|Course Title||Code||Semester||L+P Hour||Credits||ECTS|
|Agricultural Structures of Internal Environment Co *||TYP 454||8||2||2.5||3|
|Prerequisites and co-requisites|
|Recommended Optional Programme Components||None|
|Language of Instruction||Turkish|
|Course Level||First Cycle Programmes (Bachelor's Degree)|
|Course Coordinator||Prof. Dr. Abdullah Nafi BAYTORUN|
It is aimed to cover major principals of climatization in agricultural constructions, major principals of heat transfer, isolation in agricultural constructions, ventilation in agricultural constructions (plant and animal), principals of heating and cooling and planning and designing of climatization techniques like ventilation, cooling and heating which are used in agricultural constructions
Clasification of agricultural constructions according to their objectives, Environmental climate management in agricultural constructions, major principals of climatization, definition and use of physicrometric terms, heat transfer methods in construction elements, projection values for indoor heat balance, isolation in agricultural constructions, ventilation, cooling and heating systems and designing projects about them
|Course's Contribution To Program|
|No||Program Learning Outcomes||Contribution|
Makes aplication of engineering design of irrigation systems and conducts tests about the materıals used ın these systems and preapares reports
Developes and implements strategies for wastewater, drainage water, runoff water such as treated waste water re-use of non-conventional water without adversely affecting the environment, makes laboratory analysis about saline alkali soils and water suita
Prepares project about soil and water structures, animal houses, storage structures and crop production structures. Analyzes in terms of static and strength. Determines the properties of materials used in construction and makes the relevant tests.
Designs crop production systems, controls environmental domestic conditions and operates, makes the selection of materials to be used, tests and prepares a report.
Designs and projects small dams, ponds. Prepares and implements flood action plans within the scope of integrated watershed management.
Developes and implement s strategies of sustainable water management for the purposes of protecting water resources and agricultural production.
Developes and implements irrigation programmes using the soil-plant-water relations and soil engineering properties
Prepares land consolidation projects and applies. Provides farm developing systems. Prepares and implements rural development projects.
Exposes the problems about soil and water conservation (erosion) and water harvesting, prepares and implements the project.
Etudes drainage of agricultural lands, plans drainage systems,prepares projects and makes aplications, selects materials to be used, tests and prepares a report
Plans activities related to operation, maintenance and repairs irrigation network,developes project formulations in monitoring and evaluations, operates the irrigation networks.
Works independently and takes responsibility
Has the ability to design and apply analytical, modelling and experimental researches,and acquires the skill of analyzing and interpreting the complex issiues occured during this process .
Creates effective solutions for sustainable agricultural production
Accesses to the resources in the field, uses of these resources and continuous self-improvement
Developes projects to protect natural resources like water,and offers the benefit to society, using the information of basic engineering, basic agricultural engineering and agricultural structures and irrigation engineering .
Has the ability to analyze problems ,make decisions and solve about professional subjects
|1||Clasification of agricultural constructions||Reference screening, online search about greenhouses and animal barns|
|2||Climate and environment management in agricultural structures||Reference screening, online search about ventilation in constructions|
|3||Major principals of climatization, definition and use of physicrometric terms Sample problems about use of physicrometric diagram (h-x diagram) in greenhouses||Reference screening, online search about physicrometric diagram|
|4||Physicrometric processes, heating and cooling of humid air, air humidification and cooling, evaporative cooling||Reference screening, sample problem solution|
|5||Heat transfer in construction elements, types of heat transfer, conduction, convection and radiation||Reference screening, online search about various materials|
|6||Heat transfer coefficient, vapor (steam) transfer in construction elements||Reference screening|
|7||Environmental climate control, heat control, heat gains and losses||Reference screening|
|8||Mid-Term Exam||Reference screening|
|9||Isolation in agricultural constructions||Reference screening|
|10||Ventilation systems in agricultural constructions||Reference screening, sample problem solution|
|11||Field visit to animal barns||Reference screening, sample problem solution|
|12||Cooling, evaporative cooling and humidification in agricultural structures||Reference screening, sample problem solution|
|13||Solution of problems that occur during desiging projecs about cooling in agricultural constructions||Reference screening, sample problem solution|
|14||Solution of problems that occur during desiging projecs about cooling in agricultural constructions||Reference screening|
|15||Solving porblems about heating, system planning and designing projects in greenhouses||Reference screening, sample problem solution|
|16-17||Term Exams||Reference screening|
|Recommended or Required Reading|