It’s abundant,reduceselectricity bills,and requireslowmaintenance. Batteries andother storagetechnologies storeexcess energy foruse whengeneration is lowHigh initial costs,intermittentavailability(dependent onsunlight), andspacerequirements.It can be ifmanagedsustainably, butburningbiomass stillreleases CO₂. Solar panelsconvert sunlightinto electricityusingphotovoltaiccells.No, but energycan be storedin batteries orsupplementedwith otherpower sources. Policies likesubsidies, tax credits,and renewableenergy mandatesencourageinvestment andaccelerate adoption. A system whereexcess solarenergy is sent tothe grid inexchange forcredits onelectricity bills. Biofuels are liquidfuels (like ethanoland biodiesel)derived frombiomass, used fortransportationFree!Wind isunpredictable,turbines can benoisy, and theymay impactwildlife.High initialcosts, location-dependent, andpotential forinducedseismic activity.It disruptsecosystems,displacescommunities,and is costly tobuild. A plant thatgenerateselectricity withoutlarge reservoirs,using naturalriver flow.With advancementsin storage, gridmanagement, andefficiency, a fulltransition is possible,but it requires large-scale investmentsand policy support.Wind turbinesconvert thekinetic energyof wind intoelectricalpower.It reducesgreenhouse gasemissions,decreases airpollution, andconserves naturalresources. In tectonicallyactive regionslike Iceland, theU.S. West, andthe Philippines.Heat from theEarth’s coreused togenerateelectricity or fordirect heating. It depends onwateravailability; lowwater levelsreduce powergenerationIt creates jobs,reduces relianceon importedfuels, andlowers long-termenergy costs. Typically 30-50%,meaning turbinesgenerate power atabout 30-50% oftheir maximumpotential overtime. Water flowsthroughturbines,spinning themto generateelectricity. Hydropower iscurrently thelargest sourceof renewableelectricityworldwide.Uses wastematerials,reduces landfillwaste, andprovides steadypower. Yes, throughgeothermalheat pumpsfor heatingand cooling. It’s reliable,produces nodirect emissions,and offers energystorage (pumpedstorage). Can contributeto deforestation,air pollution, andrequire largeland areas.Solar, wind,hydro,geothermal,and biomassenergy.It reducesreliance on fossilfuels, decreasespollution, andmitigates climatechange. Energy fromnatural sourcesthat replenishover time, likesunlight, wind,and water. It’s reliable, haslow emissions,and providesconstantenergy. The main challengesinclude energystorage, gridinfrastructureupgrades, andintermittency of somerenewable sources.It’s clean,cost-effective,and providesenergy in ruralareas. Yes, smallwind turbinescan generateelectricity forresidential use.Energy fromorganicmaterials likewood, cropwaste, andanimal manure.It’s abundant,reduceselectricity bills,and requireslowmaintenance. Batteries andother storagetechnologies storeexcess energy foruse whengeneration is lowHigh initial costs,intermittentavailability(dependent onsunlight), andspacerequirements.It can be ifmanagedsustainably, butburningbiomass stillreleases CO₂. Solar panelsconvert sunlightinto electricityusingphotovoltaiccells.No, but energycan be storedin batteries orsupplementedwith otherpower sources. Policies likesubsidies, tax credits,and renewableenergy mandatesencourageinvestment andaccelerate adoption. A system whereexcess solarenergy is sent tothe grid inexchange forcredits onelectricity bills. Biofuels are liquidfuels (like ethanoland biodiesel)derived frombiomass, used fortransportationFree!Wind isunpredictable,turbines can benoisy, and theymay impactwildlife.High initialcosts, location-dependent, andpotential forinducedseismic activity.It disruptsecosystems,displacescommunities,and is costly tobuild. A plant thatgenerateselectricity withoutlarge reservoirs,using naturalriver flow.With advancementsin storage, gridmanagement, andefficiency, a fulltransition is possible,but it requires large-scale investmentsand policy support.Wind turbinesconvert thekinetic energyof wind intoelectricalpower.It reducesgreenhouse gasemissions,decreases airpollution, andconserves naturalresources. In tectonicallyactive regionslike Iceland, theU.S. West, andthe Philippines.Heat from theEarth’s coreused togenerateelectricity or fordirect heating. It depends onwateravailability; lowwater levelsreduce powergenerationIt creates jobs,reduces relianceon importedfuels, andlowers long-termenergy costs. Typically 30-50%,meaning turbinesgenerate power atabout 30-50% oftheir maximumpotential overtime. Water flowsthroughturbines,spinning themto generateelectricity. Hydropower iscurrently thelargest sourceof renewableelectricityworldwide.Uses wastematerials,reduces landfillwaste, andprovides steadypower. Yes, throughgeothermalheat pumpsfor heatingand cooling. It’s reliable,produces nodirect emissions,and offers energystorage (pumpedstorage). Can contributeto deforestation,air pollution, andrequire largeland areas.Solar, wind,hydro,geothermal,and biomassenergy.It reducesreliance on fossilfuels, decreasespollution, andmitigates climatechange. Energy fromnatural sourcesthat replenishover time, likesunlight, wind,and water. It’s reliable, haslow emissions,and providesconstantenergy. The main challengesinclude energystorage, gridinfrastructureupgrades, andintermittency of somerenewable sources.It’s clean,cost-effective,and providesenergy in ruralareas. Yes, smallwind turbinescan generateelectricity forresidential use.Energy fromorganicmaterials likewood, cropwaste, andanimal manure.

RENEWABLE ENERGY - Call List

(Print) Use this randomly generated list as your call list when playing the game. There is no need to say the BINGO column name. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.


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  1. It’s abundant, reduces electricity bills, and requires low maintenance.
  2. Batteries and other storage technologies store excess energy for use when generation is low
  3. High initial costs, intermittent availability (dependent on sunlight), and space requirements.
  4. It can be if managed sustainably, but burning biomass still releases CO₂.
  5. Solar panels convert sunlight into electricity using photovoltaic cells.
  6. No, but energy can be stored in batteries or supplemented with other power sources.
  7. Policies like subsidies, tax credits, and renewable energy mandates encourage investment and accelerate adoption.
  8. A system where excess solar energy is sent to the grid in exchange for credits on electricity bills.
  9. Biofuels are liquid fuels (like ethanol and biodiesel) derived from biomass, used for transportation
  10. Free!
  11. Wind is unpredictable, turbines can be noisy, and they may impact wildlife.
  12. High initial costs, location-dependent, and potential for induced seismic activity.
  13. It disrupts ecosystems, displaces communities, and is costly to build.
  14. A plant that generates electricity without large reservoirs, using natural river flow.
  15. With advancements in storage, grid management, and efficiency, a full transition is possible, but it requires large-scale investments and policy support.
  16. Wind turbines convert the kinetic energy of wind into electrical power.
  17. It reduces greenhouse gas emissions, decreases air pollution, and conserves natural resources.
  18. In tectonically active regions like Iceland, the U.S. West, and the Philippines.
  19. Heat from the Earth’s core used to generate electricity or for direct heating.
  20. It depends on water availability; low water levels reduce power generation
  21. It creates jobs, reduces reliance on imported fuels, and lowers long-term energy costs.
  22. Typically 30-50%, meaning turbines generate power at about 30-50% of their maximum potential over time.
  23. Water flows through turbines, spinning them to generate electricity.
  24. Hydropower is currently the largest source of renewable electricity worldwide.
  25. Uses waste materials, reduces landfill waste, and provides steady power.
  26. Yes, through geothermal heat pumps for heating and cooling.
  27. It’s reliable, produces no direct emissions, and offers energy storage (pumped storage).
  28. Can contribute to deforestation, air pollution, and require large land areas.
  29. Solar, wind, hydro, geothermal, and biomass energy.
  30. It reduces reliance on fossil fuels, decreases pollution, and mitigates climate change.
  31. Energy from natural sources that replenish over time, like sunlight, wind, and water.
  32. It’s reliable, has low emissions, and provides constant energy.
  33. The main challenges include energy storage, grid infrastructure upgrades, and intermittency of some renewable sources.
  34. It’s clean, cost-effective, and provides energy in rural areas.
  35. Yes, small wind turbines can generate electricity for residential use.
  36. Energy from organic materials like wood, crop waste, and animal manure.