System Integration Renewable energy to the industry
|
|
|
- Louisa Dorsey
- 5 years ago
- Views:
Transcription
1 System Integration Renewable energy to the industry Workshop Project Design for System Integration November ISPT Day - Amersfoort
2 Flow of the workshop 1. Theme selection group formation 2. Exploring your group idea 3. Working on poster formats elaborate 1 project idea 4. Best of 2 select as a group 5. Pitch of 5 best ideas 2
3 Theme selection
4 Join your topic of interest from these themes Form group of 4 persons per topic 1. Large scale water electrolysis 2. Energy carriers: locally made or imported? 3. storage 4. Short- and longterm electricity storage 5. Flexible electricity consumers (demand side management) 6. CCU: CO2 electrochemistry or syngas chemistry (CO2 + ) 7. Sustainable high-temperature heat 8. Future scenarios for the dutch industry 9. Green premium 10. Your own theme 4
5 Generating ideas
6 Central question What is the biggest challenge in your theme? What project can solve the challenge? Why is this important to you? Complete the sentence: As I want to do a project to The largest hurlde is This enables me to 6
7 Central question What is the biggest challenge in your theme? What project can solve the challenge? Why is this important to you? Complete the sentences: As large chemical company I want to do a project to supply renewable hydrogen to our facility. The largest hurlde is to ensure stable delivery of hydrogen at a good cost price with fluctuating supply of power This enables me to create green value-added products 7
8 Central question As..I want to do a project to The largest hurlde is... This enables me to..... As..I want to do a project to The largest hurlde is... This enables me to..... As..I want to do a project to The largest hurlde is... This enables me to
9 From 4 to 2 Review with one person in your group 1. Discuss your project ideas 2. Which one is best? 9
10 From 4 to 2 & from 2 to 1 Review with one person in your group 1. Discuss your project ideas 2. Which one is best? 3. As group of 4 select one of two best ideas 10
11 4. Working on the poster template Steps 1. Describe and draw your project idea What feedstocks and inputs are needed? Which products do you make? What is the potential impact? What is the opportunity? Specify your project what, who, when, how much resources needed 4. Cool title!
12 4. Example HyFI project Input given 1. Idea hydrogen storage in metal oxides explorative study Sources (PV to ), Products ( anytime anywhere), Impact (global market, cheaper ) and Opportunity ( secure supply) Parties, Timing, costs of work and technology (studied or used) 4. Cool title!
13 13
14 Group feedback poster selection 1. Find poster group with same theme 2. Present poster to each other 3. Select which to present centrally? 14
15 Group feedback poster selection 1. Find poster group with same theme 2. Present poster to each other 3. Select which to present centrally? 4. Pitch round 5 posters 15
16 Einde - Hand-out
17 Central question As..I want to do a project to The largest hurlde is... This enables me to..... As..I want to do a project to The largest hurlde is... This enables me to..... As..I want to do a project to The largest hurlde is... This enables me to
18 Large scale water electrolysis (Theme 1) - example: Study on a 1 GW demonstration Project goal: Make a design and cost estimate for a 1 GW plant in NL to be operational in 2025 Key aspects of project: Location selection Connection to power and hydrogen infrastructure? Technology suppliers Development potential of supplied technologies (PEM, alkaline) Economies of scale effects Cost reduction potential of total plant Expected operating hours Competitiveness with steam reforming (Green) Hydrogen offtakers 18
19 Energy-carriers: locally made or imported? (Theme 2) example Hydrogen from the desert Project goal: Determine the cost price for green hydrogen produced in the desert and transported to the Netherlands to locally produced hydrogen Key aspects of project: Cost of solar electricity (inlcuding expected developments) Local conversion Ship transport Storage in the Netherlands Comparison to locally produced hydrogen 19
20 Hydrogen storage (Theme 3) example Large scale H 2 storage in 2030 Project goal: Determine how large scale hydrogen storage will be carried out in NL in 2030 Prepare for demonstration projects Key aspects of project: Available technologies and their costs Developments in storage technology Expected storage requirement based on intermittency and expected demand Capacity of gas grid Energy costs of storage 20
21 Short- and longterm electricity storage (Theme 4) example Seasonal electricity storage Project goal: Determine how we will cover our electricity demand in 2050 in the winter season Key aspects of project: Expected demand for seasonal electricity storage Efficiencies of technologies that can possibly provide this Link to existing power generating facilities in NL Technology hurdles (eg. burning H 2 in power plants) 21
22 Flexible electricity consumers (Theme 5) example Power2Products 2.0 Project goal: Demonstrations of demand side management options Key aspects of project: Actual demonstration of demand side technologies (eg. electric boiler, electrolysis) Prediction of flexibility value on different power markets Business models to overcome energy market uncertainties Hurdles such as electricity taxes 22
23 CCU: CO 2 electrochemistry or syngas chemistry (Theme 6) example CO 2 to chemicals Project goal: Define the most promising products for CO 2 electroreduction Come to a follow-up technology program Key aspects of project: Products that we could make (methanol, ethylene, formic acid, ) Technology status CO 2 electroreduction per chemical CO 2 electroreduction process flow diagram (including electrolyzer choice and separations) Production cost and efficiency for conventional route via H 2 produced by water electrolysis and subsequent syngas chemistry Targets (selectivity, efficiency) for CO 2 electroreduction 23
24 Sustainable high-temperature heat (Theme 7) - example High T heat: electric or hydrogen? Project goal: Define what is needed to make sustainable high temperature heat Come to concrete cases for demonstration Key aspects of project: What high temperature processes will remain at the end of the energy transition? Is electric heating (either direct or via a heat pump) a possibility for these processes? What happens to the complete heat management of the plant (heat cascading) Cost of high temperature E-heat versus a natural gas replacement (eg. hydrogen) What do with waste gases with low Wobbe index? 24
25 Future scenarios for the dutch industry (Theme 8) example Dutch industry in 2030 and 2050 Project goal: Come to a projected state for the dutch industry in 2030 and 2050 NO/DK NO/DK Key aspects of project: Expected state per sector Energy (eg. expected energy mix) Chemicals Steel (eg. hydrogen based) Fuels Food (eg. renewable fertilizers) Building materials Combining this into one a concrete picture for NL Use of scenario-tools UK BE DE 25
26 Green premium (Theme 9) - example Getting money for green products Project goal: Determine the potential for a higher price for green products Key aspects of project: Value chain analysis: in what consumer products do our green products end up. (eg. ammonia -> fertilizer -> potatoes -> potato chips) Importance of green product for carbon footprint of final product Investigate willingness of consumers to pay more for sustainable products Analogy with biological products 1,99 1,85 26