1. Performance of energy-saving water exchange device used in tidal wetland to improve water quality 1. Associate Professor, Department of Bioenvironmental Systems Engineering. National Taiwan University, Taiwan 2. Corresponding Author, Ph.D Candidate. Department of Bioenvironmental Systems Engineering. National Taiwan University, Taiwan (f92622045@ntu.edu.tw) 3. Research Fellow, Biodiversity Research Center, Academia,Taiwan 4. Post Doc., Biodiversity Research Center, Academia,Taiwan Hou Wen-Shang 1, Teng Te-Hui* 2, Hsieh Hwey-Lian 3, Chen Chang-Po 3 and Huang Shou-Chung 4 Geophysical Research Abstracts Vol. 13, EGU2011-10155-4, 2011 EGU General Assembly 2011 © Author(s) 2011 Abstracts In natural waters, the stratification will happen to environmental conditions changes such as surface velocity, water temperature, depth, and dissolved oxygen. When the water depth closed to the sediment, water quality was usually present in inferior situation. Aerators, use to enhance water quality in lakes and reservoirs recent year is a physical purification without add chemical agents (for example: Alum) and the makeup water will not produce harmful substances. Aeration tally with the environment friendly concept of dealing with corrupt water and has good economic returns and improving efficiency. Continuous type aerator has a characteristic that consumes higher energy and cause the massive water bodies becoming turbulence under high-power motor operate. Turbulence will break the stratification fast and elevate dissolved oxygen. Under mixing action in the water will disturb original fish and the algae perches in different depth. Hwa-Chiang waterfowl habitat is located in the heart of Taipei. Its core area, Taipei City Waterfowl Reservation, is one of internationally important tidal wetlands and has been designated as important bird area. However, the wetland has faced urban water pollution. This study focus on ecological conditions of the Hwa-Chiang waterfowl habitat used artificial tidal pond and Solar Energy Air-Lift Column (SEALC) to enhance water quality and habitat ecological biodiversity. SEALC is a water exchange device which consumes 3.5 watts motor continuous inject air into the air chamber, when the air chamber accumulate different amount of air with depths, and intermittent large bubble produced by buoyancy driven water exchange. Established long-term measurement data of environment conditions to monitor system efficient, parameters included dissolved oxygen (DO) distribution, sediment oxygen demand (SOD), ORP, velocity and water temperature. Operate conditions such as water exchange capacity, economic benefits and working efficiency will be discussed. Waterfowl habitat Tidal wetland Sediment accumulation Habitat Deterioration Metropolis sewage Food Deficiency No Sediment Erosion Not interrupt aquatic organism Ecosystem protection Green energy Enhance water quality Low turbulence Principles of SEALC for Waterfowl habitat Tidal pond elevation diagram N 25˚02’16.8” E 21˚29’21.1” Taipei city, Taiwan Economic Analysis 609.7660 914.63100 350.6120 198.1712 137.26 76.223.5 Operating Cost ( ＄.)Electricity power (Watt) 1. The price not includes solar board. 2. Exchange rate is 1US. Dollar = 32.8 NT.Dollar 3. In Taiwan 1kw*Hr electricity costs 2.6 NT. Dollar. SUITABLE POWER USE SUGGESTION Water depth (m) ⅠⅡⅥ ≦ 13.5w ＞ 1 ～ 3 6w ＞ 3 ～ 106w ＞ 10 ～ 2012w ＞ 20 ～ 3060w ＞ 30 ＞ 60w ＞ ＞ Result Flow fieldMethod 1.0Water depth (m) 78.5area (m2) 10.0Diameter (m) Water diffusion 1.56 ± 0.04 SAE (kgO2/hr/kw) (3.37 ± 0.12) × 10- 3 SOTR (kgO2/hr)Standard Aeration Efficiency 3.6~22.2Intermittent time (Sec) 178.8Water capacity per NT. (max) 0.016Electricity consumption per NT. 0.006Electricity consumption (kw/ hr) 13000Cost (NT.) Dissovled Oxygen of Hwa-Chiang waterfowl habitat Longtermmonitored ORP value ofHwa - Chiang waterfowl habitat