Biofilm as a live and in-situ formed membrane for solids separation in bioreactors: Biofilm succession governs resistance variation demonstrated during the start-up period

The tremendous input of ammonium and rare earth element (REE) ions released by the enormous consumption of (NH4)2SO4 in in situ leaching for ion-adsorption RE mining caused serious ground and surface water contamination. Anaerobic ammonium oxidation (anammox) was a sustainable in situ technology that can reduce this nitrogen pollution. In this research, in situ, semi in situ, and ex situ method of inoculation that included low-concentration (0.02 mg·L−1) and high-concentration (0.10 mg·L−1) lanthanum (La)(III) were adopted to explore effective start-up strategies for starting up anammox reactors seeded with activated sludge and anammox sludge. The reactors were refrigerated for 30 days at 4 °C to investigate the effects of La(III) during a period of low-temperature. The results showed that the in situ and semi in situ enrichment strategies with the addition of La(III) at a low-concentration La(III) addition (0.02 mg·L−1) reduced the length of time required to reactivate the sludge until it reached a state of stable anammox activity and high nitrogen removal efficiency by 60–71 days. The addition of La(III) promoted the formation of sludge floc with a compact structure that enabled it to resist the adverse effects of low temperature and so to maintain a high abundance of AnAOB and microbacterial community diversity of sludge during refrigeration period. The addition of La(III) at a high concentration caused the cellular percentage of AnAOB to decrease from 54.60 ± 6.19% to 17.35 ± 6.69% during the enrichment and reduced nitrogen removal efficiency to an unrecoverable level to post-refrigeration.

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Recovery and enhanced yields of volatile fatty acids from a grass fermentation via in-situ solids separation and electrodialysis

Journal of Cleaner Production ◽

10.1016/j.jclepro.2021.126430 ◽

2021 ◽

pp. 126430

Author(s):

R.J. Jones ◽

J. Massanet-Nicolau ◽

R. Fernandez-Feito ◽

R.M. Dinsdale ◽

A.J. Guwy

Keyword(s):

Fatty Acids ◽

Volatile Fatty Acids ◽

Solids Separation

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High flowrate microreactors integrating in situ grown ZnO nanowires for photocatalytic degradation

Reaction Chemistry & Engineering ◽

10.1039/d1re00325a ◽

2022 ◽

Author(s):

Nathan Martin ◽

Vivien Lacour ◽

Cécile Mong-Tu Perrault ◽

Emmanuel Roy ◽

Yamin Leprince-Wang

Keyword(s):

Photocatalytic Degradation ◽

High Volume ◽

Low Pressure ◽

Zno Nanowires ◽

Innovative Design ◽

Start Up

A high-volume, low-pressure microfluidic photocatalytic microreactor was created and demonstrated here. This high-flowrate microreactor, based on an innovative design developed by the start-up Eden Tech, was produced by a simple...

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Innovations of Gas Lift in Prolific, Long-perforations, and Multilayered Wells, Case Study in Sudan

10.2118/afrc-2566102-ms ◽

2016 ◽

Author(s):

Xueqing Tang ◽

Lirong Dou ◽

Ruifeng Wang ◽

Jie Wang ◽

Shengbao Wang ◽

...

Keyword(s):

High Water ◽

Water Breakthrough ◽

Start Up ◽

Production Wells ◽

Decline Curves ◽

High Water Cut ◽

Water Cut ◽

Gas Lift

ABSTRACT Jake field, discovered in July, 2006, contains 10 oil-producing and 12 condensate gas-producing zones. The wells have high flow capacities, producing from long-perforation interval of 3,911 ft (from 4,531 to 8,442 ft). Production mechanisms include gas injection in downdip wells and traditional gas lift in updip, zonal production wells since the start-up of field in July, 2010. Following pressure depletion of oil and condensate-gas zones and water breakthrough, traditional gas-lift wells became inefficient and dead. Based on nodal analysis of entire pay zones, successful innovations in gas lift have been made since March, 2013. This paper highlights them in the following aspects: Extend end of tubing to the bottom of perforations for commingled production of oil and condensate gas zones, in order to utilize condensate gas producing from the lower zones for in-situ gas lift.Produce well stream from the casing annulus while injecting natural gas into the tubing.High-pressure nitrogen generated in-situ was used to kick off the dead wells, instead of installation of gas lift valves for unloading. After unloading process, the gas from compressors was injected down the tubing and back up the casing annulus.For previous high water-cut producers, prior to continuous gas lift, approximately 3.6 MMcf of nitrogen can be injected and soaked a couple of days for anti-water-coning.Two additional 10-in. flow lines were constructed to minimize the back pressure of surface facilities on wellhead. As a consequence, innovative gas-lift brought dead wells back on production, yielding average sustained liquid rate of 7,500 bbl/d per well. Also, the production decline curves flattened out than before.

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A Simple, Reusable and Low-Cost LVDT-Based in Situ Bolt Preload Monitoring System during Fastening for a Truck Wheel Assembly

Metals ◽

10.3390/met9030336 ◽

2019 ◽

Vol 9 (3) ◽

pp. 336

Author(s):

Shin Jang ◽

Juhyun Nam ◽

Samgon Lee ◽

Je Oh

Keyword(s):

Monitoring System ◽

Low Cost ◽

Carbon Paste ◽

Element Analysis ◽

Bolt Preload ◽

Resistance Variation ◽

Conductive Line ◽

System L ◽

Measurement Results

The aim of this study is to design and test a new, simple, and reusable linear variable differential transformer (LVDT)-based in situ bolt preload monitoring system (L-PMS) during fastening of a truck wheel assembly. Instead of measuring the elongation of a bolt, the distance between the end surfaces of both the bolt and nut was monitored via the L-PMS. The distance obtained from the L-PMS was experimentally correlated with the actual preload measured by a washer-type load cell. Since the variation of the distance is related to the stiffness of the bolt and clamped parts, a finite element analysis was also conducted to predict the sensitivity of L-PMS. There was a strong linear relationship between the distance and bolt preload after the bolt and nut were fully snugged. However, a logarithm-shaped nonlinear relationship was irregularly observed before getting snugged, making it difficult to define a clear relationship. In order to tackle this issue, an arc-shaped conductive line was screen-printed onto the surface of the clamped parts using a conductive carbon paste. The results show that a resistance variation of the conductive line during fastening enables to determine the snug point, so the L-PMS combined with resistance measurement results in an approximately ±6% error in the measurement of bolt preload. The proposed L-PMS offers a simple but highly reliable way for measuring bolt preload during fastening, which could be utilized in a heavy-truck production line.

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An effective strategy for in situ start-up of mainstream anammox process treating domestic sewage

Bioresource Technology ◽

10.1016/j.biortech.2021.125525 ◽

2021 ◽

pp. 125525

Author(s):

Jianhua Zhang ◽

Yuanyuan Miao ◽

Yawen Sun ◽

Qiong Zhang ◽

Jiatong Dai ◽

...

Keyword(s):

Domestic Sewage ◽

Effective Strategy ◽

Start Up ◽

Anammox Process

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A successful start-up of an anaerobic membrane bioreactor (AnMBR) coupled mainstream partial nitritation-anammox (PN/A) system: A pilot-scale study on in-situ NOB elimination, AnAOB growth kinetics, and mainstream treatment performance

Water Research ◽

10.1016/j.watres.2021.117783 ◽

2021 ◽

pp. 117783

Author(s):

Jiang Wu ◽

Zhe Kong ◽

Zibin Luo ◽

Yu Qin ◽

Chao Rong ◽

...

Keyword(s):

Growth Kinetics ◽

Membrane Bioreactor ◽

Pilot Scale ◽

Partial Nitritation ◽

Anaerobic Membrane Bioreactor ◽

Treatment Performance ◽

System A ◽

Start Up

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Municipal wastewater treatment by a periodic biofilter with granular biomass

Water Science & Technology ◽

10.2166/wst.2008.836 ◽

2008 ◽

Vol 58 (12) ◽

pp. 2395-2401 ◽

Cited By ~ 5

Author(s):

C. Di Iaconi ◽

G. Del Moro ◽

A. Lopez ◽

M. De Sanctis ◽

R. Ramadori

Keyword(s):

Wastewater Treatment ◽

Municipal Wastewater ◽

Treatment Plant ◽

Biomass Concentration ◽

Municipal Wastewater Treatment ◽

Hydraulic Residence Time ◽

Microbial Composition ◽

Start Up ◽

Granular Biomass

The paper reports the results obtained during an experimental campaign aimed at transferring aerobic granulation to a demonstrative SBBGR system (i.e., a submerged biofilter that operates in a “fill and draw” mode) for the treatment of municipal wastewater by financial support of the European Commission, within the framework of Life-Environment Programme (PERBIOF Project; www.perbiof-europe.com). The results show that following the generation of granular biomass during the start-up period, the SBBGR was able to remove 80-90% of COD, total suspended solids and ammonia occurring in primary effluent from a municipal wastewater treatment plant even when the minimum hydraulic residence time (i.e., 4 h) was investigated. The process was characterised by a sludge production almost one magnitude order lower than commonly reported for conventional treatment plants. The granular biomass was characterised by a high density (i.e., 150 gTSS/Lbiomass) that allowed a biomass concentration as high as 35 kgTSS/m3bed to be achieved. Proteobacteria were found as main microbial components of the granular biomass by applying Fluorescence In Situ Hybridization (FISH). No significant changes in microbial composition were observed during reactor operation.

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