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Global Team for Irrigation in Africa. Purdue University National University of Rwanda. ME 463 Students : Tim Bond, T. Reid Gray, Jeremy Koehler, Erin Potrzebowski, Tyler Williams. GTIA Mission Statement. Global Team Technologies. Global Irrigation Simulator. General Inputs. Objectives:
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Global Team for Irrigation in Africa • Purdue University • National University of Rwanda • ME 463 Students: Tim Bond, T. Reid Gray, Jeremy Koehler, Erin Potrzebowski, Tyler Williams GTIA Mission Statement Global Team Technologies Global Irrigation Simulator General Inputs • Objectives: • Provide a method of summarizing research and analysis for future projects • Determine the feasibility of irrigation on any hillside field • Determine profit, operating cost, and capital cost • Allow relaxation of constraints • Different crops/water requirements, different field dimensions, different labor situations, etc… • Highlight direct areas for improvement • Using technologies to overcome communication obstacles: • GlobalHUB: online global teaming & collaboration website • Livescribe Pulse™ Smartpen: digitized design notebooks • Weekly chat-room meetings using GMail™’s built-in chat features Our mission is to “develop an agricultural irrigation system to aid in reducing poverty in the Gashora Sector of Rwanda using environmentally, socially, and economically sustainable design practices.” Calculating Cost/Revenue of farm Field Dimensions Assessment Trip January 5 – 14, 2009 Performance Curves Where: Kigali, Rwanda; Butare, Rwanda; Gashora Sector, Bugesera Region, Rwanda Crop Data Calculating Operating Cost of Systems Summary of Results Research Labor Data • Extraction • Petrol Pumps • Solar Pumps • Hand Pumps • Treadle Pumps • Movement • Pipes • Hoses • Junctions • Storage • Tanks • Pits • Trenches • Distribution • Buckets • Furrows • Sprinklers • Drip Calculating Capital Cost of Systems Pump Data • Conclusions and Results: • User friendly interface with easy to change inputs • Recommended system is tabulated in a bill of materials • Output graphs provide clear and concise summaries of the results • Tasks Accomplished: • Met NUR teammates • Established team expectations • Met with Bugesera farmers • Defined initial customer requirements • Visited Rwandan suppliers • Met with government officials • Created preliminary budget, task list, and timeline Part Cost
Global Team for Irrigation in Africa • Purdue University • National University of Rwanda • ME 463 Students: Tim Bond, T. Reid Gray, Jeremy Koehler, Erin Potrzebowski, Tyler Williams GTIA Mission Statement Global Team Technologies Global Irrigation Simulator General Inputs • Objectives: • Provide a method of summarizing research and analysis for future projects • Determine the feasibility of irrigation on any hillside field • Determine profit, operating cost, and capital cost • Allow relaxation of constraints • Different crops/water requirements, different field dimensions, different labor situations, etc… • Highlight direct areas for improvement • Using technologies to overcome communication obstacles: • GlobalHUB: online global teaming & collaboration website • Livescribe Pulse™ Smartpen: digitized design notebooks • Weekly chat-room meetings using GMail™’s built-in chat features Our mission is to “develop an agricultural irrigation system to aid in reducing poverty in the Gashora Sector of Rwanda using environmentally, socially, and economically sustainable design practices.” Calculating Cost/Revenue of farm Field Dimensions Assessment Trip January 5 – 14, 2009 Performance Curves Where: Kigali, Rwanda; Butare, Rwanda; Gashora Sector, Bugesera Region, Rwanda Crop Data Calculating Operating Cost of Systems Summary of Results Research Labor Data • Extraction • Petrol Pumps • Solar Pumps • Hand Pumps • Treadle Pumps • Movement • Pipes • Hoses • Junctions • Storage • Tanks • Pits • Trenches • Distribution • Buckets • Furrows • Sprinklers • Drip Calculating Capital Cost of Systems Pump Data • Conclusions and Results: • User friendly interface with easy to change inputs • Recommended system is tabulated in a bill of materials • Output graphs provide clear and concise summaries of the results • Tasks Accomplished: • Met NUR teammates • Established team expectations • Met with Bugesera farmers • Defined initial customer requirements • Visited Rwandan suppliers • Met with government officials • Created preliminary budget, task list, and timeline Part Cost
General Inputs Calculating Cost/Revenue of farm Field Dimensions Performance Curves Calculating Operating Cost of Systems Crop Data Summary of Results Labor Data Calculating Capital Cost of Systems Pump Data Part Cost
