Optimal Design and Operation of Hydroponic Edible Sprouting Farms
التاريخ
2024-01البيانات الوصفية
عرض كامل للتسجيلةالملخص
Consistent food supply is becoming increasingly important as the population of
world's rises. The future population is expected to grow substantially, highlighting the
urgent need to greatly enhance food production (Global agriculture towards 2050,
2009). The assurance of food security hinges on key factors: ensuring the availability,
accessibility, and utilization of safe and highly nutritious food. However, the
challenge lies in fulfilling these requirements for individuals in a short amount of time.
In addition to quantitative considerations, modern society's awareness of health and
nutrition has led to a rise in the demand for diverse and specialized diets. People now
seek healthy food that is rich in nutrients and vitamins, promoting well-being and
preventing health issues.
The simultaneous effects of climate change, global warming, and pollution are
currently exacerbating the degradation of fertile soil, thereby causing obstacles in the
food chain and overall production (Cole, 2018). The relationship between agricultural
productivity and various factors such as climate patterns, water availability, and crop
health is highly interconnected. The escalating environmental challenges linked with
conventional agricultural methods, including problems like soil erosion, water
shortages, and chemical pollution, prompt critical inquiries into the long-term
viability of our existing food production systems. Consequently, there is a growing
need for alternative approaches that can reliably provide superior-quality, nourishing
crops while also mitigating the adverse effects on the environment. Hydroponic
farming presents itself as a potentially practical method to effectively address these
serious concerns (Sambo P, 2019).
DOI/handle
http://hdl.handle.net/10576/51505المجموعات
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