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Enjoy better-tasting vegetables and herbs, along with more beautiful flowers, with a new sustainable agricultural solution that leverages the power of the sun. S.I.P. has come up with a design that uses a PV power source to connect with LEDs to make growing easier and more efficient.
This is one of the first birdfeeders with a custom-designed mechanism to release the feed with the bird’s peck. The bird feeder was put into the U.S. Patent to help with the loss of feed due to the environment. We custom-built two chambers, one to keep the birdfeed safe from the elements and to provide illumination at night, showing our interchangeable panels.
This shows our unique, environmentally safe birdhouse for nesting and breeding with another chamber using our light-trapping technology while not disturbing the birds.
One of the interchangeable panels developed for the birdhouse to release in numeric order a lighted logo. This was our first U.S. Patent to protect our wildlife and put some light in the night sky.
Shows our unique mailbox. We noticed with the development of this product that mailboxes were adding to climate change through heat. We used our thermal technology, which takes care of the heat problem, and added our interchangeable panels with custom sensors to indicate if the mail has arrived.
This picture shows a heat sensor gun pointed at the mailbox showing how hot the mailbox is at 11 a.m. in the morning.
This shows the doghouse that was developed with a lighted dog’s name and attached watering dish.
This shows the first time I captured the blue spectrum coming from the lightbox.
Shows basil germination in the environment.
Shows four days after germination in the environment .
Shows the final growth of basil in seven weeks in the environment, fighting pest problems.
Shows trying different grow shelters to keep pests out – test failed.
Shows aluminum under the grow trays introducing thermal to the test to enhance the growth but failed the pesticide problem. Also learned the black grow trays were drawing heat.
Shows the fast growth in herbs, strawberries, and flowers. I learned more about how to illuminate and accelerate growth.
Shows additional growth. This gave me the ability to understand the faster rate of growing herbs, strawberries, and flowers.
This was a teaching test with Monterrey Technical College in Monterrey, Mexico, showing the difference between the environment and the unit. This aloe plant is in the environment.
Teaching test with Monterrey Technical College in Monterrey, Mexico, showing the richness of the aloe plant in the thermal unit.
Teaching test with Monterrey Technical College in Monterrey, Mexico, showing trees, tomato plants, and succulents in the environment with pest bites and burning.
Teaching test with Monterrey Technical College in Monterrey, Mexico, showing the trees, tomato plants, and succulents in the thermal unit healthier, with faster growth, and no pests.
Houston Independent Grow Test. Showing no shadow in the thermal unit from the lightbox.
Houston Independent Grow Test. Showing all the meters, inverters, and batteries used in the unit, keeping them from corroding and impacting the environment.
Houston Independent Grow Test. Showing the oxygen holes in the buckets, which encourages faster growth and health of the plants.
Houston Independent Grow Test. As the designer of the unit, I went to Houston after speaking with the independent contractor to correct the colors within the unit. I removed all the colors from the unit except for white and thermal. All metal was also removed to prevent heat in the unit, and then the lightbox was able to advance the growth of the plants.
Teaching test with Monterrey Technical College in Monterrey, Mexico, showing the gutter attached to the unit. Green shows the unit is filtering the water for the plants.
Teaching test with Monterrey Technical College in Monterrey, Mexico, showing the same gutter attached to the unit. Blue shows that the water is being used to water the plants.
Agri-Grow Bio-Sorghum Test. Received seeds, planted, and this picture shows one inch of growth within five days
Agri-Grow Bio-Sorghum Test. 2 feet of growth within 22 days.
Produce planted on September 23rd and harvested on December 26 from plants within the unit with no pesticides, bug bites, or heat stress.
Showing plants in November before the harvest. We used only 50 gallons of water and left the light on 24/7.
Showing plants in December after the harvest, showing the plant’s health and a solar panel which our lighting apparatus is being set up to charge and introduce an energy loop system.
Meter showing humidity, weather conditions, and timing as we grow around the clock.
At the start of Energy & Agriculture, I started with Basil & Herbs as you see but I was fighting pests, I tried placing light in the greenhouse as long keep the light on they grow fast,
Succulent grew fast and healthy in the unit, but the environment they told more water and heat Oklahoma way to hot.
.jpg "Grow Test Lights")
.jpg "Environment vs Unit 1")
.jpg "Environment vs Unit2")
.jpg "Environment Grow vs Unit Vegetables")