Protecting stored grain - Digital monitoring sensors protect grain investments

F
or those who work in the grain industry,
battling the natural elements to grow
a bountiful crop is only half of the
challenge. Monitoring and maintaining
post-harvest grain stored in silos, flat
storage warehouses and piles is a difficult
process.
Although there are several factors to
consider, this potential difficulty can be
overcome with the right grain monitoring system in place.
Safe grain storage is essential for both large industrial grain
producers and local farm operations. Advanced digital grain
temperature, moisture and CO2 sensors help to protect grain
investments by continually monitoring stored grain conditions
and sending alerts when conditions change or fall outside of
desired parameters.
With this valuable data, facilities have the information needed
to ensure a stable storage environment to prevent spoilage and
unwanted growth in grain silos.
These solutions work to ensure superior product quality, prevent
losses and achieve a high return on investment for grain assets.
It is difficult to maintain a crop’s value after harvest. Stored grain
will change and deteriorate rapidly without proper handling. This is
especially true when conditions are less than optimal at harvest and
grain may not have been adequately dried prior to storage.
Sensor systems are designed to monitor and control storage
conditions and report temperature levels and moisture. This data
can be used to limit guesswork and make informed decisions.
Advanced software can provide information from multiple bins at
an operation and can improve the ability to optimise operation of
aeration fans.
Temperature cables help eliminate the estimation and
ambiguity involved with grain storage by monitoring the
temperature of grain using digital sensors encased in a rugged
cable. These cables are suspended from the roof in steel or
concrete grain silos, with the cable length depending on each
silo’s height.
The number of sensors encased in the cable depends on the
length of the cable. There are multiple sensors in each cable,
generally spaced six to 10 feet apart. Temperatures are reported
for each sensor in the cable, enabling better detection of
developing hot spots.
If temperatures begin to rise, the grain can be sold, moved or
blended to help optimise its value. Digital temperature sensor
technology offers precise readings and low maintenance over a
lasting life span.
Similarly, digital technology in moisture sensing cables helps
to accurately measure the ambient relative humidity at several
points in the grain bin. The data is used to calculate grain
moisture based on the Equilibrium Moisture Concentration
STORAGE
by Nicole Emanuel, BinMaster
PROTECTING STORED GRAIN
Digital monitoring sensors protect grain investments
62 | January 2016 - Milling and Grain
F

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(EMC) curve, which is when the grain’s moisture content
balances with the air in its environment over time.
The top sensor is located just under the silo’s roof to monitor
the relative humidity in the head space. Additional sensors are
located at high and low levels along the cable to detect the grain’s
moisture level. These digital sensors provide accurate moisture
measurements, which help control potential losses due to grain
shrinkage caused by a lack of moisture or grain spoilage related
to excessive moisture levels.
In most applications, a single moisture sensor cable will be
sufficient to monitor the grain moisture content of the entire silo
and avoid product waste.
Another method to detect grain spoilage and prevent unwanted
biologic activity is to monitor the carbon dioxide levels in silos.
An increase in CO2 gas can indicate unwanted biologic activity
that is caused by fungus, insects or other infestations in the grain.
As a gas, CO2 easily travels through grain mass and as a result,
can be detected at low levels. Spoilage detection at an early
stage increases the number of available options to confront this
problem and minimise losses.
Portable sensor lances used with handheld instrumentation can
also improve grain management in piles, flat storage warehouses
and other temporary structures that are used to store grain.
Grain is not always stored in bins or silos, but limiting grain
spoilage is still a priority. Portable sensor lances are an alternative
solution for temperature monitoring in flat storage warehouses,
piles or smaller storage sites. Digital sensors are packaged in
a compact, portable spear that is easily inserted into the grain
where temperature readings are needed.
To monitor changes in grain temperature over time, the
lances can be left in place. The lances connect to a portable
handheld reader where data for several lances can be viewed and
transferred to computer software.
External weather conditions are also a factor in grain storage
and its longevity. A weather station that monitors conditions
outside of the bin can provide valuable information to ensure
aeration fans are run when they will provide the most benefit.
Safe storage practices allow for crops to be stored for a longer
amount of time in silos, warehouses or piles with reduced
spoilage, shrinkage or quality loss.
Weather stations provide rapid information about the ambient
temperature and air moisture in grain silos that is precise and
STORAGE
Crop-Protector™
Dashboard Manager
software displays all
the grain storage and
monitoring data
Temperature
cables are
suspended
from the roof
to monitor
temperature
in grain bins
Data from
the weather
station and
moisture
cables is used
to control
aeration fans
and roof vents
Milling and Grain - January 2016 | 65
F

reliable. Weather conditions, such as rain, freezing temperatures
and sunrise determine when and how long aeration fans should
run to maximise the grain’s market potential and protect the value
of the crop.
The information from weather stations helps secure grain
investments, but is also used for more efficient aeration control
and integrated with automated aeration control software.
Hotspots and mold can become problems for grain that has a
higher moisture content and is at warmer temperatures. Aeration
control software works with the weather station to activate or
deactivate aeration fans, in order to create a climate inside the bin
that helps maintain the condition of the grain.
Only running the aeration fans when they are necessary will
also increase efficiency, reduce operational costs, save on energy
bills and prevent grain shrinkage, especially in industrial size
grain operations where multiple aeration fans are active.
Large facilities utilise a combination of different stored grain
control solutions throughout several silos. The data from each
sensor and silo is displayed clearly on a PC or touch screen
offering easy accessibility and networking capabilities.
Comprehensive data gives an overview of grain temperature,
grain moisture, weather data and approximate grain level, among
other detailed information. With wireless technology, information
can be accessed via smartphones, tablets, computers or other
devices for managers to monitor and control grain storage.
The software also features programmable alerts, so that
grain facility managers can receive real-time data about the
conditions of their silos and act quickly to prevent further grain
spoilage. Staying up to date with the conditions of grain storage
warehouses, piles and silos can be the difference between solving
problems and losing product.
After receiving an alert, prompt responses mean more
operational options are available as solutions. One option to
manage the data from multiple sensors and multiple silos is
through Crop-Protector™ Dashboard Manager Software.
BinMaster offers Crop-Protector™ Dashboard Manager
Software, and other grain monitoring products, through their new
strategic alliance with Eye-Grain of Denmark. Crop-Protector™
products have already been successfully applied in Europe,
Asia and Africa and will now be offered in the North and South
American markets exclusively by BinMaster.
These innovative post-harvest grain storage systems benefit the
industry on all levels, from major industrial customers to local
farmers. BinMaster will manufacture, sell and service the Crop-
Protector™ product line from its facility in Lincoln, Nebraska,
USA.
Crop-Protector™ and other similar products work to simplify
post-harvest grain storage and remove the guesswork by
implementing safe grain storage systems. The grain industry
is moving beyond analog to advanced technology, integrating
digital sensor systems, such as temperature and moisture cables
and portable temperature lances. These monitoring systems offer
accurate readings that help grain operators manage the conditions
of their stored grain.
Real-time data and convenient options for a detailed display
of the conditions in grain silos, storage warehouses and piles
increase efficiency at grain facilities.
The information from stored grain monitoring systems better
equips grain facility managers to make the best decisions in
regards to grain storage and handling. Informed decisions can
lead to improved grain management and increased profits. In
the grain industry, there are always variables that cannot be
controlled. However, monitoring the conditions of stored grain
does not have to be one of them.
Digital sensor solutions provide the information that keeps grain
workers in control.
STORAGE
F

Tornum is an international grain facility with a development and
manufacturing base in Sweden.
As producers, developers and designers of high-quality grain
handling systems and vast experience they have evolved into a
market-leading global supplier.
Production occurs in their factory in Kvänum, Sweden, where
the focus is on quality and flexibility.
Over the years Tornum has developed a long-standing and
successful cooperation with LPKS Latraps. LPKS Latraps is a
cooperative and one of the biggest agricultural companies within
the Baltic countries.
The relationship between Tornum and LPKS Latraps began in
2006 and has since seen the delivery of six projects. In 2015 a
contract was signed for a further two new projects.
The first project is an extension on the grain intake capacity on
the LPKS Latrap’s main grain plant in Eleja.
The second is a completely new plant in order to increase the
grain handling capacity and market share of LPKS Latrap, the
site of this project is in Aizkraukle of Eastern Latvia.
The Eleja plant
The Eleja plant was delivered in three stages from 2006 to
2008. Consisting of Tornum’s heat recover dryer, TK6-28-3 with
cyclofans, a PLC operation system, 220-tonnes per hour Damas
Sigma cleaner and a 200-tonnes-per-hour Skandia conveying
system and another offering 250-tonnes-per-hour. The storage
volume of this plant is 36000m³.
The recent edition to the Eleja plant was installed throughout
2014 and 2015 is now completed and ready for the intake of
malting barley. The expansion included a new Tornum heat
recovery dryer TK6-28-3 with Tornum clean air control fans,
a PLC operating system, 220-tonnes-per-hour Damas Sigma
cleaner and a 200-tonnes per hour, and two Skandia conveying
system offering 150 and 250-tonnes-per-hour.
This plant offers an additional 15500m³ of storage volume
through the utilisation of round silos.
The Aizkraukle plant
A complete plant delivery has been underway throughout 2015.
When complete the Aizkraukle site will have two TK6-20-
4 Tornum dryers with LPG burners. Two pre-cleaners with
aspiration systems. A conveying system with a capacity of
100-tonnes-per-hour.
It will allow for total storage of 17000 tonnes, six silos for
wet grain and 12 for dry grain. Within the plant there are two
reception pits for trucks and railway.
The plant is widely controlled by computer, enabling
monitoring of temperature throughout. Grain flow is flexible,
capable of shifting material from any pit or dryer to any silo on
the site.
Storage project
Two new projects for LPKS Latraps
STORAGEF

STORAGE
New rice warehousing
proposals from Cambodia
The Cambodian Ministry of Commerce has revealed it’s plans
for a state-run rice warehousing project to increase rice storage
facilities within the country.
On December 29, 2015 at the Minister of Commerce for
Cambodia, H.E. Sun Chanthol, met with a Chinese delegation
to discuss the construction and operation of a new warehousing
system, which it is hoped, will result in increased rice exports to
China.
The delegation included: Mr Winston Wang, Chairman of
Chongqing Grain Group, Mr Yu Yang, Chairman of Chongqing
Foreign Trade and Economic Cooperation (Group) and Mr He
Sili, Vice General Manager of Guangdong Foreign Construction
Co Ltd and was supported by Mr Song Xiaoguo, the Economic
and Commercial Counselor of the Embassy of the PRC.
Minister Sun expressed great support for the project, introducing
Green Trade, Trade Promotions and the Domestic Trade
Departments for cooperation and support on behalf of the
Ministry of Commerce.
F Storage News
Norwood and Company
We also offer a large variety of new and
used grain equipment to help meet your needs
DESIGN
EXPAND
REPAIR
BUILD
www.norwoodandco.com
Fred Norwood, President; Tel: +1 405 834 2043
Brandon Norwood, Vice President; Tel: +1 785 822 4109
Contact us on:
With four generations of experience in the grain, feed,
flour milling and wood industries our family would be
more than happy to help you design, build, repair or
expand any new or existing grain facilities
norwood_hp.indd 1 10/02/2015 17:30

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13210 Villarta de San Juan • Ciudad Real- Spain
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T: +34 91 726 43 04 • F: +34 91 361 15 94
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Protecting stored grain - Digital monitoring sensors protect grain investments