Calculating Light Intensity from Sunlight for Solar Food Dehydrator

In summary, the formula for calculating light intensity from sunlight takes into account the elliptical orbit of the Earth and the attenuation by the Earth's atmosphere. However, for a solar food dehydrator project, it may not be necessary to do this calculation. The use of radiant energy is important in this field and it is recommended to research and utilize ideas from others who have already worked on similar projects. Suggestions for constructing a solar food dehydrator include using a wooden frame with glass walls, wire screens for trays, and solar-powered fans for air flow and temperature control. Additional inspiration and ideas can be found through a Google search for "sunlight radiant energy food dehydrator."
  • #1
paperboy91
1
0
Hi there,

im doing school project regarding Solar Food Dehydrator.
Can tell me what is the formula to calculate the light intensity from the sunlight?
 
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  • #2
Welcome to Physics Forums! You are entering into an area of science where the use of exact terms is absolutely necessary. You need to learn basic definitions in this field so that you can understand the processes and then communicate the scientific facts to others accurately.

To calculate the amount of sunlight reaching the ground, both the elliptical orbit of the Earth and the attenuation by the Earth's atmosphere have to be taken into account. http://en.wikipedia.org/wiki/Sunlight

For your project of dehydrating, however, it may not be necessary to do this calculation.

"The term "radiant energy" is most commonly used in the fields of radiometry, solar energy, heating and lighting, Radiant energy is one of the mechanisms by which energy can enter or leave an open system. Such a system can be man-made, such as a solar energy collector, or natural, such as the Earth's atmosphere."
http://en.wikipedia.org/wiki/Radiant_energy

One of the favorite sayings among engineers is "Don't spend time re-inventing the wheel." The idea applies to your project: search out what others have already done and use the best ideas suitable to your project. For example:

"Solar Food Dehydrator
The construction of a solar food dehydrator is not tremendously different than that of a solar box oven, with a wooden frame holding walls and a top made of glass for sunlight to get through to the food inside. The food to be dehydrated sits on trays made of wire screens, the tiny openings of which allow proper air flow to and through the food.
A dehydrator requires the presence of small, interior solar-powered fans to help the drying/aerating process and to keep the interior from becoming so hot that the food accidentally cooks."
http://www.ehow.com/list_6753580_solar-collector-projects.html

Google search terms that bring lots more suggestions: “sunlight radiant energy food dehydrator”
 

What is the purpose of calculating light intensity for a solar food dehydrator?

The purpose of calculating light intensity is to determine the amount of sunlight that will be available for the solar food dehydrator. This information is important for designing and building an efficient dehydrator that can effectively dry food using solar energy.

How is light intensity measured?

Light intensity is measured in units called lux. Lux meters are used to measure the amount of light that falls on a specific area. This measurement is important for determining the amount of solar energy that will be available for the dehydrator.

What factors affect the light intensity for a solar food dehydrator?

The amount of sunlight that reaches the earth's surface can be affected by various factors including the time of day, weather conditions, location, and season. These factors can impact the amount of energy that can be collected and used for the dehydrator.

What is the ideal light intensity for a solar food dehydrator?

The ideal light intensity for a solar food dehydrator is between 1000 and 2000 lux. This range of light intensity is considered optimal for drying food and can be achieved by placing the dehydrator in a sunny location with minimal shade or obstruction.

How can the calculated light intensity be used to improve the efficiency of a solar food dehydrator?

By accurately calculating the light intensity, the dehydrator can be designed and positioned in a way that maximizes the amount of sunlight it receives. This can help to improve the efficiency of the dehydrator and ensure that it is able to effectively dry food using solar energy.

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