Grains Per Pound
6 Points Cannabis Growers Need to Know
Cannabis growers need to understand Grains per Pound (GPP) when they grow cannabis, since GPP is one of properties to help adjust and optimize the humidity and temperature for the indoor cannabis environment.
What is Grains Per Pound
Grains Per Pound (GPP) is a unit to measure the moisture in the air, and the moisture measurement is based on the weight of dry air. The number of grains per pound of dry air expresses the specific humidity.
So, GPP in cannabis growing presents the actual weight of the water in a pound of dry air.
Along with dew point temperature and relative humidity (%RH), it is one of the most commonly-used measurements of air moisture.
As you can imagine, this information is an invaluable resource to allow for adjustments in order to optimize the cannabis growth environment. With that in mind, the aim of this article is to provide a comprehensive overview of what GPP means, how it is calculated, and how useful it can be as a resource for indoor cannabis growers.
It would help you find the right dehumidification system by measuring the actual moisture of a grow room.
Grains Per Pound VS. Relative Humidity (%RH)
Relative humidity is a measure of the percentage of water present in the air - "how much moisture in the air" VS "how much moisture the air can hold at a drybulb temperature". While the GPP is a measurement of the specific weight of the moisture in a pound of air. That is why %RH is referred to as “relative” as opposed to the "absolute" nature of GPP.
You could find more POSTs about "Relative Humidity"
How does GPP Come to be Used for
GPP was not used to measure moisture before, here we have to mention the unit “grains”.
The use of grains as a measurement has its origins all the way back in the Bronze Age, when it referred to literal grains of wheat or barley. According to Wikipedia, we can see
Next, we will use two infographics to get you understand the history and current use of grais, and grains per pound. The first info graphic tells you the history and development about the use of "grains". The second info graphic lets you know the current usage of Grains Per Pound. Click to open full size image
Grains per Pound gained its currentdefinition in 1959. These days it is a wholly inflexible and accurate measure. The International Yard and Pound agreement standardized it at its current rate:
1 grains = 64.7989 mg
1 mg = 15.4324 grains
1 pound = 7000 grains
5 Reasons Growers Need to Know the GPP
Grains Per Pound (GPP) measures the actual moisture in the air, an accurate GPP measurement allows growers to gauge the actual indoor humidity of a grow room.
It allows growers to know the exact amount of moisture in their grow rooms, and helps them to choose the right equipment at different stages.
5 illustrations can conclude GGP's role in cannabis growing.
Visualize Environmental Control
Such as why heated air can hold more moisture or, conversely, how allowing moist air to cool will result in condensation.
Diagnose Environmental Problems (Humidity and Air Temperature)
A rule of thumb for inside typical greenhouses during winter conditions is that a 10°F rise in air temperature can decrease relative humidity 20 percent. For example, to decrease relative humidity in a winter greenhouse during a critical time period, we could heat the air.
Find Solutions to Indoor Growing
A GPP Chart presents properties of air in a graphical format, very useful for troubleshooting greenhouse or livestock building environmental problems.
Optimize the Cannabis Growth
Grains per Pound is helpful to adjust and optimize the cannabis growth environment. As such, the value of the GPP figure can be used to determine the actual humidity of a grow room.
GPP indicates whether dehumidification needs to take place, or whether humidity needs to be increased to ensure optimum moisture levels for plant growth at different conditions – a sealed grow room, lights on/off mode, and ventilation.
Especially, excess humidity can cause the growth of mold, bud rot and other harmful pathogens.
IF YOU WANT TO LEARN MORE ABOUT "BUD ROT"
Grains Per Pound Measuring & Calculation
In Chapter 2 we know, if we understand Psychrometrics Chart, it is easy for us to understand GPP, and know how we could optimize indoor humidity and temperature.
Psychrometrics Chart (also called Enthalpy Moisture Chart) is the technical term given to study moisture levels in the air. See two figures below:
Grais of moisture/water is commonly used in Psychrometrics. The variables for the charts are the air temperature (the dew point saturation temperature) and the relative humidity.
Grains Per Pound is the point at Air Temperature and Relative Humidity intersect.
Therefore, we have the following tables:
Above table is the GPP (Grains of Moisture per Pound of Dry Air) at standard atmospheric pressure at RH from 10% to 90% in °F and °C.
The one below is same in "Pounds of Moisture per Pound of Dry Air" at same condition.
Watch the video to see how to measure the moisture in the air
Psychrometrics and How to Read & Draw
As mentioned previously, “psychrometry” is the technical term given to the study of moisture levels in the air. Therefore calculating GPP requires use of a psychrometric chart.
The variables which will serve as axes for the psychrometric chart are the temperature of the air and the relative humidity, the intersection of these two variables provides the grains per pound.
This video will help you to understand GPP and how to read it from a psychrometric chart.
Calculating the value of moisture grains per pound of dry air might initially seem like a complex procedure.
However, with the right materials it is in fact a simple process.
8 points you need to know about Psychromrtric chart.
- Dry Bulb Temperature
- Specific Humidity
- Dew Point Temperature
- Wet Bulb Temperature
- Relative Humidity
- Specific Volume
- Vapor Pressure Lines
YOU CAN WATCH THE VIDEO ABOUT DRAWING PSYCHROMRTRIC CHART
The Role of Psychrometrics in HVAC
An HVAC technology website states, “It is the heart of all Heating, Ventilating and Air Conditioning (HVAC) system design.”