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Electricity from plants a new source of futuristic energy

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Shivam Sharma
Shivam Sharma

electricity from plants

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ELECTRICITY FROM PLANTSELECTRICITY FROM PLANTS A NEW SOURCE OF FUTURISTICA NEW SOURCE OF FUTURISTIC SUSTAINABLE ENERGYSUSTAINABLE ENERGY
 OXYGENOXYGEN  FOODFOOD  FUELFUEL  FLOWERSFLOWERS  WOODWOOD  MEDICINESMEDICINES  AESTHETICAESTHETIC AND SO ON.....AND SO ON..... PLANTSPLANTS
PLANTS CAN ALSO GENERATEPLANTS CAN ALSO GENERATE ELECTRICITYELECTRICITY
 DEVELOPED BY A COMPANY CALLED PLANT- e.DEVELOPED BY A COMPANY CALLED PLANT- e.  DEVELOPED AT WAGENINGEN UNIVERSITY, NETHERLANDS  PATENTED IN 2007  TECHNOLOGY ENABLES TO PRODUCE ELECTRICITY FROM LIVING PLANTS AT PRACTICALLY EVERY SITE WHERE PLANTS CAN GROW  THE TECHNOLOGY IS BASED ON NATURAL PROCESSES AND  DOESN’T HARM THE PLANT OR ITS ENVIRONMENT THE TECHNOLOGYTHE TECHNOLOGY
PRINCIPLEPRINCIPLE MICROBIAL FUEL CELL (OR GREEN ELECTRICITY) PHOTOSYENTHESIS + ELECTROCHEMICALLY ACTIVE MICROORGANISMS
 ORGANIC MATTERS PRODUCED BY PLANTS DURING PHOTO- SYENTHESIS.  PART OF THIS ORGANIC MATTER IS USED FOR PLANT-GROWTH.  A LARGE PART CAN’T BE USED BY THE PLANT AND IS EXCRETED INTO THE SOIL VIA THE ROOTS.  AROUND THE ROOTS NATURALLY OCCURING MICRO-ORGANISMS BREAK DOWN THE ORGANIC COMPOUNDS TO GAIN ENERGY.  IN THIS PROCESS, ELECTRONS ARE RELEASED AS A WASTE PRODUCT.  BY PROVIDING AN ELECTRODE FOR THE MICRO-ORGANISMS TO DONATE THEIR ELECTRONS TO, THE ELECTRONS CAN BE HARVESTED AS ELECTRICITY. PRINCIPLEPRINCIPLE
A) PHOTOSYNTHESIS 6CO2+6H2O = C6H12O6+6O2 B) TRANSPORT OF ORGANIC MATTER TO THE ANODE COMPARTMENT. (C) ANODIC OXIDATION OF ORGANIC MATTER BY ELECTROCHEMICALLY ACTIVE BACTERIA C6H12O6+12H2O = 6HCO3+30H++24E (D) CATHODIC REDUCTION OF OXYGEN TO WATER 6O2+24H++24E = 12H2O
PILOT PLANTPILOT PLANT  PLANT-E IS STILL IN THE PRODUCT-DEVELOPMENT STAGE.  HOWEVER, A FIRST LARGE-SCALE DEMONSTRATION PROJECT IS IN OPERATION AT THE CRADLE-2-CRADLE BUILDING OF NIOO:  FOR A PROOF-OF-CONCEPT OF THE “GREEN ELECTRICITY ROOF”.  
PILOT PLANTPILOT PLANT
GREEN ROOFSGREEN ROOFS ONE OF THE MOST PROMISING PMFC APPLICATIONS IS A GREEN ROOF BECAUSE IT CAN COMBINE THE ADVANTAGES OF THESE ROOFS WITH ELECTRICITY GENERATION. OTHER ADVANTAGES: STORM-WATER RUNOFF RETENTION HIGH AESTHETIC VALUE INCREASED BIODIVERSITY IMPROVEMENTS IN AIR QUALITY BUILDING INSULATION AND DECREASE IN TEMPERATUREWITHIN CITIES
ELECTRICITY GENERATION POTENTIALELECTRICITY GENERATION POTENTIAL ELECTRICITY GENERATION POTENTIAL DEPENDS UPON:- - TYPE OF PLANTS / CROP - TYPE OF MICROORGANISM - SEDIMENTS /SOIL - WEATHER CONDITION
ELECTRICITY GENERATION POTENTIALELECTRICITY GENERATION POTENTIAL  EUROPEAN RESEARCH CONSORTIUM IS WORKING ON OPTIMAL ELECTRICITY PRODUCTION OF 3.2W/M2 (CURRENT 50mW/M2). ON A FLAT ROOF OF 50 M2 , 150W COULD BE CONTINUOUSLY PRODUCED.  ASSUMING AN AVERAGE ELECTRICITY NEED OF 500W, A GREEN ROOF COULD PROVIDE APPROXIMATELY ONE-THIRD OF A HOUSEHOLD’S ELECTRICITY NEED.  ENERGY USE BY THE HOUSEHOLD WILL DECREASE FURTHER DUE TO THE INSULATION CAPACITY OF THE GREEN ROOF.  SO ACTUAL ENERGY SAVING IS MORE THAN ONE/THIRD.  AT AN ELECTRICITY PRICE OF RS. 4.00/KWH, A 50-M2 ELECTRICITY PRODUCING GREEN ROOF COULD POTENTIALLY SAVE A HOUSEHOLD RS 5250 PER YEAR APPROX.
COMPARISIONS WITH OTHER ENERGIESCOMPARISIONS WITH OTHER ENERGIES  THIS CAN BE INTEGRATED WITH THE LANDSCAPES, FOREST AND FARMS.  THE POWER GENERATION IS LESS (APPROX. 1.6 MW/KM2) AS COMPARED TO WIND (5-7.7 MW/KM2) AND SOLAR (4.5-7.5 MW/KM2), HOWEVER IT IS CHEAPER AS COMPARED TO THE BOTH OF THEM.  THE POWER OUTPUT OF WIND FARMS AND SOLAR FARMS WILL BE THREE- TO FIVEFOLD HIGHER THAN THAT OF PMFCS.  HOWEVER, THE ENVIRONMENTAL IMPACT OF BOTH WIND TURBINES (AVIAN MORTALITY, VISUAL IMPACT, NOISE, ELECTROMAGNETIC INTERFERENCE) AND SOLAR PANELS (VISUAL IMPACT, LOSS OF GREEN SPACE AND BIODIVERSITY, INCREASING DARK SURFACE, USE OF POLLUTING METALS) IS LARGE AND IS A SOURCE OF SOCIETAL DEBATE  PMFCS COULD OFFER AN OPPORTUNITY FOR ELECTRICITY GENERATION WHILE SUSTAINING THE NATURAL ENVIRONMENT  COULD PROVIDE 24 H/DAY ELECTRICITY GENERATION WITHOUT THE USE OF SCARCE MATERIALS AND WITH NUTRIENT PRESERVATION.
SOCIAL ADVANTAGESSOCIAL ADVANTAGES  PLANT-MFCS CAN BE IMPLEMENTED IN (SEMI-)NATURAL ENVIRONMENTS SUCH AS RECREATION AREAS, RICE-FIELDS, SALINE SOILS, ENERGY ISLANDS, SELECTED WETLANDS, BIOREFINERIES ETC.  A MINIMAL DISTURBANCE OF THE SCENERY & PRIMARY FUNCTIONS AND SO WITHOUT BEING COMPETITIVE WITH AGRICULTURAL LANDS THAT ARE NEEDED FOR FOOD AND WITHOUT DAMAGING THE ENVIRONMENT.  THE WORK OF WITH RICE PLANTS DID NOT SHOW SIGNIFICANT DIFFERENCE OF RICE PRODUCTION WITH OR WITHOUT MFC INTEGRATION.
USE OF TECHNOLOGY IN NTPCUSE OF TECHNOLOGY IN NTPC  ELECTRICITY GENERATION POTENTIAL AT ASH DYKES  LAWNS / LANDSCAPE/ PARKS IN TOWNSHIP / PLANT.  STREET LIGHT / TOWNSHIP LIGHTING.
SUMMARYSUMMARY
REFERENCESREFERENCES www.nieuwbouwnioo.nl www.plant-e.com www.google.com Encyclopedia Britannica
Electricity from plants a new source of futuristic energy

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Electricity from plants a new source of futuristic energy

  • 1. ELECTRICITY FROM PLANTSELECTRICITY FROM PLANTS A NEW SOURCE OF FUTURISTICA NEW SOURCE OF FUTURISTIC SUSTAINABLE ENERGYSUSTAINABLE ENERGY
  • 2.  OXYGENOXYGEN  FOODFOOD  FUELFUEL  FLOWERSFLOWERS  WOODWOOD  MEDICINESMEDICINES  AESTHETICAESTHETIC AND SO ON.....AND SO ON..... PLANTSPLANTS
  • 3.
  • 4. PLANTS CAN ALSO GENERATEPLANTS CAN ALSO GENERATE ELECTRICITYELECTRICITY
  • 5.  DEVELOPED BY A COMPANY CALLED PLANT- e.DEVELOPED BY A COMPANY CALLED PLANT- e.  DEVELOPED AT WAGENINGEN UNIVERSITY, NETHERLANDS  PATENTED IN 2007  TECHNOLOGY ENABLES TO PRODUCE ELECTRICITY FROM LIVING PLANTS AT PRACTICALLY EVERY SITE WHERE PLANTS CAN GROW  THE TECHNOLOGY IS BASED ON NATURAL PROCESSES AND  DOESN’T HARM THE PLANT OR ITS ENVIRONMENT THE TECHNOLOGYTHE TECHNOLOGY
  • 6. PRINCIPLEPRINCIPLE MICROBIAL FUEL CELL (OR GREEN ELECTRICITY) PHOTOSYENTHESIS + ELECTROCHEMICALLY ACTIVE MICROORGANISMS
  • 7.
  • 8.  ORGANIC MATTERS PRODUCED BY PLANTS DURING PHOTO- SYENTHESIS.  PART OF THIS ORGANIC MATTER IS USED FOR PLANT-GROWTH.  A LARGE PART CAN’T BE USED BY THE PLANT AND IS EXCRETED INTO THE SOIL VIA THE ROOTS.  AROUND THE ROOTS NATURALLY OCCURING MICRO-ORGANISMS BREAK DOWN THE ORGANIC COMPOUNDS TO GAIN ENERGY.  IN THIS PROCESS, ELECTRONS ARE RELEASED AS A WASTE PRODUCT.  BY PROVIDING AN ELECTRODE FOR THE MICRO-ORGANISMS TO DONATE THEIR ELECTRONS TO, THE ELECTRONS CAN BE HARVESTED AS ELECTRICITY. PRINCIPLEPRINCIPLE
  • 9. A) PHOTOSYNTHESIS 6CO2+6H2O = C6H12O6+6O2 B) TRANSPORT OF ORGANIC MATTER TO THE ANODE COMPARTMENT. (C) ANODIC OXIDATION OF ORGANIC MATTER BY ELECTROCHEMICALLY ACTIVE BACTERIA C6H12O6+12H2O = 6HCO3+30H++24E (D) CATHODIC REDUCTION OF OXYGEN TO WATER 6O2+24H++24E = 12H2O
  • 10. PILOT PLANTPILOT PLANT  PLANT-E IS STILL IN THE PRODUCT-DEVELOPMENT STAGE.  HOWEVER, A FIRST LARGE-SCALE DEMONSTRATION PROJECT IS IN OPERATION AT THE CRADLE-2-CRADLE BUILDING OF NIOO:  FOR A PROOF-OF-CONCEPT OF THE “GREEN ELECTRICITY ROOF”.  
  • 12. GREEN ROOFSGREEN ROOFS ONE OF THE MOST PROMISING PMFC APPLICATIONS IS A GREEN ROOF BECAUSE IT CAN COMBINE THE ADVANTAGES OF THESE ROOFS WITH ELECTRICITY GENERATION. OTHER ADVANTAGES: STORM-WATER RUNOFF RETENTION HIGH AESTHETIC VALUE INCREASED BIODIVERSITY IMPROVEMENTS IN AIR QUALITY BUILDING INSULATION AND DECREASE IN TEMPERATUREWITHIN CITIES
  • 13. ELECTRICITY GENERATION POTENTIALELECTRICITY GENERATION POTENTIAL ELECTRICITY GENERATION POTENTIAL DEPENDS UPON:- - TYPE OF PLANTS / CROP - TYPE OF MICROORGANISM - SEDIMENTS /SOIL - WEATHER CONDITION
  • 14.
  • 15. ELECTRICITY GENERATION POTENTIALELECTRICITY GENERATION POTENTIAL  EUROPEAN RESEARCH CONSORTIUM IS WORKING ON OPTIMAL ELECTRICITY PRODUCTION OF 3.2W/M2 (CURRENT 50mW/M2). ON A FLAT ROOF OF 50 M2 , 150W COULD BE CONTINUOUSLY PRODUCED.  ASSUMING AN AVERAGE ELECTRICITY NEED OF 500W, A GREEN ROOF COULD PROVIDE APPROXIMATELY ONE-THIRD OF A HOUSEHOLD’S ELECTRICITY NEED.  ENERGY USE BY THE HOUSEHOLD WILL DECREASE FURTHER DUE TO THE INSULATION CAPACITY OF THE GREEN ROOF.  SO ACTUAL ENERGY SAVING IS MORE THAN ONE/THIRD.  AT AN ELECTRICITY PRICE OF RS. 4.00/KWH, A 50-M2 ELECTRICITY PRODUCING GREEN ROOF COULD POTENTIALLY SAVE A HOUSEHOLD RS 5250 PER YEAR APPROX.
  • 16. COMPARISIONS WITH OTHER ENERGIESCOMPARISIONS WITH OTHER ENERGIES  THIS CAN BE INTEGRATED WITH THE LANDSCAPES, FOREST AND FARMS.  THE POWER GENERATION IS LESS (APPROX. 1.6 MW/KM2) AS COMPARED TO WIND (5-7.7 MW/KM2) AND SOLAR (4.5-7.5 MW/KM2), HOWEVER IT IS CHEAPER AS COMPARED TO THE BOTH OF THEM.  THE POWER OUTPUT OF WIND FARMS AND SOLAR FARMS WILL BE THREE- TO FIVEFOLD HIGHER THAN THAT OF PMFCS.  HOWEVER, THE ENVIRONMENTAL IMPACT OF BOTH WIND TURBINES (AVIAN MORTALITY, VISUAL IMPACT, NOISE, ELECTROMAGNETIC INTERFERENCE) AND SOLAR PANELS (VISUAL IMPACT, LOSS OF GREEN SPACE AND BIODIVERSITY, INCREASING DARK SURFACE, USE OF POLLUTING METALS) IS LARGE AND IS A SOURCE OF SOCIETAL DEBATE  PMFCS COULD OFFER AN OPPORTUNITY FOR ELECTRICITY GENERATION WHILE SUSTAINING THE NATURAL ENVIRONMENT  COULD PROVIDE 24 H/DAY ELECTRICITY GENERATION WITHOUT THE USE OF SCARCE MATERIALS AND WITH NUTRIENT PRESERVATION.
  • 17. SOCIAL ADVANTAGESSOCIAL ADVANTAGES  PLANT-MFCS CAN BE IMPLEMENTED IN (SEMI-)NATURAL ENVIRONMENTS SUCH AS RECREATION AREAS, RICE-FIELDS, SALINE SOILS, ENERGY ISLANDS, SELECTED WETLANDS, BIOREFINERIES ETC.  A MINIMAL DISTURBANCE OF THE SCENERY & PRIMARY FUNCTIONS AND SO WITHOUT BEING COMPETITIVE WITH AGRICULTURAL LANDS THAT ARE NEEDED FOR FOOD AND WITHOUT DAMAGING THE ENVIRONMENT.  THE WORK OF WITH RICE PLANTS DID NOT SHOW SIGNIFICANT DIFFERENCE OF RICE PRODUCTION WITH OR WITHOUT MFC INTEGRATION.
  • 18. USE OF TECHNOLOGY IN NTPCUSE OF TECHNOLOGY IN NTPC  ELECTRICITY GENERATION POTENTIAL AT ASH DYKES  LAWNS / LANDSCAPE/ PARKS IN TOWNSHIP / PLANT.  STREET LIGHT / TOWNSHIP LIGHTING.