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S T R E S with Chemical Storage
Energy systems are in revolution
Prof.dr. Peter Novak Profesor Emeritus FTS Novo mesto,
Hon. Mb.: IIR, ASHRAE, REHVA, SITHOK, KGH, SLOSE
Past Vice Chairmen of Scientific Council of EEA, Copenhagen
Ljubljana, Slovenia
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STRES (without stress)
• SUSTAINABLE - environmental friendly
• TRANSACTIVE - inter communicative
• RENEWABLE - using solar exergy
• EXERGY - energy part, able to do work
• SYSTEM - composed from producer, transmitter, dealer and
consumer
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Content
• Seting the Scene – Economy– Tehnologies – CHEMICAL STORAGE
• Exergy priciples– General– Evaluation criteria
• Sustainable exergy system– Concept of chemical storage– Requirements– Solutions
• Conclusions
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Setting the Scene
1. Society: population growth, environment problems, use of natural resources
2. Economy: consumer society, inequity;
3. Technologies: exergy, chemical storage, IKT, IoT, IIoT
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1. Society: "Living well within the limits of the planet....“
4 important megatrends:
1. Population growthFor a first billion we needed
12,000 years. At present we need
only 14 years for a new billion.
Can we survive such
exponential growth?
2. GHG emissions 400 ppm of CO2 was
overridden in 2016.
Temperature rise of
1,5 K is almost achieved!
2 K goal will be bypassed !?
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Variation because of biomass growth and decay - 6 ppm/y.
1. Society: "Living well within the limits of the planet.....“
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3. Ecological footprint
1.7 Earth
?
4. World uneven political, economic and social development
Are this 4 megatrends four rider of apocalipse?Death, Famine, War, Conquest
GHG ?
GDP/cap1 : 350Energy/cap1 : 115
UNO conference Only one Earth Rio 1 Rio 2
2. Economy: In 45 years we cannot change our development patterns!
In the Club of Rome book „Limit of the Growth“, 1972 we can find simulation model for world development „Business as usual“. Putting in the graph the real data of development on the world (UN Statistic) for last 45 years we find large agreement with prediction they made. Humanity is approaching the collapse in next decades.
?
International Ethic Development
Society Ethic?
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1800 2000 2100
Where we go?
3. Technologies
Humanity has developed many different and for the environment unacceptable techologies, like:• Fosil fuels transformation ( power plants, engines,...)
• Agriculture machine (raising food production,...)
• Road transportation
• Air transportation
• Chemistry (fertilizer, plastics,....)
• Medicine (medicaments,.....=
• Military equipment ( wapons, explosives, nuclear technologies...)
• Land use and cities growth (fertil land thithening, forest reduction...)
Two questions are obviuos:
How to stop the environment degradation on the planet?
Where to start?
My answer is: return to the sun!
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Stress in Environment and RE ? Do we like such one country wiev?
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STRES and storage technologies:
• General use of RE will be possible only, if we find the chemical storage of solar energy (prof. dr. Tabor, 1975, Paris conference on renewable energy)
• Only natural chemical storage of solar exergy is biomass (including plants and animals).
• We must integrate the dayly solar exergy with natural storage of solar exergy – biomass.
• IIoT and IoT will change relationships in new energy system, helping us to overcome the dayly and yearly oscilation in available/needed exergy flows.
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EXERGY VERSUS ENERGY
Resources evaluation, exergy efficiency,
• Resources cannot be evaluated only according to mass and energy balance, because they not disappear.
• Using the exergy as measure of resources depletion we can evaluate quality of our processes taking into account the conservation of mass, energy and irreversibility’s.
• Exergy Efficiency is a measure for quality of exergy transformation processes: ExE => exergy out/exergy in (measure for irreversibilities).
• Solar energy is pure exergy!
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Sustainable development and Circular economy - connection to exergy
• Sustainable development means les exergy destruction or depletion in all circumstances.
• Circular economy is a policy to minimize the use of resources, to minimize the thermodynamics irreversibility’s, this mean to promote higher exergy efficiency over the life cycle
• Indicators for exergy in circular economy are:1. Life Cycle Exergy Analysis LCExA
2. Exergy payback time ExPBT
3. Exergy Return on Exergy Invested ExROExI.
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Exergy balance for any production scheme
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Source: Davidson, 2011
solarfossil
STRES without „stress“
Sustainable Transactive Renewable Exergy System - STRES
as replacement of present
„Energy System“
E for Exergy
using solar hydrogen and biomass as resources for chemical storage of solar exergy
Batteries, as other type chemical storage of exergy are not included
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TransactiveTransactive Exergy Systems mean:• network which allows communication between all points of
supply and demand, creating an environment of interoperability in which every point can exchange exergy information and basically discuss in real time (or near real time) the value of exergy at any given point in time or space (IoT).
• Based on those valuations, the supply and demand points can execute transactions for exergy, while maintaining the delicate balance required for a healthy power, gas or other grid (IIoT).
Source: J. Delony. A transactive energy ystem, RE World, 11.09.2017
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Concept of Sustainable Transactive Renewable Exergy System
Sustainable transactive exergy system (STRES) as proposed, consists of the four main renewable exergy (energy) carriers:
– renewable electricity (from surplus: hydrogen), – gas (synthetic methane CH4; - s-methane: biomass
+ solar hydrogen), – liquid (synthetic methanol CH3OH; s-methano:
biomass + solar hydrogen and oxigenl) – solid fuels from biomass (transition period, important
in developing countries)
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Why methane and methanol?
The methane (CH4) and methanol (CH3OH) are the only exergy carriers in nature with one carbon chemically connected with four hydrogens.
In STRES both present chemical storage of renewable exergy.• Necessary hydrogen and oxygen will be produced with
electrolysis of water or other processes, equalizing the renewable electricity daily and yearly variations.
• Necessary carbon will be used from biomass
before natural rotig, dekaying
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STRES is integral part in natural CO2 and water cycle
Proposed STRES has no GHG emissions, because water and CO2 are recycled by solar irradiaton and photosynthesis.
It is based on distributed generation and use of exergy, with great help of IIoT.
It is further development of Nobel price owner prof. dr. Olah idea of „methanol economy“ .
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STRES and Carbon Recycling Society
• Proposed STRES is not new, but enables smooth transition to a sustainable “organic carbon recycling society”.
• STRES is also sustainable part of promoted “circular economy”.
• Costs of all form of renewable exergy will be in beginning of transition period higher, but at the end of transformation to STRES costs will be lower and longtherm stable.
• Political and social implication on the world will be substantial leading to „living well within the limits of the planet Earth“.
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Is fossil fuel replacement in next 33 years viable and possible?
556 EJ/y
55,7 EJ/y RE 1 329,9
Mtoe
oil
gas
coal
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Based on present known RES and technologies fossil fuel replacement is only the question of political will.
Available technical potential: 11.941 EJ/y Needed exergy ~556 EJ/yNeeded exergy 2050 ~800 EJ/yOr 6,7% of technical potencial.
Do we have enough resources?
Carbon world resource from biomassA: Carbon stocks on the world are 500 bilion tons of carbon (IPPC, tier 1, Global biomass carbon map, 2000).
Yearly amount of carbon in growing biomass is:
C ~ 105.109 t C/y (carbon, dry mater) https//:en.wikipedia.org/wiki/Biomass, 11.11.2013
divided in two parts: 50% onshore and 50% ofshore.
B: Carbon needed for methane (50%) and methanol (50%) production
replacing present fossil exergy use (11354,3 Mtoe excluding RE
and NE) is:
C = ~7000.106 t/y or 13,33 %/y
using only onshore biomass available. 86.7% of biomass yearly
addition to growth can stay in woody biomas and soil as food for
microbiota.
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Hydrogen production
• Hydrogen needed for conversion of biomass to
new energy carrier is: ~1.158,5.106 t H2 /y
• If we use the water electrolysis for hydrogen production, we need 10.222.106
t/y of water or 0,03 % of yearly world precipitation on the land (~ 33,6.1012 t/y*).
• For hydrogen production needed renewable electricity (present 55 kWh/kgH2): ~ 63.690 TWh/y and power of PV = 53.075 GW (yield:1200 kWh/kW, y).
• Expected installed PV in 2017: 95 GW/y ; total world installed capacity < 400 GW.
• Oxygen is a surplus product (part can be used for biomas to methanol conversion
• Conclusion: Natural resources for STRES are in abundance and can fulfill our expectations.
*Pidwirny, M. Global Distribution of Precipitation. Fundamentals of Physical Geography, 2nd Edition. 17 April 2008.
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Where we stand with technologies?
How long is the ExPT?
How big is the ExROExI ?
1. Singapore’s NUS researchers develop alternative ethylene
production using solar energy
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2. Tiny metallic-gold particles are being used to convert sunlight into fuel.
ExPT for some RE technlogies
Present Exergy Payback Time for some RE technology:– PV system : 0,2 to 1,4 years
– Wind generator, depend on rotor diameter: 0,25 to 0,5 years.
– Small Hydro: 0,5 to 1year (site dependent)
– Hydrogen production: not known (for high pressure electrolysis exergy requirement is: ~55 kWhe/kg H2)
– Power to H2 efficiency : ~75 ÷79% (HHV)
– Biomass → Syngas (CO, CO2, H2) →CH4, CH3OH : to be
defined: Exergy payback time depend of electrolysis and biomass carbon conversion technologies.
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Important to know: Solar irradiation to biofuels conversion efficiency!
– Present conversion efficiency from solar irradiation over sugarcane to bioethanol per ha area (average yield 6000 l/ha) in real conditions is under
ExE ~ 0,0025%.
– Further conversion of ethanol to electricity with 50% efficiency, give us the total efficiency to use solar irradiation over the biomass under 0,0013%.
– For ccomparisons efficiency of PV system, with present technology, on the same area is ~16% (1:640 for bioethanol and 1:1300 for electricity).
– Coclusion: Biomass should be used with high attention, using for evaluation total exergy efficiency.
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Important of STRES for future development of transport technologies
• Heavy vehicles and tractors, passenger airplaine can not be electrified in near future. They can used s-methane and s-methanol.
• Electric cars:
– Pro: More efficient use (59%–62%) of the electrical exergy in comparisons to of ICE (19-20% ).
– Contra: Create a new environmental problem with batteries recycling (according the „Guardian report“, we have to deal with 11 millions ton of batteries for recycling up to 2030).
• Hybrid cars are solution for transition period.
• Fuels in STRES enable further use of ICE engines, with high efficiency and zero emissions.
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Economy: RE and GDP
The world will manage the shift to a renewable future without increasing overall annual energy expenditure, meaning that the future energy system will require a smaller share of GDP.
Latest report from DNV – GL: ENERGY TRANSITION OUTLOOK, 2017
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Levelized Cost of Energy (World Average)
Source: OpenEI, Transparent Costs Database
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2015
PV panels $0,30/W2017 price
PV panels
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Investment in RE are growing, but still are not sufficiend
Conclusions • Exergy efficiency ExE and ExROExI are good indicators of
exergy conversion processes
• Proposed STRES can replace the present system with further development of chemistry for biomass conversion in methane and methanol.
• STRES with renewable electricity confirm the way to Power to Gas (P2G) and Power to Liquid (P2L) technologies with many tausend of new jobs
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