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1、经济技术开发区支撑系统第一篇供水工程规划报告前言:经济开发区位于屯岩盆地海宁至上、下长岭位置,西至规划屯黄高速公路,东至仙村方和兴村山坞。本次供水总体规划的范围包括全部开发的25平方公里以及正在建设的启动区3-4平方公里。一:需水量预测经济开发区的最终需水量为10万立米/日,启动区为2万立米/日。用水名称用水指标用水数量用水量(立米/日)生活用水300升/人.日50000人15000公建用水医院500升/人.床 5000人 2500学校 50升/人.日17000人 850公共 50升/人.日 500人 25商业用水 100升/人.日10000人 1000工业用水生产45吨/公顷/日600公顷2
2、7000仓储25吨/公顷/日300公顷 7500非收入用水以上的20 (53875)10775平均日需水量64650最高日需水量峰值系数为1.596975上表为25平方公里开发区的用水估算计算表;启动区用水量按用地面积类比计算。二:水资源分析1.区域降水特征多年平均降水量为1716.2mm,最大年降水量2810.8mm(1954年),最小年降水量926.3mm(1978年);年内有两个明显的雨季35月的春雨,67月的夏雨;屯溪城区降水特点是,年降水量多,年际降水量变差大,年内降水量分布不均。2.区域河流水系流经经济开发区的主要河流有南部的新安江支流横江、开发区内的横江支流霞塘河以及北部徽州区境
3、内的丰乐河;开发区周边的水利工程有中型水库丰乐水库、小(一)型水库万安朗口水库、小(二)型水库新潭镇的边尾水库、东关水库,以及区内蕉充水库。水系名称控制面积(km2)水域特性横江997Q503390M3/s、新安江支流;水量、水位变化较大,含水层薄;霞塘河25.35Q50277M3/s、横江支流;由3小条支流汇入;丰乐水库297.0Q502800M3/s、正常高水位201米、死水位183米,总库容8400 万方,兴利库容3840万方,灌溉11.2万亩,发电14400千瓦朗口水库15.5总库容115万方,兴利库容80万方,兴利水位199米,死水位181.5米,灌溉0.4万亩,电站装机54千瓦待添
4、加的隐藏文字内容2边尾水库0.7总库容21万方,兴利库容15万方,兴利水位152.68米,死水位148.04米,灌溉0.05万亩东关水库1.1总库容29.1万方,兴利库容20.2万方,兴利水位183.12米,死水位171.12米,灌溉0.11万亩蕉充水库水域面积3.5万平米,总库容10万方,灌溉0.015万亩3.水系水量、水质分析1.水量分析(1)横江:根据屯溪水文站实测数据并通过比拟法得到的横江计算流量,采用转换得到实际皮尔孙型分布理论频率曲线得到多年最小流量与保证率关系:P80%的枯水流量为0.90m3/s,P90%的枯水流量0.53 m3/s,日平均供水量为45792立米;由于横江水量、
5、水位变化较大,含水层薄,分布局限,近能做小型供水水源地。(2)丰乐水库:经调查设计洪水总量为1.01亿立米/日,水库总库容为8400万方,其中防洪库容为3480万方,兴利库容3840万方,死库容为1080万方,调节库容相当与坝址平均年水量3.3亿方的12.1,为不完全年调节水库。因此水量不成问题,但应考虑经济园区供水后对灌溉、发电的影响有多少。其它水库:因库容小,仅能作为调节园区气候、生态,可用于滞洪或消防备用水源。2.水质评价(1)横江黄山市卫生防疫站与黄山市环保局于1993年、1997年、2000年分别在横江水源地取样检测结果表明:水源地水质均达到和满足“地面水环境质量标准”(GB3838
6、88)类水体标准。(2)丰乐水库上游流域境内,山峦重叠,溪流交汇,雨量充沛,无工业污染,水源环境质量符合“地面水环境质量标准”(GB383888)类水体要求。水库水质优异,根据黄山市徽州区预防保健中心质量检测报告书(2002年检字第061号)丰乐水库水质符合国家生活饮用水卫生标准。三、水资源开发利用状况1.横江流域(1)休宁城区供水由休宁一、二水厂供水,一水厂水源为夹溪河,二水厂水源为横江,目前水厂设计能力各为1万吨/日,实际出水量为1万吨/日。根据城市供水规模,2010年规划为4.0万立方米/日(已考虑万安镇区用水量),水量分配为横江设计流量3万吨/日,夹溪河设计流量1万吨/日。(2)屯溪城
7、区供水主要有屯溪第一、第二两个自来水厂供水,一水厂水源为横江,二水厂水源为率水,目前水厂设计能力分别为3万吨/日、8万吨/日;实际日平均出水量为3.5万吨/日。根据城市总体规划,期末2020年屯溪区供水规模为20万吨,水量分配为横江设计流量3万吨/日,率水设计流量17万吨/日。2.丰乐水库(1)歙县城区供水目前由扬之河东岸水厂供水,水源取自扬子河,现供水能力为2万吨/日;厂区地势低于防洪标准,且扬子河水污染严重,达不到城市供水的安全要求。根据歙县第二自来水厂工程项目可行性研究报告,规划在城区火车站西侧建歙县第二自来水厂,规模6万吨/日,水源取自丰乐水库。(2)徽州区供水目前由丰乐河罗汉肚凹岸一
8、侧水厂提供,水源取自丰乐河,总规模为2万吨/日,实际供水量仅为0.8万吨/日。根据徽州区水资源的水量水质分析和2020年规划期末城区用水量规模达到6万吨/日的要求,规划水源取自丰乐水库。四、经济园区水源的确定通过以上分析,横江的水量无法满足水源地的要求,已不适合作为经济园区的水源地。丰乐水库总库容为8400万方,库容大,坝址多年平均流量为10.5M3/s,多年径流量为3.3亿方,且水质较好,取水保证率高。因此,作为城市水源,无论是取水量还是水质都可以得到保证,完全可以满足开发区取水的要求。另外,丰乐水库距园区约18公里,且水库常年运行水位在193.0m210.0m之间,若拟建新建水厂标高造13
9、5.0m138.0m之间,可有效利用水库位能,可大大降低工程和动力费用。结论,从各方面比较,选用丰乐水库作为经济园区的供水水源。五、经济园区用水规划方案充分考虑经济园区市场操作和滚动发展原则,近期需水约3万吨/日,水源取自横江,远期需水约10万吨,水源取自丰乐水库。1.近期规划方案(1)方案一:在下海宁设置规划水厂,水源取自横江;(2)方案二:规划在下海宁设置供水泵房,把休宁水厂和屯溪水厂的水引过来;(3)方案确定:屯溪一水厂设计出水量3万吨/天、休宁水厂2万吨,均取自横江水源;而横江枯水期90的流量为0.53M3/s,仅供水总量为45792 M3/天;选用方案一则屯溪一水厂为无源之水,方案一
10、不可用。方案二屯溪现供水日平均需水量仅为3.5万吨,而屯溪一、二水厂日设计能力可为11万吨,近期规划一水厂3万吨/日的规模皆可为经济园区启动区用水,休宁用水作为备用,水压不足可设置加压泵站为之,其用地2000平米。从上分析可知:方案二为供水近期选定方案。2.远期规划方案水源取自丰乐水库。因为其下游丰乐河的水质污染较严重,水量枯水期90保证率的流量小于1立米/s,从丰乐河取水不可用。(1)方案一:直接从丰乐水库引水。(2)方案二:从二坝引水。(3)方案三:从丰乐灌区南干渠引水。(4)方案确定:a.方案一优点是水量、水质好,正常兴利水位为201.0米,可最大利用势能,以重力流输入经济园区;缺点是引
11、水管渠全长约18公里,需打隧洞,且地质情况不明,经济造价高;b.方案二丰乐二坝流域面积362.7 km2,平均年径流量3.9亿立方;二坝下泄流量在保证率为91.8时仍大于1.0m3/s。优点是水质、水量均能满足要求,引水管渠全长约15公里,可最大节约经济造价一千多万元,缺点是二坝正常尾水位为155.0米,位能低些,但发电尾水可充分利用。c.方案三优点是近期供水即可运行,经济造价低,缺点是水质沿途受污染严重,远期水压、水量不足,水质处理工艺难度大;d.总上所述分析可知:方案二为供水远期选定方案,即从二坝取水最经济,水量、水质均满足生活饮用水水源标准。六.经济园区供水规划要点1.近期规划:结合园区
12、总规,在下海宁设置集水清池(4000吨)、加压泵站供水设施,总用地6000平米;同时对休宁至万安、屯溪至新潭现有供水干管Dg200和Dg300管径分别改造成Dg400和Dg600,至加压泵站后供园区用水。2.远期规划:考虑徽州区和经济园区共用一水源为丰乐水库,可人为调节水量以保证城市用水,且徽州区水厂据经济园区仅3公里;规划建议远期徽州区水厂现址扩建扩容,设计规模为16万立方米/日,水厂用地80000平米,供徽州区和经济园区用水。规划建议水厂按规模一次规划,分期实施,以最大的弹性满足城市市场经济可持续发展的节奏;同时考虑设置回用水系统,将处理后达到水质要求的再生水供给园区相应的各种用水的用户。
13、七、城镇南部群远景供水规划设想1.流经城镇南部群的新安江水系,流域面积5545 km2,其主要支流有率水、横江、练江、昌源、街源等;其中率水流域面积1522km2,河道长度138km,河道坡度0.141,按保证率95的最小日流量1.18m3/s设计最大设计供水量为10.1万吨/天;横江流域面积997 km2,河道长度75km,河道坡度0.27,枯水期按保证率90的流量为0.53M3/s,最大设计供水量为4.5万吨/天;练江流域面积514 km2,年径流量4.06亿立方米。2.从城镇南部群总体布局出发,基础设施作为城市发展的支撑系统和保障,规划考虑重要的基础设施建设周期长、投入大,应从大的区域合
14、理配置、统筹安排,临近的城镇和区域可共用同一供水设施,达到资源共享、用地节约、经济科学。3.通过实施开源、节流、水资源保护、改革水管理体制、调整水价和水资源统一规划与管理等工程和非工程措施,保证21世纪初期与周边地区社会经济共同可持续发展相适应的水资源供需平衡的规划目标。4.根据安徽省黄山市中心城区城市防洪规划,远期在率水下游月潭村附近兴建月潭水库,控制面积954km2,总库容8.44亿m3,防洪库容1.72亿m3,兴利库容3.78亿m3,是一座以防洪为主,结合发电、灌溉、城镇供水等综合性水库。5.现练江支流丰乐河上游已建有丰乐水库,总库容8400万m3,兴利库容3840万m3,死库容为108
15、0万m3;灌溉11.2万亩,发电14400千瓦,丰乐二坝流域面积362.7 km2,平均年径流量3.9亿立方;二坝下泄流量在保证率为91.8时仍大于1.0m3/s。水库水质优异。6.规划设想:(1)按规划期末2020年休宁需水6万吨/日,屯溪需水21万吨/日,规划该区域取水主水源为月潭水库,规划在屯溪二水厂现址基础上建成一个大型的现代化水厂,设计能力30万吨/日,用地90000平米,供屯溪、休宁用水。其它屯溪一水厂、休宁现水厂作为补充。(2)按规划期末2020年经济园区需水10万吨/日,徽州区需水6万吨/日,歙县需水6万吨/日,规划该区域取水主水源为丰乐水库,规划在徽州区水厂现址基础上建成一个
16、中型的现代化水厂,设计能力16万吨/日,用地60000平米,供经济园区和徽州区用水。规划在城区火车站西侧建歙县第二自来水厂,规模6万吨/日,用地30000平米,水源取自丰乐水库,歙县一水厂作为补充。同时规划从丰乐水库的取水工程可一并考虑,协调好这几块区域及周边地区的用水量平衡;统一规划,合理分配,综合利用。Editors note: Judson Jones is a meteorologist, journalist and photographer. He has freelanced with CNN for four years, covering severe weather fro
17、m tornadoes to typhoons. Follow him on Twitter: jnjonesjr (CNN) - I will always wonder what it was like to huddle around a shortwave radio and through the crackling static from space hear the faint beeps of the worlds first satellite - Sputnik. I also missed watching Neil Armstrong step foot on the
18、moon and the first space shuttle take off for the stars. Those events were way before my time.As a kid, I was fascinated with what goes on in the sky, and when NASA pulled the plug on the shuttle program I was heartbroken. Yet the privatized space race has renewed my childhood dreams to reach for th
19、e stars.As a meteorologist, Ive still seen many important weather and space events, but right now, if you were sitting next to me, youd hear my foot tapping rapidly under my desk. Im anxious for the next one: a space capsule hanging from a crane in the New Mexico desert.Its like the set for a George
20、 Lucas movie floating to the edge of space.You and I will have the chance to watch a man take a leap into an unimaginable free fall from the edge of space - live.The (lack of) air up there Watch man jump from 96,000 feet Tuesday, I sat at work glued to the live stream of the Red Bull Stratos Mission
21、. I watched the balloons positioned at different altitudes in the sky to test the winds, knowing that if they would just line up in a vertical straight line we would be go for launch.I feel this mission was created for me because I am also a journalist and a photographer, but above all I live for ta
22、king a leap of faith - the feeling of pushing the envelope into uncharted territory.The guy who is going to do this, Felix Baumgartner, must have that same feeling, at a level I will never reach. However, it did not stop me from feeling his pain when a gust of swirling wind kicked up and twisted the
23、 partially filled balloon that would take him to the upper end of our atmosphere. As soon as the 40-acre balloon, with skin no thicker than a dry cleaning bag, scraped the ground I knew it was over.How claustrophobia almost grounded supersonic skydiverWith each twist, you could see the wrinkles of d
24、isappointment on the face of the current record holder and capcom (capsule communications), Col. Joe Kittinger. He hung his head low in mission control as he told Baumgartner the disappointing news: Mission aborted.The supersonic descent could happen as early as Sunday.The weather plays an important
25、 role in this mission. Starting at the ground, conditions have to be very calm - winds less than 2 mph, with no precipitation or humidity and limited cloud cover. The balloon, with capsule attached, will move through the lower level of the atmosphere (the troposphere) where our day-to-day weather li
26、ves. It will climb higher than the tip of Mount Everest (5.5 miles/8.85 kilometers), drifting even higher than the cruising altitude of commercial airliners (5.6 miles/9.17 kilometers) and into the stratosphere. As he crosses the boundary layer (called the tropopause), he can expect a lot of turbule
27、nce.The balloon will slowly drift to the edge of space at 120,000 feet (22.7 miles/36.53 kilometers). Here, Fearless Felix will unclip. He will roll back the door.Then, I would assume, he will slowly step out onto something resembling an Olympic diving platform.Below, the Earth becomes the concrete
28、bottom of a swimming pool that he wants to land on, but not too hard. Still, hell be traveling fast, so despite the distance, it will not be like diving into the deep end of a pool. It will be like he is diving into the shallow end.Skydiver preps for the big jumpWhen he jumps, he is expected to reac
29、h the speed of sound - 690 mph (1,110 kph) - in less than 40 seconds. Like hitting the top of the water, he will begin to slow as he approaches the more dense air closer to Earth. But this will not be enough to stop him completely.If he goes too fast or spins out of control, he has a stabilization p
30、arachute that can be deployed to slow him down. His team hopes its not needed. Instead, he plans to deploy his 270-square-foot (25-square-meter) main chute at an altitude of around 5,000 feet (1,524 meters).In order to deploy this chute successfully, he will have to slow to 172 mph (277 kph). He wil
31、l have a reserve parachute that will open automatically if he loses consciousness at mach speeds.Even if everything goes as planned, it wont. Baumgartner still will free fall at a speed that would cause you and me to pass out, and no parachute is guaranteed to work higher than 25,000 feet (7,620 met
32、ers).It might not be the moon, but Kittinger free fell from 102,800 feet in 1960 - at the dawn of an infamous space race that captured the hearts of many. Baumgartner will attempt to break that record, a feat that boggles the mind. This is one of those monumental moments I will always remember, because there is no way Id miss this.
