Liu BINJIANG, et al. : ElectroCulture & ElectroHusbandry
-- Articles & 5 patents


  
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**Liu BINJIANG*, et al.***  
**ElectroCulture & ElectroHusbandry**



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[**https://www.scmp.com/news/china/science/article/2164365/electric-plants-powering-chinas-new-agricultural-revolution**](https://www.scmp.com/news/china/science/article/2164365/electric-plants-powering-chinas-new-agricultural-revolution)

**China is making its vegetables grow bigger,
faster and stronger ... using electricity**  
*Scientists hail breakthrough as results of the worldas
largest experiment confirm fruit and vegetable output can soar
without chemical pesticides and fertilisers*  
**by Stephen Chen**

  
Chinese growers have the answer to a question that has been
baffling scientists for three centuries: Can electricity boost
plant growth?  
  
To find out, China has been conducting the worldas largest
experiment and the results are transforming agricultural
production in the worldas most populous nation with a jolt.  
  
Across the country, from Xinjiangas remote Gobi Desert to the
developed coastal areas facing the Pacific Ocean, vegetable
greenhouse farms with a combined area of more than 3,600 hectares
(8,895 acres) have been taking part in an aelectro culturea
programme funded by the Chinese government.  
  
Last month the Chinese Academy of Agricultural Sciences and other
government research institutes released the findings of nearly
three decades of study in areas with different climate, soil
conditions and plantation habits. They are hailing the results as
a breakthrough.  
  
The technique has boosted vegetable output by 20 to 30 per cent.
Pesticide use has decreased 70 to 100 per cent. And fertiliser
consumption has dropped more than 20 per cent.  
  
The vegetables grow under bare copper wires, set about three
metres (10 feet) above ground level and stretching end to end
under the greenhouse roof. The wires are capable of generating
rapid, positive charges as high as 50,000 volts, or more than 400
times the standard residential voltage in the US.  
  
The high frequency electricity kills bacteria and
virus-transmitting diseases in the air or soil. It also suppresses
the surface tension of water on leaves, accelerating vaporisation.  
  
Within the plants, the transport of naturally charged particles,
such as bicarbonate and calcium ions, speed up and metabolic
activities, like carbon dioxide absorption and photosynthesis,
also increase.  
  
Professor Liu Binjiang, government agriculture scientist and a
leading member of the project, said the electric current flowing
through the wires is only a few millionths of an ampere by volume
a lower than a smartphone cableas workload.  
  
aIt does absolutely no harm to the plants or to humans standing
nearby,a he said.  
  
Thanks to the positive findings of the study, the area devoted to
electrified farms in China is now growing with unprecedented
speed, according to Liu, from 1,000 to 1,300 hectares each year.  
  
That means up to 40 per cent growth in electro culture farming
could be achieved within the next 12 months.  
  
aMost recent investments have come from the private sector,a Liu
said. aThe business is taking off. We are supplying the technology
and equipment to other countries including the Netherlands, United
States, Australia and Malaysia.  
  
aChina is a step ahead of the world.a  
  
**THE HISTORY**  
It was not always so. In fact, China was more than 200 years late
to the game.  
  
In 1746, just a few years before Benjamin Franklin sent a kite to
catch lightning in a storm, Dr Maimbray of Edinburgh in Scotland
electrified two myrtles.  
  
He observed the trees put forth new branches in October, something
which had never happened before.  
  
The news travelled. Many similar studies were carried out across
Europe, some confirming Maimbrayas findings, others not.  
  
One experiment in Turin, Italy, for instance, found the plants
became unfruitful and wilted after an unusually prolific period.  
  
In 1902, physics professor S. Lemstroem visited the Arctic region
and discovered some trees grew faster under the aurora borealis
than those in milder climates further south.  
  
Lemstroem attributed the phenomenon to the natural electrical
conditions produced by the aurora, also known as the northern
lights. He conducted a series of experiments in the laboratory to
prove it and even wrote a book to promote his hypothesis.  
  
British physicist Sir Oliver Lodge, a key inventor in the
development of radio, read the book and reportedly achieved a 24
to 39 per cent increase in wheat grain yield in an eight-hectare
experiment.  
  
It caught the attention of governments. The British and American
authorities each commissioned separate studies on electro culture
in the early 20th century.  
  
The British findings were positive, while the American results
were negative.  
  
These experiments were mostly small and conducted in open fields,
with conditions which varied from one location to another. The
wide range of natural elements affected the final output and there
was no universal standard for hardware design or technical details
such as voltage and frequency.  
  
The scientists in these pioneering studies also lacked advanced
equipment, such as todayas portable spectrum analyser, to study
the plantas response to electricity at the molecular level.  
  
As a consequence, explanations of the observed phenomenon remained
speculative and interest waned with the advent of chemical
fertilisers and pesticides to achieve mass agricultural
production.  
  
**CHINA TAKES THE LEAD**  
Public interest in electro culture revived with the rise of
organic farming and the Chinese government started funding
experiments in the technique in 1990.  
  
He Feng, senior technician of Yufa Jingnan Vegetable Production
and Sales, one of Beijingas largest vegetable producers, said the
company had taken part in the programme since 2014 and the results
were avery satisfactorya.  
  
In just two years the electrified vegetables had brought in extra
revenue of nearly 1.2 million yuan (US$175,000).  
  
aWe are still running the equipment, which consumes very little
power,a he said.  
  
One hectare of electrified greenhouse requires about 15
kilowatt-hours of electricity per day, which is about half the
power usage of an average American family.  
  
Inside the greenhouse the air smells like the aftermath of a
summer thunderstorm. Humidity is low and the plants rarely get
sick.  
  
The biggest burden is the installation cost, He said, with the
necessary hardware costing tens of thousands of yuan. Without
government support, the company could not have afforded to wire up
all its greenhouses.  
  
Liu Yongyi, owner of City Luhai Xinghua Sightseeing Agriculture
company in Beijingas Daxing district, which is also engaging in
electro culture, said the technology would significantly improve
Chinaas food safety by massively reducing the use of pesticides.  
  
aPesticide residue is a huge threat to public health. Electricity
provides a physical solution to disease and pest control. It is
much cleaner than chemicals. The government should subsidise the
electro culture revolution,a he said.  
  
Liu said visitors to the farm were intrigued when they saw the
system at work and he believed the public would be quick to
embrace the technology.  
  
aThe theory is easy to understand. I believe people would be
willing to pay a premium for electrified vegetables and fruits in
the near future,a he said.  
  
Professor Guo Yalong, a researcher at the Chinese Academy of
Beijingas Institute of Botany, said the impact of electricity on
plant adefinitely existsa.  
  
aElectricity is like air and water. It is part of the natural
environment,a said Guo, who was not involved in the project.  
  
aMany ionised particles in plants have either negative or positive
charges. They can respond to the presence of a man-made electric
field nearby,a he said.  
  
China has greenhouses covering more than 4 million hectares,
producing nearly 1 trillion yuan worth of vegetables each year.  
  
Professor Liu said there were no plans to electrify them all, as
the investment would be unaffordable for most farmers.  
  
His project team is taking a different approach and developing a
compact, all-in-one vegetable growing chamber using electro
culture technology.  
  
aEach family would be able to grow their own food in the kitchen,
on the balcony or in the backyard,a he said.  
  
The chamber uses an artificial light source and electric field to
stimulate plant growth and prevent diseases. Operation is
automatic and almost care and maintenance free.  
  
aOne day these tiny chambers may become an alternative to large
scale farms,a Liu said. aThat would trigger another agricultural
revolution.a  
  

![](binjiangelcult.jpg)   ![](pigelectrobarn.jpg)

  


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[**https://www.newscientist.com/article/mg24332440-800-inside-chinas-attempt-to-boost-crop-yields-with-electric-fields/**](https://www.newscientist.com/article/mg24332440-800-inside-chinas-attempt-to-boost-crop-yields-with-electric-fields/)

**Inside China's attempt to boost crop yields
with electric fields**  
*In greenhouses across China, scientists are exposing lettuces
and cucumbers to powerful electric fields in an attempt to
make them grow faster. Can electroculture work?*  
**by Donna Lu and David Hambling**

  
AT FIRST blush, the huge commercial greenhouse on the outskirts of
Beijing doesnat seem unusual. Inside, lettuces sit in neat rows
and light pours in through the glass above. But there is a soft
hum and an intense feeling in the air, almost as if a thunderstorm
is on the way. The most obvious sign that this is no ordinary
growing space is the high-voltage electrical wiring strung over
the crops.  
  
This place may be different, but it is far from unique. Over the
past few years, greenhouses like this have sprouted up across
China, part of a government-backed project to boost the yield of
crops by bathing them in the invisible electric fields that
radiate from power cables. From cucumbers to radishes, the results
are, apparently, incredible. aThe overall quality is excellent,a
says Liu Binjiang, the lead scientist on the project. aWeare
really entering a golden age for this technology.a  
  
Using electricity to boost plant growth a not by powering heaters
or sprinkler systems, but simply by exposing plants to an electric
field a is an old idea. It is also controversial. Electroculture
was tested in Europe many decades ago and found wanting, with the
results too inconsistent to be any use. The mechanism was also
mysterious: no one knew how or why electric fields might boost
growth. So what exactly is going on in Chinaas new greenhouses?
Can you really improve agriculture through the power of electric
fields a and if so, how?  
  
It was Finnish physicist Karl Selim LemstrAPm who introduced the
world to the idea of electroculture in the a|  
  
**&c...**   


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[**https://www.scmp.com/news/china/science/article/3043280/chinas-electrifying-idea-stop-african-swine-fever-high-voltage**](https://www.scmp.com/news/china/science/article/3043280/chinas-electrifying-idea-stop-african-swine-fever-high-voltage)

**Chinaas electrifying idea to stop African
swine fever: a high-voltage pigsty**  
*Researchers to wire up pens for 2,000 pigs
and generate an electric field they believe can kill germs*  
*A farm in central China that previously
conducted the experiment reported no cases of swine fever*  
**by Stephen Chen**

  
Scientists are planning a high-voltage electricity experiment at a
farm in southwestern China to create cleaner conditions for
animals and explore whether doing so could help halt the African
swine fever  
pandemic.  
  
Cables will be installed around pens housing about 2,000 pigs to
create an electric field a an invisible force surrounding an
electric charge a which the scientists believe will purify the
air. They aim to test whether a method already believed to improve
animal welfare can restrict the spread of the pandemic, which has
decimated Chinaas hog herd.  
  
The experiment will be conducted at a medium-sized hog farm in
Chengdu, in Chinaas largest pig-rearing province, Sichuan.  
Led by Professor Liu Binjiang, a government scientist in
northeastern China, it was inspired by Liuas work on a national
aelectro culturea  
programme that has been shown to benefit crops by using a
combination of electric field and artificial lighting to stimulate
plant growth and reduce diseases.  
  
This time, Liu and collaborators will generate a static electric
field of 50 kilovolts a more than 400 times the voltage in a
standard US household plug.  
  
They believe the high-voltage discharges could break down
chemicals such as ammonia that generate unpleasant odours, reduce
biological aerosol by 50 to 90 per cent, kill germs and generate
negatively charged particles in the air that bind to air-polluting
chemicals and make them harmless.  
  
Despite the high voltage, the volume of electrons in the cable
will be extremely low, at about 1 microampere, producing an
electric field that would not be harmful to animals or staff,
according to the researchers.  
  
Pig pens are to be wired with cables and dischargers to generate
an electric field, which is believed to purify air. Photo:
Professor Liu BinjiangPig pens are to be wired with cables and
dischargers to generate an electric field, which is believed to
purify air. Photo: Professor Liu Binjiang  
Pig pens are to be wired with cables and dischargers to generate
an electric field, which is believed to purify air. Photo:
Professor Liu Binjiang  
Scientists are planning a high-voltage electricity experiment at a
farm in southwestern China to create cleaner conditions for
animals and explore whether doing so could help halt the African
swine fever  
pandemic.  
  
Cables will be installed around pens housing about 2,000 pigs to
create an electric field a an invisible force surrounding an
electric charge a which the scientists believe will purify the
air. They aim to test whether a method already believed to improve
animal welfare can restrict the spread of the pandemic, which has
decimated Chinaas hog herd.  
  
The experiment will be conducted at a medium-sized hog farm in
Chengdu, in Chinaas largest pig-rearing province, Sichuan.  
Led by Professor Liu Binjiang, a government scientist in
northeastern China, it was inspired by Liuas work on a national
aelectro culturea  
programme that has been shown to benefit crops by using a
combination of electric field and artificial lighting to stimulate
plant growth and reduce diseases.  
  
This time, Liu and collaborators will generate a static electric
field of 50 kilovolts a more than 400 times the voltage in a
standard US household plug.  
  
They believe the high-voltage discharges could break down
chemicals such as ammonia that generate unpleasant odours, reduce
biological aerosol by 50 to 90 per cent, kill germs and generate
negatively charged particles in the air that bind to air-polluting
chemicals and make them harmless.  
  
Despite the high voltage, the volume of electrons in the cable
will be extremely low, at about 1 microampere, producing an
electric field that would not be harmful to animals or staff,
according to the researchers.  
  
aThe air quality [for the pigs] should improve when the device is
powered up,a Liu said. aElectricity is one of the many ways to
improve living conditions for farm animals. We have a long to-do
list.a  
  
When the high-voltage electricity was used to improve air quality
at a farm in central Chinaas Hubei a one of the provinces hit
worst by African swine fever a none of its pigs died from the
virus, according to Liu.  
  
Electrifying pig farms to create force fields that scrub the air
of deadly viruses could be the next big breakthrough China needs
to restrict the spread of ASF.  
  
It had been deployed to enhance animal welfare and prevent
airborne diseases such as foot and mouth, but the lack of African
swine fever cases was a surprise. It led the team to hypothesise
that the electric field had caused a change in the environment
that prevented the virus thriving.  
  
The deadly African swine fever pandemic has tended to spread more
easily among pigs living in dirty, unhealthy conditions, according
to some studies.  
  


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**PATENTS**

[**https://worldwide.espacenet.com/patent/search/family/034148888/publication/CN2609910Y?q=in%20any%20%22Liu%20Binjiang%22&queryLang=en**](https://worldwide.espacenet.com/patent/search/family/034148888/publication/CN2609910Y?q=in%20any%20%22Liu%20Binjiang%22&queryLang=en)  
****Inventors: LIU BINJIANG, et al.****

**CN2609910**  
**Electric purifying aseptic sterilizing device for animal
house**

****[ [PDF](CN2609910binjiangelectrobarn.pdf) ]****

**Abstract**  
The utility model relates to an electric purifying aseptic
detoxicating device for a livestock and poultry house, which can
purify air and kill pathogenic microorganisms in the air and on
the object surfaces in the livestock and poultry house at any
time, and is characterized in that the electrode net which
consists of a main supporting insulator, an auxiliary supporting
insulator, a high voltage electrode wire and an ozone generating
assembly, and is suspended above the inner space of the livestock
and poultry house is supplied with power through a direct high
voltage power supply which is controlled by a time controller.
Therefore, a space direct corona electric field is formed by the
electrode net, the ground surface of the livestock and poultry
house and the building structural surfaces, and meanwhile, the
electrode net discharges electric power into the air and produces
high energy charged particles and ozone. The space direct corona
electric field, the high energy charged particle and ozone
simultaneously purify and sterilize the dust carrying germ and
virus, flying foam in the air and pathogenic microorganisms on the
surfaces of solid and liquid medium in the livestock and poultry
house.  
  

**CN202011770**  
**Electric treatment device for cultivation water body**

****[ [PDF](CN202011770elculture.pdf)
]****

**Abstract**The utility model discloses an electric treatment device for a
cultivation water body, which is provided with a shell, wherein a
first electrode with the two ends connected with the shell is
arranged on a center line of the shell; a first electrode contact
is arranged at one end of the first electrode; a second electrode
fixed on the inner wall of the shell is sheathed at the middle
part of the first electrode; a second electrode contact
penetrating through the shell is connected with the second
electrode; and a water inlet and a water outlet are respectively
arranged on the shell at the two ends of the second electrode.
Injurious protozoa or large living beings in the cultivation water
which enter the shell by circulation can be killed instantly with
the insect-killing efficiency of 100%, thereby ensuring that no
bacteria and insects live in the whole pond. The electric
treatment device for the cultivation water-body does not need
aeration treatment and the like and has the advantages of simple
structure, convenience in use, good sterilizing and insect-killing
effect, low treatment cost of the water body and the like.  
  

**CN102167426A**  
**Electric treatment device for culture water body**  
****[ [PDF](CN102167426elculture.pdf) ]****

**Abstract**The invention discloses an electric treatment device for
culture water body. The device comprises a shell; the center line
of the shell is provided with a first electrode of which two ends
are connected with the shell; one end of the first electrode is
provided with a first electrode contact; a second electrode which
is fixed on the inner wall of the shell is sleeved in the middle
of the first electrode; a second electrode contact which passes
through the shell is connected with the second electrode; and the
shell of two ends of the second electrode is provided with a water
inlet and a water outlet. The device can instantly kill harmful
protozoa or large-scale organisms of the culture water which
circularly enters the shell and guarantee the water in the whole
pond can be sterile, and the insect killing efficiency is 100
percent. In the device, aeration treatment and other treatment are
not needed, and the device has the advantages of simple structure,
good sterilization and insect killing effect, low water treatment
cost and the like, and is convenient to use.  
  

**CN1833479A**   
**Electrical treatment method and appts for soil continuous
prodn obstacle**  
****[ [PDF](CN1833479soilelectrif.pdf) ]****

**Abstract**An electric treating method for getting over the continuous
cropping obstructions of soil, such as infectious diseases and
pests, the harmful substances including organic acid and high pH
value, features that two electrodes connected to the positive and
negative ends of power supply respectively are parallelly and
oppositely buried in the soil whose water content is 5-40% and a
voltages is applied across them for electrolyzing the soil. Its
apparatus features that the positive end of the second winding of
a transformer is connected via diode to one electrode and its
negative end is directly connected to another electrode.  
  

**CN2917839Y**   
**Soil sequential cropping obstacle electricity treating plant**  
**[ [PDF](CN2917839soilelx.pdf) ]**

**Abstract**The utility model discloses a continuous cropping obstacle
electric processing device for the soil. The utility model is
provided with a transformer B and is characterized in that: the
secondary positive terminal of the transformer B connects with an
electrode (1) via a diode D, the negative terminal of the
transformer B connects with an electrode (2). By adopting the
method, the device may get rid of the soil-borne diseases, and
organic acids and harmful matters excreted by root system, and
continuous cropping obstacles such as quite high PH valve of the
soil.  
  


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