What is Moisture?
Moisture refers to the presence of a liquid in trace amounts. Generally, moisture is directed with water when small amounts of water may be found in different aspects. Moisture can also vaguely refer to the water vapor present in the air. The tiny droplets of water can be in the air on a surface or in the ground. Moisture can vaguely represent anything that moistens, that is, makes something damp or wet due to fluids in small quantities.
What is humidity?
Humidity specifically refers to the amount of water vapor present in the air. If there is a lot of water vapor in the air the humidity levels will be high and if there is very less water vapor in the air the humidity levels will be low. The higher the humidity, the wetter the air feels as naturally, there is more water present.
Relative humidity refers to the amount of water vapor actually present in the air, expressed as a percentage of the maximum amount of water vapor the air can hold at the same temperature.
People generally sweat in areas of high humidity as the sweat is not absorbed by the surrounding air since it is already saturated. Humidity also gives rise to mould and can cause malfunction in household items like electronics. Living with humidity can be made easier with the aid of a dehumidifier, which sucks moisture out of the air.
Humidity vs Moisture:
Humidity simply refers to the vapor content measurement when the liquid is in the for of a gas, while moisture refers to the content of the solution when it is in liquid state.
If the air in an environment reaches a state of saturation in humidity which refers to the state in which the air can not absorb any more water in gas state, the water will condense into tiny drops that create mist, fog and clouds which are in the form of moisture.
Humidity is specific only to the relation of the amount of water present in the air while moisture can be a much broader term that refers to the level of liquid present in a solid substance like food items, soil, products etc.
For example: It is generally said that the humidity levels in the climatic conditions of a certain area can be high or low. In such a case the term moisture is not frequently used. However, in case of referring to the dampness of soil, it is commonly said that the moisture level of the soil is high or low and in such a case the term humidity is not used.
Moisture can generally be seen as well as be felt by people as it exists in visible solid substances while humidity can not be seen but can only be felt as it is present in the air.
While the two terms may have a few similarities, they are scientifically as well as grammatically different and can hence not be used interchangeably.
Importance of solar powered automatic irrigation system:
As the world population and food demand is constantly increasing agriculture field farmers are facing many problems in watering their plants to keep their crops green in summer season due to the global water crisis, which makes it extremely difficult for them to meet the total food demand. It’s because they don’t have correct idea about the availability of the sustainable power sources currently available. Even if the power is available, the farmers have to wait until the pitch is properly watered.
Thus, this process restricts them to stop doing other more important tasks. But there is a solution, i.e., automatic solar submersible pump control panel for irrigation. In the trial of solar based plant irrigation using submersible pumps, PV cells are used to generate electricity, which is stored in rechargeable batteries. These batteries produce power for the system operation without any continues energy costs. A submersible pump controller is used to pump a water from a boor well to a storage water tank. Then, the water is drawn by a submersible pump at the slope’s toe, where the installed sprinklers water the crops or plants.
The main goal of this irrigation system is to develop an irrigation system in the field of agriculture by using Solar Energy which is much more suitable than conventional modes of irrigation. This is not only good and beneficial to the environment but is also extremely advantageous to the farmers itself.
These systems work in the sunlight (solar energy based). When sun shines the water pumping process is a sensible way of solar electric power utilization throughout the summer, as the water necessity is the highest. The direct relation between the generation of energy when the sun is at its peak and the requirement for water for the plants at the same time creates a perfect balance for this mode of irrigation. These pumps provide a reliable water source for plantation. For any solar based pumping system, the capacity to drive water is a function of three variable such as power, flow and pressure.
The following are the main components that are used in this automatic solar submersible pump control panel for irrigation
What is soil moisture?
Soil moisture refers to the water content in the soil of a particular area. This can be expressed as volume or weight and is commonly measured in probes. There are various ways that water can enter a field such as artificial irrigation, natural rainfall, runoff, drainage, evaporation and transpiration. These factors can drastically affect the biome present, soil formation, structure, stability and can influence the environment in which the plants are growing. Having the right amount of soil moisture is important so as to ensure photosynthesis and the appropriate turgidity for the plant position. The health of the crops grown is directly related and influenced by the adequate and appropriate supply of moisture and nutrients in the soil.
What is a soil moisture sensor irrigation system?
Supplying water to the plants is of utmost importance and this can directly change the temperature and environment of the plants. The temperature of the plants can be changed by using transpiration methods. Studies show that plants and root systems grow best when they are in moist soil.
A soil moisture sensor is a specially designed sensor used to gauge the volumetric content of water within the soil. As the straight gravimetric dimension of soil moisture needs eliminating, drying, and even certain levels of sample weighting, these sensors measure the volumetric water content not directly but with the help of some other rules of soil like dielectric constant, electrical resistance, otherwise interaction with neutrons, and replacement of the moisture content. These sensors are normally used to check the volumetric water content, while another combination of sensors calculates a new property of moisture within soils.
Measuring soil moisture is very important for agricultural practices as it help farmers to manage their irrigation systems more efficiently. Knowing the exact soil moisture conditions on their fields, not only are farmers able to generally use less water to grow a crop, they are also able to increase yields and the quality of the crop by improved management of soil moisture during critical plant growth stages. This helps in providing the crops the exact amount of water needed and reduces the chances of overflooding or under irrigation.
Relatively cheap and simple devices that do not require a power source are available for checking whether plants have sufficient moisture to thrive for domestic gardeners and small-scale farmers.
Automatic controlled irrigation is the use of soil moisture sensor in the field that helps in collecting or monitoring soil information, field information, and crop growth information, and transmit the monitoring data to the head control centre, and issue corresponding irrigation management instructions to the terminal under the corresponding system software analysis and decisions are taken based on this data provided.
Importance:
The implementation of a scientific automated irrigation system specially designed to meet its exact purpose can save water resources and increase crop yields. The core of the automatic irrigation system is the using a soil moisture sensor to control irrigation. Soil moisture sensor and automatic watering system can minimize water waste which in return saves any unwanted expenditure on water resources. These systems have also shown to reduce energy consumption and labour costs which in turn brings down a lot of overhead expenses for the farmers.
A Smart Irrigation System has a wide scope to automate the complete irrigation system. At Greenly India we are committed to building an IoT-based Irrigation System using up to date technology and latest innovations. Our systems will not only automatically irrigate the water based on the moisture level in the soil but also send the Data to the farmers and users to keep track of the land condition. The System will consist of a water pump which will be used to sprinkle water on the land depending upon the land's environmental condition such as Moisture, Temperature, and Humidity.
Importance of automatic irrigation system using IOT
Agriculture is the major source of income for a majority of the population in India and is major contributor to Indian economy. However, technological involvement and its usability, development have to be grown still and cultivated for agricultural sector in India.
We are the leading manufacturers and distributers for these systems for controlling our garden activity independently from any end of the world, we can monitor Realtime data on the screen of our mobile, plus we can understand various environmental sensors from this tutorial. With the help of IOT, we can control our garden/ farm appliances, so these are some important features of automatic irrigation system using IOT.
IoT is changing the agricultural practices and empowering farmers to fight with the huge difficulties they face. It gives farmers the opportunity to develop themselves and make them tech-savvy by being a driving force in updating the conventional and traditional practices to align with modern day inventions.
There are various advantages to using these systems such as:
• Control the drip irrigation system in an automated fashion, but still, turn on individual zones manually when needed which helps in saving energy and water costs.
• High levels of flexibility and these systems can be adapted regardless of the size of operations or location.
• Be extendable to any number of zones relatively easy.
• Should work Autonomously by sensing soil moisture levels requiring little to no manual labour.
• Should be Inexpensive to install, but must be reliable with low maintenance and repairs costs.
Features of automatic irrigation system using IOT:
To understand the overview of automatic irrigation system using IOT
A completely automated system can perform the following task: It has 2 modes; one is manual and the other is the self-mode. The farmers can choose which mode is suitable for which period of time and choose the mode appropriately.
• In manual mode the farmers can monitor the real-time status of the environment of our garden like its carbon-di-oxide rate, temp, soil density, moisture levels, etc, In this mode, the farmers also can control the appliance on our choices or depending upon the current situations.
• In a self-mode the system will become independent from its owner's operation, it can perform its work on its own, simply it will handle itself Smartly based on the current situation. This is the mode of automation where there is no manual intervention and the working is independently practiced.
What is fertigation?
Fertigation refers to a system that distributes fertilizer evenly to the entire field by attaching the injection tank directly to the sprinkler systems. This is an easy and cost-effective way to apply fertilizers to all the plants. A fertigation system can be applied to a preexisting sprinkler system as well. This process allows a farmer to apply small amounts of fertilizer in each set of fertigation that contributes to a high flexibility in fertigation frequencies overall. The availability of nutrients to the plants is very high and therefore the efficiency of this system is better.
Need for fertigation:
Fertigation also helps in conserving water and reducing pollution and is the most environmentally friendly way to fertilize an area. Using a fertigation system can decrease water consumption by 20- 50 percent and drastically reduce water bills especially in summers. One of the major complaints of using fertilizers in the water run-off and chemicals entering into the drainage systems of cities, lakes and rivers. The use of modern and organic products in combination with micro dosing eliminates these issues as well. As an end result, it has the potential to reduce the quantity of nutrient leaching and any further subsequent ground water leaching. It can be used by large scale as well as small scale farms.
Other uses of fertigation would include administration of herbicides, pesticides, insecticides, fungicides and growth regulators- basically all the nutrients and other essentials required for the proliferation and sustenance of the plant.
In a fertigation system the water, fertilizer placement and application frequencies are managed much more efficiently as compared to conventional and dry modes of applying fertilizers to crops. As a result of this, yields drastically improve and an optimum ionic balance can be achieved in plants. Fertigation is also an effective mode of controlling the timing and placement of fertilizers to root zones of crops and is often considered to be synonymous to nutrient efficiency.
The process of fertigation is commonly and vastly used in commercial agriculture and horticulture. It is also becoming vastly common in landscaping as it is much simpler and more reliable to use.
Advantages of fertigation:
Disadvantages of the above method are that an intricate knowledge and technical understanding are essential, the high initial cost, and corrosion associated with the use of parts of the machine.
Some of the disadvantages can obviously be eliminated by the usage of corrosion resistant materials and the fact that the return of investment is relatively fast.
Systems that can easily incorporate fertigation:
xModern fertigation systems can also be automated with innovative and extensive satellite-based software that helps in pinpointing the variable rate of fertilizer applications.
All systems should be placed on a raised or sealed platform and not in direct contact with the ground. it is important to prevent backflow to avoid the potential risk of contamination in the portable water that is not used for agricultural purposes.
Drip irrigation is the most regularly used means of fertigation, which adds to its effectiveness. The net result of drip irrigation ensures an excellent arrangement of crop and uniform supply of fertilizer.
Types of fertigation:
What is the main fertigation equipment’s?
There are 3 main fertigation equipment’s that aid and ease the entire process namely,
What is automatic irrigation?
Irrigation refers to the artificial application of water to land or soil that aids in the cultivation of agricultural crops in case of inadequate natural rainfall. A form of automatic irrigation refers to a system where irrigation operations are carried out with little to no manual intervention besides the surveillance of the system. Most modern irrigation systems can be automized with the help of timers, sensors, computers and mechanical appliances. Automation makes the irrigation process much more efficient and workers can concentrate on other important farming tasks. This process has various benefits and positive effects.
The process of distributing water to plants becomes more standardizes and felids or gardens do not have to be constantly controlled by an irrigator. The water is evenly distributed among all plants across the installed area. There are several solutions to create modern-day large-scale systems that allow vast areas to be covered by a single operator.
Sprinklers systems, drip irrigation systems and surface/ sub-surface irrigation systems require pumps and certain specifically designed high-tech components that can be used for large surfaces by skilled operators. However, automation of the irrigation systems can be done on a small scale as well with simple mechanical appliances.
Types of automated irrigation:
Solar Powered Automatic Irrigation Systems:
This refers to the form of using an irrigation where the power used for the process of irrigation is obtained through solar panels which is connected to the power circuit. Solar energy is generated from the solar panels which is used for operating the irrigation pumps. Various sensors and monitors are installed across the entire set up to prevent any damages or accidents due to overheating. This mode of irrigation not only reduces human labor through automation but also reduces energy consumption through the used of solar instillations.
Advantages of irrigation automation:
Disadvantages of irrigation automation:
• Cost: Depending on the size of the area to be covered, irrigation automating systems can vary in each case. Apart from this, certain portions of the lawn/ farm will have to be dug up in order to install the initial pipework to connect the plumbing system to the automated irrigation system.
• Repairs and maintenance: In case of any repairs and maintenance work, the regular farming activities will have to be paused and the land will have to be repaired post this. Its best to install irrigation automation systems before installing sod or performing any extensive landscaping as some of it may be torn apart and will require repairs post irrigation instalment. This may add to farmers cost and can be easily avoided if planned beforehand and properly.
• Natural factors: Even the most advanced irrigation systems can face certain disruptions due to natural calamities like hurricanes, wind storms and sand storms. These factors can wreak havoc on the entire irrigation system and cause the water direction to change and be in effective. Underground pests and insects can damage the water delivery systems below ground level resulting in water pooling or broken parts of the system. The repairs cost to fox such damages is drastically higher as compared to fixing or replacing a garden hose.
There are various types of automatic irrigation system and each type comes with its own set of pros and cons. Its best to get in touch with our team of highly trained members who can analyse and interpret the exact farming and farmers needs and provide the right type of irrigation automation system to suit the needs. This will not only increase farming efficiency but also help save costs and expenses in the long run.
What is water management?
Water management refers to the control and movement of water resources to reduce any damage to life and property and helps in maximizing the balance of water use. Good water management involves the proper installation and maintenance of dams and levees that help in the prevention of flooding and any damage caused due to the same.
Effective water management also involves drainage management that includes water budgeting and analysis of both surface and sub-surface systems. Other factors that influence the sufficient and free flow of water are ground water withdrawal rates and budgeted allocation of water for different purposes in appropriate quantities.
What is sustainable water management?
Sustainable water management refers to the process of using water in a method that meets the current demand for water without affecting the needs of future generations ecologically, socially and economically. Effective sustainable water management requires water to be over looked from judicial boundaries for its immediate supply of operations and managing water collaboratively as well as seeking resilient regional solutions that reduce risks to a large extent.
Sustainable water management helps a nation become self sufficient for its water needs which ensures that there is enough water to meet various functions on all levels; domestic, commercial as well as industrial.
Achieving sustainable water management require a holistic approach in creating the right technical, environmental, social and economic situation for the issues to be addressed.
On a global scale, having the right type of sustainable water systems will be able to provide every individual easy and affordable access to their required quantity of water in an economic manner.
Water resources can be effectively planned and wastewater systems can be installed to manage the complete operations and proper infrastructure of water resource demands in every locality.
Reasons for sustainable water conservation:
Advantages of sustainable water management:
• Optimizing economic, environmental and social benefits
• Reduces water related costs
• Setting goals for selecting projects through a transparent and inclusive process
• Helps in eliminating water wastes
• Realizing consistency across a range of alternatives that balance utility as well as the pre set goals.
• Maintains water management infrastructure for efficient operations
• Enhancing the long term technical and financial capacity of the water management.
• Sustainable for the long-term maintenance of the environment
• Provides irrigation control based on weather that saves water usage and helps in cost cutting for farmers.
• Technological development in water management field.
What is a solar powered automatic irrigation system?
A solar powered automatic irrigation systems refers to the combination of using solar energy to operate irrigation systems automatically. The irrigation system is entirely operated from solar energy instead of commercial energy that will help in reducing electric costs while monitoring the irrigation and water levels of soil. The main objective is to advance irrigation systems using technological developments in the solar energy field.
Relation between solar energy and irrigation systems:
In summers, when the water requirement for plants is maximum, the solar energy produced is also at its peak due to the thermal energy. Hence a direct relationship is formed between the two that can be used to automate and irrigate fields. Solar powered irrigation systems basically function on two main functions namely, power and pressure. The scarcity in water and electric crisis are both dealt with creating a sustainable mode of farming.
Advantages of using a Solar powered irrigation system:
• Helps in preventing water wastage and reduces water consumption through automation
• Reduces, if not negates the use of commercial energy by replacing it with solar energy
• Reduction in water and electricity bills
• Can easily be integrated into fields regardless of the size of operations
• Reduces labor usage and costs
• Automated systems can be converted to manual systems whenever needed as per the requirement of farmers
• Creates sustainable farming techniques
• Suitable for all climatic conditions
• Can be integrated with all irrigation modes
• Chance for further advancement and technological development
Components of a Solar powered irrigation system:
Combining the use of solar energy and irrigation systems is an extremely strategic move that will profit farmers drastically if implemented properly. Its best to seek professional advice on this in order to arrive at the exact system for both aspects in solar based irrigation to get the highest return of investment.
What is sustainable agriculture?
Sustainable agriculture refers to a farming practice using sustainable modes that help in meeting the demand for the produce while keeping in mind the environmental needs and understanding the preservation of the eco system. Sustainable farming gives the agricultural industry various flexible options that can be implemented in improving the environmental positivity and controlling the environmental footprint.
Sustainability can be simply understood as the process of meeting the current needs without compromising on the future generations ability to meet their needs.
Sustainable agriculture helps in satisfying the human consumption needs while enhancing the environmental quality and preserving natural resources at the same time. It helps in the optimum use of non-renewable resources and integrate the right biological controls for optimum production cycles. This not only enhances the quality of living for famers and the society as a whole but also helps in sustaining the economic viability of various agricultural practices.
Why is sustainable agriculture important?
Various environmental issues are pertaining and directly related to the agricultural industry which can spoil the entire habitable environment if not addressed properly and swiftly. To be confirmed as sustainable, the agricultural practices should be integrated socially, environmentally as well as economically.
Goals of sustainable agriculture:
The most common goals of sustainable agriculture are to maintain and improve environment health, economic standards, farming profits and socio-economic equity. Shifting from traditional agriculture to sustainable agriculture is a long process. It is irrational to expect farmers to become entirely sustainable with immediate results. The motive of sustainable agriculture should be in mind of all the stakeholders of the agricultural industry like farmers, wholesalers, governments, consumers etc.
Sustainable agriculture also helps in creating a level of social awareness and inclusion between all the affected parties and helps in creating a constructive community that works towards the same goals.
Issues that call for a need of sustainable agriculture:
There are various steps that are being taken to make the agricultural industry mores sustainable that are becoming more and more popular across the globe.