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中國給水排水2024年城鎮(zhèn)污泥處理處置技術(shù)與應(yīng)用高級(jí)研討會(huì)(第十五屆)邀請(qǐng)函 (同期召開固廢滲濾液大會(huì)、工業(yè)污泥大會(huì)、高濃度難降解工業(yè)廢水處理大會(huì))
 
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平板膜生物反應(yīng)器應(yīng)用于大型污水處理廠的調(diào)試運(yùn)行 Commissioning of large WWTP with flat sheet MBR technology

放大字體  縮小字體 發(fā)布日期:2014-05-30  瀏覽次數(shù):246
核心提示:Commissioning of large WWTP with flat sheet MBR technology平板膜生物反應(yīng)器應(yīng)用于大型污水處理廠的調(diào)試運(yùn)行2014-05-29Gasull
中國給水排水2024年城鎮(zhèn)污泥處理處置技術(shù)與應(yīng)用高級(jí)研討會(huì)(第十五屆)邀請(qǐng)函 (同期召開固廢滲濾液大會(huì)、工業(yè)污泥大會(huì)、高濃度難降解工業(yè)廢水處理大會(huì))

中國給水排水2024年城鎮(zhèn)污泥處理處置技術(shù)與應(yīng)用高級(jí)研討會(huì)(第十五屆)邀請(qǐng)函 (同期召開固廢滲濾液大會(huì)、工業(yè)污泥大會(huì)、高濃度難降解工業(yè)廢水處理大會(huì))
 

Commissioning of large WWTP with flat sheet MBR technology


平板膜生物反應(yīng)器應(yīng)用于大型污水處理廠的調(diào)試運(yùn)行

2014-05-29 Gasull 水進(jìn)展

 

Introduction

Figure 1: Arenales del Sol WWTP

The Arenales del Sol WWTP, located in Alicante in the Mediterranean region of Spain, combines biological treatment with nutrient removal with a submerged MBR system fitted with flat sheet (FS) ultrafiltration membranes, with an average treatment capacity of 10,000 m3/d (10 MLD). The plant provides high quality treatment to highly variable seasonal sewage inflow due to the nature of this popular coastal region, where second homes and golf courses attract visitors during the summer months and winter and Easter vacation periods.

This seasonal feature became a major challenge during the commissioning of this relatively large MBR plant in a short space of time and with very little contingency, demanding specific operational strategies.

Figure 2: Specification – Arenales del Sol WWTP

Typical commissioning challenges of an MBR

Many WWTPs fitted with MBR technology have experienced severe difficulties during the commissioning and start-up phases of the project, specifically because operational problems are normally manifested as failure to meet the hydraulic load, rather than achieve the required level of purification. This demands that membrane fouling and clogging is minimised as much as possible, through removal of fine solids and reduction of EPS or dissolved organic carbon levels in the sludge. Also, the variation of operational parameters such MLSS concentration, peak fluxes and aeration volume are known to exacerbate fouling and clogging, as well as the sludge floc structure.

Figure 3: Actual MBR process parameters

Various challenges arise during MBR commissioning, including:

  • rapid membrane fouling due to insufficient biomass concentration, unhealthy micro-organism populations, excessive EPS formation or membrane blocking

  • overflowing tanks from heavy foaming events (with subsequent biomass loss) or membrane clogging

  • under-spec treated water quality prior to the biological conditions reaching the design values, and specifically the MLSS concentration

  • impaired treatment from incomplete tasks from commissioning, such as clean water testing, PID control adjustment, etc

  • membrane clogging or ragging due to unscreened seeding sludge

  • membrane damage due to abrasion from construction materials, such as metal shards from thread tapping not removed from the MBR tanks

  • sludge settling due to blower failure

  • membrane over- or under-aeration due to incomplete PID blower testing or incorrect blower design.

All the activities planned for the commissioning of this WWTP aimed to minimise or avoid the above, by applying knowledge available from a number of published case studies.

Figure 4: The MBR tanks at Arenales del Sol WWTP

Commissioning requirements, hollow fibre versus flat sheet systems

Sludge seeding in biological and MBR tanks can become challenging in medium to large municipal WWTPs. Typically, the anoxic and oxic reactor volumes are usually too large and unchambered to be filled with rather concentrated sludge from other WWTPs in a single step. Equally difficult and expensive is to truck in excess recirculation sludge from other secondary decanters to achieve a high MLSS concentration in the MBR tanks.

On-site biomass augmentation is thus unavoidable for any medium to large MBR plant, and the target MLSS concentration will depend on the membrane configuration: 5-8 g/l (or 10-12 g/l for short periods) for an HF configuration compared with 12 to 15 g/l for the FS. It follows that target biomass conditions are more rapidly attained for HF systems. Moreover, as often observed in MBR literature, FS membranes experience major fouling at lower MLSS from small pin-floc structures causing rapid pore blocking more rapidly. At higher MLSS levels and correspondingly larger flocs, the sludge-scouring air mixture provides greater higher shear and so an improved cleaning efficiency at higher MLSS concentrations (up to 18 g/l) than at lower.

In the case of HF systems, the initial MLSS concentration is not considered as important during commissioning, since they demonstrate good best filtration performances at sludge seeding concentrations (2 to 6 g/l).

Figure 5: Typical flux versus MLSS in sMBR

Figure 6: Clean water testing

It was important to reduce the risk of initial fouling at the low MLSS concentrations to avoid downtime for chemical cleaning. However, since the existing WWTP was not meeting effluent discharge standards, the new plant had to be ready for work with full flow treatment warranties in a shortened time. Given the time constraints the project was under, a minimum MLSS concentration of only 6-7 g/l was deemed necessary prior to operation with the FS MBR membranes.

All ancillary equipment to the MBR (blowers, pumps, PLC, etc) was fully tested with clean water.

Fouling control strategies during start-up: Biomass development

Biological degradation of the sludge in the reactors is required not only to meet effluent discharge standards but also to avoid membrane fouling by excessive unoxidised BOD levels. Time restrictions associated with the commissioning required both a stable biomass and a ready-for-business MBR system at the design conditions of 12.5-15 g/l within 8-10 weeks.

Unfortunately, since only about 30% of design inflow was being received at the time, there was a shortage of carbon for natural bio-augmentation. Biomass augmentation was thus achieved using the anoxic and oxic tanks in one (of two) of the treatment lines in an sequencing batch mode, with supernatant being regularly withdrawn so as to increase the MLSS without decharging the solids (thus increasing the SRT).

The plant was fed both with untreated sewage pumped from the existing plant at a reduced loading rate and sugar cane residues as an additional carbon source. Additionally, small volumes of hydrophyliced bacteria were added in the first few days to rapidly increase the available micro-organism population in the tanks. This strategy allowed for a controlled seeding process while closely examining biomass species under the microscope.

All sludge fed into the new plant was mesh filtered in the new rotary drum screens (punch-hole, 1mm) for failsafe operation of the membranes.

Modelling software (WEST) was used to simulate biomass growth in the biological tanks. As it turned out, WEST predictions were quite accurate in assessing the actual biomass growth rate during start-up. The time employed in seeding and concentrating the sludge was used to calibrate the input data for the modelling software.

Figure 7: Mathematically predicted versus measured trends in MBR tank regarding [MLSS]

Fouling control strategies during start-up: Flux control

Flux control is crucial for fouling control. It is well known that if flux is maintained below a certain critical value (known as critical flux), it is possible to ensure stable operation with little or negligible increase in TMP for longer periods, and hence reduce cleaning frequency. It is also true, however, that this critical flux is unique to every MBR plant and process water characteristics, and it is usually only ascertained through trial and error experimentation under design operational conditions (in this case, 12.5 g/l at 22-28 LMH). Strict flux control during commissioning stage is thus essential to avoid accelerated fouling, particularly when using FS system configurations.

Flux values employed prior to reaching the design conditions were kept conservative, particularly at around 6-7 g/l MLSS when operation was kept well below the critical flux. Average biomass temperature at start-up was slightly above 16ºC.

Since commissioning time was getting closer and filtration had to be resumed promptly prior to the Easter vacation period, filtration was started with a low MLSS of 6.5 g/l and a flux below 8 LMH, with a maximum allowed emergency flux of 10 LMH. The operational flux allowed at each of the commissioning phases (see below) was chosen according to previous experiences with the chosen membrane technology.

Figure 8: Operational flux at each of the commissioning phases

This filtration time prior to commissioning, even at these low fluxes (design flux was 22 LMH) allowed for both biomass concentration and biomass acclimatation while reaching the more acceptable MLSS levels above 10 g/l. Again, the WEST modelling software was employed to forecast biomass growth and hence inform the initiation of full-flow start-up of the plant.

Fouling control strategies during start-up: Air scouring control and optimisation

The beneficial effects of air scouring to control fouling at the membrane surface of flat sheet membranes is well documented. Typically, it is assumed that there is a linear relationship between membrane flux (Lwater/m2/h) and the air scouring rate (Nm3/h/m2), within some limits above which this positive influence of higher air volume per unit membrane area is no longer observed. The designed air scouring range for the membranes was from 0.42-0.6 Nm3/h/m2 – typical for a double-deck Toray system.

Initially, the MBR control system had been programmed so as to reduce the energy consumption related to air scouring according to a flux/TMP related algorithm; that is, employing the lowest air scouring rate possible so as to maintain a flux below the critical flux value. This type of control assumed a steady sludge concentration within the design limits (12-15 g/l), as opposed to the low solids concentration operation required at the start-up phase. For this reason, it was decided to re-program the SCADA control software so that it would allow for an additional operational mode with low MLSS, where the highest air scouring rate could be employed when [MLSS] in the MBR tanks was below a critical value of 8 g/l.

Figure 9: MBR pumps at Arenales del Sol

Also, during low or no inflow periods to the plant, the MBR would allow for intermittent aeration every 30 minutes to maintain aerobic conditions, avoiding sludge settling at the bottom of the tanks and between the membrane plates. When not in operation, all membrane lanes were aerated for 2.5 minutes every 25 minutes. During low inflow periods, the eight MBR lanes were operated alternatively in pairs.

Finally, a submersible mixer was installed in each MBR lane not fitted with MBR modules (until second commissioning phase) to keep biomass in suspension, while a minimum 200% recirculation was maintained.

Fouling control strategies during start-up: Polymer dosing

To minimise potential fouling at initial low MLSS, it was also decided to dose a synthetic cationic polymer, (MPE 50, Nalco) designed to suppress membrane fouling. This product has shown good results in increasing critical flux at other existing MBRs worldwide at low temperatures, as per the MBR consultants’ experience, and also suppresses foaming. It was not possible at the time of commissioning to evaluate fully the beneficial effects of the addition of this polymer, since there was a simultaneous temperature increase in the sludge at the time of dosing (see graph).

The dosage of MPE 50 was initiated at 4 g/l MLSS and was stopped shortly before reaching 9 g/l. The use of this product was considered, however, a viable option to reduce fouling – or enhance flux – and it was subsequently included in the plant’s O&M guidelines as an emergency strategy to improve plant’s overall performance during storm events, load changes or significant temperature decrease.

Figure 10: Flux versus TMP during startup (MBR line B1) at Arenales del Sol WWTP

Fouling control strategies during start-up: Foaming

Foaming is a common issue in biotreatment processes and there are a large number of management strategies, yet these are not always put into practice. Historically, there have been many MBR plants installed without foaming removal or control systems in their designs which subsequently experienced problems during foaming events, with foam sometimes overflowing into the biological tanks.

The occurrence of foam at start-up and operational stages differs both in its origin and also in its magnitude. The release of the hydrophilic agent the membranes are coated with for preservation during storage may cause a very light and clear foam, which disappears within hours once filtration conditions start. Another type of foaming that can happen at the same time is of biological origin and can arise from low temperatures, insufficient organic loads, a non-acclimatised biomass or excessive chemical cleanings.

Foaming may be exacerbated when the biological process in the aerobic/anoxic tanks and the MBR is interrupted due to the typical PID and equipment adjustments that take place during start-up. As a result, extensive inactivation of micro-organisms will lead to foaming due to proteinaceous DNA release from dead cells. Finally, foaming occurrence during normal and stable operation of MBRs is also common due to the long SRTs, yet this foam type tends to be naturally controlled at large municipal plants as long as foam is not “trapped” in the reactor.

At Arenales del Sol, foaming issues were taken into consideration when designing the biological tanks, ensuring that there was always an overflow from anoxic tanks through to the MBR chambers and into the recirculation chamber. Any foaming event eventually ends up at the MBR lanes, where an overflow weir directs all recirculating sludge (and foam) into a channel fitted with a simple foam removal system that operates with two manually operated gates. All foam removed is accumulated in a sump fitted with submersible pumps, from where it can then be sent to the sludge dewatering system, or back into the recirculation pipeline into the anoxic tanks.

Conclusions

The Arenales del Sol plant was, at the time of commissioning, under some of the typical pressures found in municipal WWTPs in coastal regions. There was an urgency to have the plant fully working at certain dates and there was no room for error in either the water quality to be provided or in reliance on the existing plant which could no longer provide efficient treatment.

The previous MBR knowledge of the contractor, MBR system integrators and technical assistance ensured a rapid commissioning with minimal deviations from the planned schedule over a period of eight weeks. The whole WWTP was designed with a great amount of contingency equipment and fully orientated towards MBRs.

The WEST modelling software was helpful in forecasting potential biological process pitfalls prior to the plant attaining design conditions and aided greatly in the planning of sludge seeding and biomass acclimatation. It also provided useful strategies for operation, as the software was also used to simulate different inflow scenarios throughout the year.

Finally, a great deal of care and planning was put into the commissioning and start-up phases of the project, with various preventive fouling control techniques enforced with the sole aim of reducing plant downtime for maintenance cleaning and ensuring full flow treatment capability for the critical first few months.

 
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中國城鎮(zhèn)供水排水協(xié)會(huì)城鎮(zhèn)水環(huán)境專業(yè)委員會(huì)2023年年會(huì)暨換屆大會(huì) 直播時(shí)間:2023年12月16日(周六)08:30—18:00 2023-12-16 08:30:00 開始 第二屆歐洲華人生態(tài)與環(huán)境青年學(xué)者論壇-水環(huán)境專題 直播時(shí)間:2023年12月9日(周六)16:00—24:00 2023-12-09 16:00:00 開始
JWPE網(wǎng)絡(luò)報(bào)告:綜述論文寫作的一點(diǎn)體會(huì) 直播時(shí)間:2023年11月30日(星期四)19:00 2023-11-30 19:00:00 開始 WaterInsight第9期丨強(qiáng)志民研究員:紫外線水消毒技術(shù) 再生水
水域生態(tài)學(xué)高端論壇(2023)熱帶亞熱帶水生態(tài)工程教育部工程研究中心技術(shù)委員會(huì)會(huì)議 直播時(shí)間:2023年11月29日(周三) 09:00—17:40 2023-11-29 09:00:00 開始 中國給水排水直播:智慧水務(wù)與科技創(chuàng)新高峰論壇 直播時(shí)間:2023年11月25日(周六) 13:30 2023-11-25 13:30:00 開始
中國水協(xié)團(tuán)體標(biāo)準(zhǔn)《城鎮(zhèn)污水資源與能源回收利用技術(shù)規(guī)程》宣貫會(huì)通知 中國城鎮(zhèn)供水排水協(xié)會(huì) 2023年11月14日9:00線上舉行直播/JWPE網(wǎng)絡(luò)報(bào)告:提高飲用水安全性:應(yīng)對(duì)新的影響并識(shí)別重要的毒性因素
直播主題:“對(duì)癥下藥”解決工業(yè)園區(qū)污水處理難題   報(bào)告人:陳智  蘇伊士亞洲 技術(shù)推廣經(jīng)理 直播時(shí)間:2023年11月2日(周四)14:00—16:00 2023-11-02 14:00:00 開始 10月29日·上海|市政環(huán)境治理與水環(huán)境可持續(xù)發(fā)展論壇
BEST第十五期|徐祖信 院士 :長江水環(huán)境治理關(guān)鍵      直播時(shí)間:2023年10月26日(周四)20:00—22:00 2023-10-26 20:00:00 開始 《水工藝工程雜志》系列網(wǎng)絡(luò)報(bào)告|學(xué)術(shù)論文寫作之我見 直播時(shí)間:2023年10月19日(周四)19:00 2023-10-19 19:00:00 開始
污水處理廠污泥減量技術(shù)研討會(huì) 直播時(shí)間:2023年10月20日13:30-17:30 2023-10-20 13:30:00 開始 技術(shù)沙龍 | 先進(jìn)水技術(shù)博覽(Part 12) 直播時(shí)間:10月14日(周六)上午10:00-12:00 2023-10-14 10:00:00 開始
直播題目:蘇伊士污泥焚燒及零碳足跡概念污泥廠 主講人:程忠紅 蘇伊士亞洲 技術(shù)推廣經(jīng)理  內(nèi)容包括: 1.	SUEZ污泥業(yè)務(wù)產(chǎn)品介紹 2.	全球不同焚燒項(xiàng)目介紹 3.	上海浦東污泥焚燒項(xiàng)目及運(yùn)營情況 中國給水排水第十四屆中國污泥千人大會(huì)參觀項(xiàng)目之一:上海浦東新區(qū)污水廠污泥處理處置工程
《水工藝工程雜志》系列網(wǎng)絡(luò)報(bào)告 直播時(shí)間:2023年9月26日 16:00  王曉昌  愛思唯爾期刊《水工藝工程雜志》(Journal of Water Process Engineering)共同主 中國給水排水2024年污水處理廠提標(biāo)改造(污水處理提質(zhì)增效)高級(jí)研討會(huì)(第八屆)邀請(qǐng)函暨征稿啟事  同期召開中國給水排水2024年排水管網(wǎng)大會(huì)  (水環(huán)境綜合治理)  同期召開中國給水排水 2024年
海綿城市標(biāo)準(zhǔn)化產(chǎn)業(yè)化建設(shè)的關(guān)鍵內(nèi)容 結(jié)合項(xiàng)目案例,詳細(xì)介紹海綿城市建設(shè)的目標(biāo)、技術(shù)體系及標(biāo)準(zhǔn)體系,探討關(guān)鍵技術(shù)標(biāo)準(zhǔn)化產(chǎn)業(yè)化建設(shè)的路徑,提出我國海綿城市建設(shè)的發(fā)展方向。 報(bào)告題目:《城鎮(zhèn)智慧水務(wù)技術(shù)指南》   中國給水排水直播平臺(tái): 主講人簡(jiǎn)介:  簡(jiǎn)德武,教授級(jí)高級(jí)工程師,現(xiàn)任中國市政工程中南設(shè)計(jì)研究總院黨委委員、副院長,總院技術(shù)委員會(huì)副主任委員、信息技術(shù)委員會(huì)副主
第一輪通知 | 國際水協(xié)第18屆可持續(xù)污泥技術(shù)與管理會(huì)議 主辦單位:國際水協(xié),中國科學(xué)院  聯(lián)合主辦單位:《中國給水排水》雜志社 等 技術(shù)沙龍 | 先進(jìn)水技術(shù)博覽(Part 11) 直播時(shí)間:8月19日(周六)上午10:00-12:00 2023-08-19 10:00:00  廣東匯祥環(huán)境科技有限公司  湛蛟  技術(shù)總監(jiān)  天津萬
中國水業(yè)院士論壇-中國給水排水直播平臺(tái)(微信公眾號(hào)cnww1985):自然—社會(huì)水循環(huán)與水安全學(xué)術(shù)研討會(huì) WaterInsight第7期丨掀浪:高鐵酸鉀氧化技術(shù)的機(jī)理新認(rèn)知及應(yīng)用 直播時(shí)間:2023年8月5日(周六)上午10:00-11:00 2023-08-05 10:00:00 開始
直播:“一泓清水入黃河”之山西省再生水產(chǎn)業(yè)化發(fā)展專題講座 直播時(shí)間:2023年7月23日(周日 )08:00-12:00 2023-07-23 08:00:00 開始 珊氮自養(yǎng)反硝化深度脫氮技術(shù)推介會(huì) 直播時(shí)間:2023年7月21日(周五)
歐仁環(huán)境顛覆性技術(shù):污水廠擴(kuò)容“加速跑”(原有設(shè)施不動(dòng),污水處理規(guī)模擴(kuò)容1倍!出水水質(zhì)達(dá)地表水準(zhǔn)IV類標(biāo)準(zhǔn)。苿(dòng)污水治理提質(zhì)增效。  誠征全國各地污水廠提標(biāo)擴(kuò)容工程需求方(水務(wù)集團(tuán)、BOT公司、設(shè) 直播預(yù)告|JWPE網(wǎng)絡(luò)報(bào)告:自然系統(tǒng)中難降解污染物去除的物化與生化作用及水回用安全保障 中國給水排水
直播題目: 高排放標(biāo)準(zhǔn)下污水中難降解COD的去除技術(shù)     報(bào)告人:蘇伊士亞洲 技術(shù)推廣經(jīng)理 程忠紅 WaterTalk|王凱軍:未來新水務(wù) 一起向未來  For and Beyond Water 中國環(huán)境科學(xué)學(xué)會(huì)水處理與回用專業(yè)委員會(huì)以網(wǎng)絡(luò)會(huì)議形式舉辦“水與發(fā)展縱論”(WaterTalk)系列學(xué)術(shù)報(bào)
5月18日下午 14:00—16:00 直播  題目: 高密度沉淀池技術(shù)的迭代更新 主講人: 程忠紅 蘇伊士亞洲 技術(shù)推廣經(jīng)理  大綱:  高密池技術(shù)原理 不同型號(hào)高密池的差異和應(yīng)用區(qū)別 高密池與其他 BEST|綠色低碳科技前沿與創(chuàng)新發(fā)展--中國工程院院士高翔教授  直播時(shí)間:2023年4月30日 14:00—16:00 2023-04-30 14:00:00 開始
日照:“碳”尋鄉(xiāng)村振興“綠色密碼”  鳳凰網(wǎng)山東    鄉(xiāng)村生態(tài)宜居,鄉(xiāng)村振興的底色才會(huì)更亮。我市堅(jiān)持鄉(xiāng)村建設(shè)與后續(xù)管護(hù)并重,市、區(qū)、鎮(zhèn)聯(lián) BEST論壇講座報(bào)告第十三期(cnwww1985):全球碳預(yù)算和未來全球碳循環(huán)的不穩(wěn)定性風(fēng)險(xiǎn) The global carbon budget and risks of futur
國際水協(xié)IWA 3月17日直播:3月17日 國際水協(xié)IWA創(chuàng)新項(xiàng)目獎(jiǎng)PIA獲獎(jiǎng)項(xiàng)目介紹分享會(huì) 直播時(shí)間:2023年3月17日 9:00—11:30 2023-03-17 09:00:00 開始 中國給水排水直播:云中漫步-融合大數(shù)據(jù)、人工智能及云計(jì)算的威立雅智慧水務(wù)系統(tǒng)Hubgrade 直播時(shí)間:2023年3月15日
中國給水排水直播平臺(tái)會(huì)議通知 | 2023污泥處理處置技術(shù)與應(yīng)用高峰論壇(清華大學(xué)王凱軍教授團(tuán)隊(duì)等) 中國污水千人大會(huì)參觀項(xiàng)目之一: 云南合續(xù)環(huán)境科技股份有限公司  ?谑形鞅捞端|(zhì)凈化中心
中國給水排水 Water Insight直播:劉銳平  清華大學(xué) 環(huán)境學(xué)院 教授 博士生導(dǎo)師—高濃度硝酸鹽廢水反硝化脫氮過程強(qiáng)化原理與應(yīng)用 會(huì)議時(shí)間:2023.1.7(周六)10:00—11:00 智慧水務(wù)的工程全生命周期實(shí)踐分享 直播時(shí)間:2023年1月6日 15:00-16:00 對(duì)話嘉賓:竇秋萍  華霖富水利環(huán)境技術(shù)咨詢(上海)有限公司  總經(jīng)理 主持人:李德橋   歐特克軟件(中國)有限
蘇伊士 直播時(shí)間:12月30日14:00-16:00直播題目:污泥處理處置的“因地制宜和因泥制宜” 主講人:程忠紅,蘇伊士亞洲  技術(shù)推廣經(jīng)理 特邀嘉賓:劉波 中國市政工程西南設(shè)計(jì)研究總院二院總工 教 蘇伊士 直播時(shí)間:12月27日14:00-16:00;復(fù)雜原水水質(zhì)下的飲用水解決方案    陳智,蘇伊士亞洲,技術(shù)推廣經(jīng)理,畢業(yè)于香港科技大學(xué)土木與環(huán)境工程系,熟悉市政及工業(yè)的給水及污水處理,對(duì)蘇伊士
曲久輝  中國工程院院士,美國國家工程院外籍院士,發(fā)展中國家科學(xué)院院士;清華大學(xué)環(huán)境學(xué)院特聘教授、博士生導(dǎo)師;中國科學(xué)院生態(tài)環(huán)境研究中心研究員 基于模擬仿真的污水處理廠數(shù)字化與智慧化:現(xiàn)狀與未來 直播時(shí)間:2022年12月28日(周三)9:30—12:00
2022城鎮(zhèn)溢流污染控制高峰論壇|聚焦雨季溢流污染控制的技術(shù)應(yīng)用與推廣 中國給水排水 王愛杰 哈爾濱工業(yè)大學(xué)教授,國家杰青,長江學(xué)者,國家 領(lǐng)軍人才:廣州大學(xué)學(xué)術(shù)講座|低碳水質(zhì)凈化技術(shù)及實(shí)踐 直播時(shí)間:2022年12月18日 9:30
國際水協(xié)會(huì)哥本哈根世界水大會(huì)成果分享系列網(wǎng)絡(luò)會(huì)議 直播時(shí)間:2022年12月15日 20:00—22:00 德國專場(chǎng)直播主題:2022 中國沼氣學(xué)術(shù)年會(huì)暨中德沼氣合作論壇 2022 中國沼氣學(xué)術(shù)年會(huì)暨中德沼氣合作論壇德國專場(chǎng) 時(shí)間:2022年12月20日  下午 15:00—17:00(北京時(shí)間)
2022中國沼氣學(xué)會(huì)學(xué)術(shù)年會(huì)暨第十二屆中德沼氣合作論壇的主論壇將于12月15日下午2點(diǎn)召開 技術(shù)交流 | 德國污水處理廠 計(jì)算系列規(guī)程使用介紹 城建水業(yè)
WaterInsight首期丨王志偉教授:膜法水處理技術(shù)面臨的機(jī)遇與挑戰(zhàn) 直播時(shí)間:2022年12月10日 10:00—11:00 處理工藝專場(chǎng)|水業(yè)大講堂之六——城市供水直飲安全和智慧提質(zhì) 直播時(shí)間:2022年12月8日 8:30—12:15
建設(shè)管理專場(chǎng)|水業(yè)大講堂之六——城市供水直飲安全和智慧提質(zhì) 直播時(shí)間:2022年12月7日 14:00—17:15 國際水協(xié)會(huì)哥本哈根世界水大會(huì)成果分享系列網(wǎng)絡(luò)會(huì)議 直播時(shí)間:2022年12月8日 20:00—22:00
Training Course for Advanced Research & Development of Constructed Wetland Wastewater Treatment Tech 12月3日|2022IWA中國漏損控制高峰論壇 直播時(shí)間:2022年12月3日(周六)9:00—17:00 2022-12-03 09:00:00 開始
國際水協(xié)會(huì)哥本哈根世界水大會(huì)成果分享系列網(wǎng)絡(luò)會(huì)議(第八期) 直播時(shí)間:2022年12月1日 20:00—22:00 2022-12-01 20:00:00 開始 中國給水排水直播:智慧輸配專場(chǎng)|水業(yè)大講堂之六——城市供水直飲安全和智慧提質(zhì) 直播時(shí)間:2022年11月30日 14:00—17:05 2022-11-30 14:00:00 開始
國際水協(xié)會(huì)哥本哈根世界水大會(huì)成果分享系列網(wǎng)絡(luò)會(huì)議(第七期) 直播時(shí)間:2022年11月25日 20:00—22:00 2022-11-25 20:00:00 開始 國標(biāo)圖集22HM001-1《海綿城市建設(shè)設(shè)計(jì)示例(一)》首次宣貫會(huì)   直播時(shí)間:2022年11月24日 13:30—17:30
中國給水排水直播平臺(tái) 【 李玉友,日本國立東北大學(xué)工學(xué)院土木與環(huán)境工程系教授,博導(dǎo),注冊(cè)工程師】顆粒污泥工藝的研究和應(yīng)用:從UASB到新型高效脫氮和磷回收 中國建科成立70周年|市政基礎(chǔ)設(shè)施綠色低碳發(fā)展高峰論壇   直播時(shí)間:2022年11月22日 13:30—18:25   2022-11-22 13:30:00 開始
國際水協(xié)會(huì)哥本哈根世界水大會(huì)成果分享系列網(wǎng)絡(luò)會(huì)議(第六期)   直播時(shí)間:2022年11月22日 20:00—22:00 會(huì)議預(yù)告| 國際水協(xié)會(huì)哥本哈根世界水大會(huì)成果分享系列網(wǎng)絡(luò)會(huì)議(第五期) 中國給水排水
奮進(jìn)七十載 起航新征程|中國市政華北院第十屆科技工作會(huì)議暨慶祝建院七十周年大會(huì)  直播時(shí)間:2022年11月18日 9:30   2022-11-18 09:00:00 開始 樊明遠(yuǎn):中國城市水業(yè)的效率和服務(wù)要做一個(gè)規(guī)范     樊明遠(yuǎn) 世界銀行高級(jí)工程師
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