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13/14 Semester 3. Energetic Material (TKK-2130). Instructor: Rama Oktavian Email: rama.oktavian86@gmail.com Office Hr.: M.13-15, Tu. 13-15, W. 13-15, Th. 13-15, F. 09-11. Outlines. 1. Energy situation. 2. Energy source. 3. Energy and society. 4. Energy conversion and efficiency.
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13/14 Semester 3 Energetic Material(TKK-2130) Instructor: Rama Oktavian Email: rama.oktavian86@gmail.com • Office Hr.: M.13-15, Tu. 13-15, W. 13-15, Th. 13-15, F. 09-11
Outlines 1. Energy situation 2. Energy source 3. Energy and society 4. Energy conversion and efficiency
Energy situation Energy vocabulary and information literacy Energy has its own vocabulary. “Energy” and “Power” are often used interchangeably, but they mean slightly different things. What’s the difference between “Energy” and “Power”? Power: rate Work over time Energy: quantity Ability to do work
Energy situation Energy units Energy has many units.
Energy situation Power Power is a Rate of Energy Power: work performed over a period of time ‣Or energy produced over a period of time ‣Or energy consumed over a period of time ‣It’s a “rate” not a quantity
Energy situation Power Power is a Rate of Energy Units: ‣Watt (W, kW, MW, GW,…) ‣Horsepower •Power density: W/m2 ‣Heat flux density, irradiance,…
Energy situation Energy = Power × Time •A light bulb consumes energy at a rate of 100 W •Its instantaneous power consumption is 100 W •After 1 hour, it has consumed 100 Wh or 0.1 kWh •After 10 hours, it has consumed 1 kWh
Energy situation Energy = Power × Time •Example: A nuclear plant has a power capacity of 1 GW ‣After 1 hour, generates 1 GWh of electricity ‣After 1 year, generates 8,760 GWh of electricity ‣NOTE: 8,760 hours per year •Converting from GWh to kWh ‣1 GWh = 1 million kWh ‣Total U.S. electricity in 2011: 4,000 billion kWh
Energy situation Energy notation
Energy situation Energy notation •MW = megaWatts = 1 million watts •MMBTU = million BTU = thousand, thousand BTU •MMBD = million barrels per day = thousand, thousand barrels per day ‣also sometimes noted “mbd” ‣BOE = “barrel of energy” or “barrel of oil equivalent” ‣MMBDOE = million barrels per day of oil equivalent (an amount of energy)
Energy situation Energy notation for natural gas •The energy content of 1,000 SCF of natural gas is approximately 1 million BTU ‣SCF = standard cubic foot ‣MCF = thousand cubic feet (also “mcf” or “Mcf” or “mil”) ‣1,028 BTU per cubic foot ‣1,000 SCF = 1 MCF = 1.028 MMBTU •Price is often given in MCF or MMBTU
Energy situation Energy conversion: Tons •A ton is about a tonne •English system: ‣Ton = dry ton = short ton = 2000 lbs •Metric/SI system: ‣Tonne = metric ton = metric tonne = MT = 1,000 kg •1 kg = 2.2 lbs •1 metric ton = 1000 kg = 2200 lbs = 1.1 tons •1 metric ton = 1 tonne = 1.1 tons ‣Only wrong by 10%
Energy situation Primary energy demand, 2035 (Mtoe) World Energy Outlook, EIA 2013
Energy situation 2012 Worldwide Per Capita Energy Use Source: International Energy Agency • Graphic: Michael E. Webber, The University of Texas at Austin
Energy situation Energy use in Indonesia ESDM, Indonesia Energy Outlook 2010 Energy consumption in industry sector
Energy situation Energy use in Indonesia ESDM, Indonesia Energy Outlook 2010 Energy consumption in household and commercial sector
Energy situation Energy use in Indonesia ESDM, Indonesia Energy Outlook 2010 Energy consumption in household and commercial sector
Energy source Primary and secondary energy
Energy source Non-renewable energy sources Hydrocarbon Supplies: Coal Oil Natural Gas Renewable energy sources Renewable Sources Biomass (Wood, Corn Ethanol, etc.) Hydro (Dams) Wind Geothermal Solar
Energy source Energy sources in Indonesia Oil
Energy source Energy sources in Indonesia Oil
Energy source Energy sources in Indonesia Natural gas
Energy source Energy sources in Indonesia Natural gas
Energy source Energy sources in Indonesia Coal
Energy source Energy sources in Indonesia Coal
Energy source Energy sources in Indonesia Renewable energy sources in Indonesia
Energy source Energy sources in Indonesia Renewable energy sources in Indonesia-Geothermal
Energy source Energy sources in Indonesia Renewable energy sources in Indonesia-Geothermal
Energy and society Energy flow in society
Energy and society Energy flow in society
Energy conversion and efficiency Energy conversion First law of thermodynamics •Energy is conserved: the best you can do is break even ‣Energy can be neither created nor destroyed. ‣The total energy of an isolated system remains the same. •Energy exists in many forms •Energy forms can be converted from one to another
Energy conversion and efficiency Energy exists in many forms •Mechanical (m) ‣Gravitational potential ‣Kinetic •Thermal (t) •Electrical (e) •Radiant (r) •Chemical (c) •Atomic (a)
Energy conversion and efficiency Example
Energy conversion and efficiency Energy efficiency 2nd Law of Thermodynamics Entropy No system gives you as much back as you put in ‣Losses ALWAYS occur
Energy conversion and efficiency Energy efficiency •Efficiency for a process is always <1 •For a system, the overall efficiency is the product of the individual efficiencies within the system ‣NOT the sum of efficiencies ‣NOT the average of efficiencies •Minimizing the number of steps is beneficial
Energy conversion and efficiency Energy efficiency