Abstract:
Watering is the most important cultural practice and most labor intensive task in daily
greenhouse operation. Watering systems ease the burden of getting water to plants when they
need it. Knowing when and how much to water is two important aspects of watering process.
To make the gardener works easily, the automatic plant watering system is created. There
have a various type using automatic watering system that are by using sprinkler system, tube,
nozzles and other. This project uses watering sprinkler system because it can water the plants
located in the pots. This project uses Arduino board, which consists of ATmega328
Microcontroller. It is programmed in such a way that it will sense the moisture level of the
plants and supply the water if required. This type of system is often used for general plant
care, as part of caring for small and large gardens. Normally, the plants need to be watered
twice daily, morning and evening. So, the microcontroller has to be coded to water the plants
in the greenhouse about two times per day. People enjoy plants, their benefits and the feeling
related to nurturing them. However for most people it becomes challenging to keep them
healthy and alive. To accommodate this challenge we have developed a prototype, which
makes a plant more self-sufficient, watering itself from a large water tank and providing itself
with artificial sunlight. The pro-To type reports status of its current conditions and also
reminds the user to refill the water tank. The system automation is designed to be assistive to
the user. We hope that through this prototype people will enjoy having plants without
challenges related to absent or forgetfulness. Bangladesh is a third world country with less
economic growth. About36 %( Bangladesh) of GDP and 64% (Bangladesh)of its employment
comes from agriculture. But our agricultural history is declining due to lack of irrigation
facility. At the same time the existing irrigation facilities cost the government a huge amount
of subsidy every year. So it’s a high time that we find an alternative way of irrigation so that
our subsidy is reduced as well as people get water throughout the year. And gives birth to our
project. In our project, we will be analyzing the feasibility of solar irrigation system for
surface irrigation in the context of Bangladesh. Our main goal is to identify if the existing
diesel run STW can be replaced by solar irrigation pump or not. RET Screen software has
been used for the analysis.
Description:
Bangladesh's noteworthy wellspring of pay is from agribusiness zone What's increasingly,
70% of farmers and general people depend upon the agribusiness. In Bangladesh by far most
of the water framework structures are worked physically. These antiquated methodologies are
superseded with semi-automated and motorized frameworks. His available customary
techniques look like dump water framework, terraced water framework, spill water
framework, sprinkler structure. The overall water framework circumstance is organized by
extended enthusiasm for higher agrarian benefit, poor execution and lessened openness of
water for Agribusiness. These issues can be fittingly corrected in case we use robotized
structure for water framework. A. Need of Automatic Irrigation Simple and easy to present
and organize. Saving essentialness and resources, with the objective that it will in general be
utilized in real way and aggregate. Agriculturists would have the ability to spread the fitting
proportion of water at the ideal time by means of modernizing property or nursery water
framework. Dodging water framework at the wrong time of day, decrease overflow from over
watering doused soils which will upgrade trim execution. Automated water framework
structure uses valves to turn motor ON and OFF. Motors can be motorized viably by using
controllers and no need of work to turn motor ON and OFF. It is correct strategy for water
framework and a productive contraption for exact soil moistness control in exceedingly
thought nursery vegetable age. It is productive, the human mix-up end in open soil
suddenness levels.