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Our Environmental Contribution is your Environmental Contribution

Pollution created by discarded batteries of all types can damage the environment. Alkaline batteries, in particular, contain electrodes composed of manganese dioxide and zinc, along with potassium hydroxide, a highly corrosive electrolyte. In landfills, discarded batteries corrode and allow these materials and heavy metals to leak into soil and underground water tables. This hazardous waste poses a threat to marine life and humans as well, due to its reactive nature. When corrosion allows these elements to mix with other hazardous waste, potentially dangerous chemical reactions can occur.

According to Duracell.com, “Thermal decomposition of alkaline batteries may produce hazardous fumes of zinc and manganese” as well as “caustic vapors of potassium hydroxide and other toxic by-products.” Duracell adds that “damaged batteries will release concentrated potassium hydroxide, which is caustic.” In addition, exposure to the chemicals in alkaline batteries can “cause eye and skin irritation, severe burns and respiratory problems.”

Batteries are dumped at an alarming rate. Every 100 flashlights that use two D-size batteries represent over 60 pounds of this potentially toxic waste finding its way into our landfills and water supplies. And this is not a one-time occurrence; this represents the toxic waste produced every time 100 battery-operated flashlights, each containing two D-cell batteries, burn for 10 hours. Conversely, for every 10 hours of use, 100 Hybrid Solar Lites that replace 100 battery-operated flashlights prevent over 60 pounds of toxic waste from polluting our environment and threatening the health of our communities.

Hybrid Light products are packaged in recycled pressboard and PET (the plastic used in bottled water), both of which are 100% recyclable. We arrange our interior packaging kiosks, lights, and pallets to make the most of shipping space in our cargo containers. This allows us to limit the number of containers shipped and, thus, reduce our carbon footprint.

Hybrid Solar Light 120
Yearly Cost Savings Analysis

Operation cost for a single “C” size flashlight:

*Cost of “C” cell battery approximately $1.00/ea *4-C battery light = $4.00 battery cost per battery life cycle *4-C battery lifecycle = 5 hours or $0.80 cents/hour *Light use of 5 hrs./week x $0.80 cents = $4.00/wk. or $208.00/yr. *Light use of 2 hrs./week x $0.80 cents = $1.60/wk. or $83.20/yr.

Operation cost for a single “D” size flashlight:

*Cost of “D” cell battery approximately $1.00/ea *4-D battery light = $4.00 battery cost per battery life cycle *4-D battery lifecycle = 10 hours or $0.40 cents/hour *Light use of 5 hrs./week x $0.40 cents = $2.00/wk. or $104.00/yr.
· Light use of 2 hrs./week x $0.40 cents = $0.80/wk. or $41.80/yr.

Yearly cost based on use of 100 flashlights per location:

*“4-C”flashlight use of 5 hrs/wk = $20,800.00 (20,800 batteries consumed) *“4-C” flashlight use of 2 hrs/wk = $8,320.00 (8,320 batteries consumed) *“4-D” flashlight use of 5 hrs/wk = $10,400.00 (10,400 batteries consumed) *“4-D” flashlight use of 2 hrs/wk = $4,180.00 (4,180 batteries consumed)

Approximate cost of 100 Hybrid Solar Lite 120 = $1,499.00 (no batteries)

*Costs incurred on batteries will triple by year 3 when $20,800 has multiplied to $62,400.00 *Hybrid Light Solar Flashlights incur no additional cost and are guaranteed for life