." (2016).
Sub-regions in TIM
Relationship between individual
discount rates and income in PRIMES
30.8%
49.6%
19.6%
Low-income
(39%)
Medium-income
(17-27%)
High-income
(5-9%)
Frequencies
Income class (dicount rate)
€66,203
8. Scenarios Demand Modal share Biofuel Policy measures
1. Business as usual (BAU) Increase Fixed
No
obligation
No action
1.1. Modal shift Modal shift
1.2. Biofuel Obligation Scheme (BOS1) B12 and E10
1.3. Biofuel Obligation Scheme (BOS2) B20 and E10
1.4. Occupancy rate Occupancy rate (5-50%)
1.5. Monetary incentives Grants & tax relief
Region-specific hurdle rates are incorporated in all scenarios
BAU Scenario
9. Low Demand Scenario
Scenarios Demand* Modal share Biofuel Policy measures
2. Low Energy Demand (LED) Decreasing Fixed
No
obligation
No action
2.1. Modal shift Modal shift
2.2. Biofuel Obligation Scheme (BOS1) B12 and E10
2.3. Biofuel Obligation Scheme (BOS2) B20 and E10
2.4. Occupancy rate Occupancy rate (5-50%)
2.5. Monetary incentives Grants & tax relief
73
87
105
73 73 74
2018 2030 2050
Passenger demand (Bpkm) BAU
LED
* pkms/capita will decrease from 17,000 in 2018 to 12,000 in 2050
10. Results: CO2 emissions in BAU Scenario (Mt)
5.05
Solutions to fill the gap:
✓ EV adoption: 1.1 million EVs are required
Monetary incentives (Purchase grants+VRT
Relief) should be kept until the end of year
2027.
✓ Occupancy rate: Increasing the average
occupancy rate by 35% (from 1.49 to at least
2.0)
✓ Hybrid solution: Increasing the average
Occupancy Rate (OR) by 10% and 700k EVs.
Sensitivity Analysis
✓ Monetary and non-monetary measures
11. 3.63
Results: CO2 emissions in LED Scenario (Mt)
Solutions to fill the gap:
✓ EV adoption: 600k EVs are required, Monetary
incentives (Purchase grants+VRT Relief) should be
kept until the middle of year 2023.
✓ Occupancy rate: Increasing the average occupancy
rate by 25% (from 1.49 to at least 1.86)
✓ Hybrid solution: Increasing the average occupancy
rate by 15% and 450k EVs.
Sensitivity Analysis
✓ Monetary and non-monetary measures
12. 332
425
552
653
795
952
1031
1082
1319
BAU MIR 2021 MIR 2022 MIR 2023 MIR 2024 MIR 2025 MIR 2026 MIR 2027 MIR 2028
EV Cars (1000 Vehicle)
Vehicle type
Private cars Vans
BEV PHEV BEV PHEV
Purchase grant €5000 €2500 €3800 €3800
VRT relief €5000 €2500 €5000 €2500
Purchase price proportion in 2024 (EV/ICE): 1.41
2030 target: 840k EVs
6.3 6.1
5.8
5.5
5.1
4.6 4.4 4.3
3.6
BAU MIR 2021 MIR 2022 MIR 2023 MIR 2024 MIR 2025 MIR 2026 MIR 2027 MIR 2028
CO2 emissions (MT)
2030 target: 2.97 MT CO2
Results: Monetary incentives in BAU scenario
Monetary Incentive Removal (MIR)
VRT relief for BEVs is in place until the end
of 2021 and for PHEVs until end of 2020
13. Conclusions
Impact of measures on decarbonization
• Individual measures (even a radical action) cannot meet the ambitious targets
• Avoid (reduce the travel need) can deliver far better outcome than the adoption of zero-carbon vehicles
• To achieve the mitigation target in BAU:
• 700k BEVs, combined with radical increase in OR are required
• Monetary incentives should be kept until 2027
• To achieve the mitigation target in LED:
• LED scenario: 450k BEVs, combined with moderate increase in OR are required
• Monetary incentives can be removed from 2023
14. Insights and future works
Modelling insights (spatially-resolved model)
• Better capture region-specific characteristics
• Higher spatial resolution can be used as a mean to incorporate consumer heterogeneity
• Solution time for a multi-region model is ~30 mins and for a single-region is ~6 mins on a laptop
Future works
• Region-specific policy measures (such as banning single passenger cars in urban areas, phase out ICEs from
some regions)
• More targeted monetary incentives (allocating purchase grants to low-income vehicle buyers/regions)
• Incorporation of disposable income instead of median household income
15. Acknowledgments | TIM DEVELOPERS
Further details and results in: https://tim-review1.netlify.app/about
17. Impact of spatial resolution
▪ In terms of BEV adoption, single-region model differs from
multi-region (30 percent less than multi-region case)
▪ Same demand, but an average data is used for national-scale
hurdle rates
▪ Average national (homogeneous consumers) hurdle rate
makes BEVs (technologies with higher upfront cost) less
competitive than the other options
251
328
Single-region Multi-region
Thousand BEVs in 2030