separation and purification technology

Separation and Purification Technology

thermochemical conversion [7] in combination with syngas purifica-tion [8] and methanation [9] or by biochemical conversion plus sub-sequent gas upgrading [10,11]. Fig. 1 shows the corresponding biogas process chain. Nowadays, the so called Power-to-gas (PtG

Magnetic particles for the separation and purification

2006/10/25Nucleic acid separation is an increasingly important tool for molecular biology. Before modern technologies could be used, nucleic acid separation had been a time- and work-consuming process based on several extraction and centrifugation steps, often limited by small yields and low purities of the separation products, and not suited for automation and up-scaling. During the last few

International Conference on Ionic Liquids in Separation

The aim of the Fifth International Conference on Ionic Liquids in Separation and Purification Technology is to provide a forum for researchers in academia, national laboratories, and industry to share and discuss their latest results on the use of ionic liquids in separation applications.

Separation and Purification Technology

[39–concentration of acids41], [42–44], separation of pharmaceutical residues at very low to moderate concentrations [45,46], and waste-water treatment and water recovery [47–52] provides a strong argu-ment to consider MD as a potential technology that can

CHAPTER 8 Separation and Purification Methods

Separation and Purification Methods they have high solubilities in both aqueous and organic phases, and can set up single-phase systems (i.e., nothing to separate) or emulsions. Typical extraction solvents include ethyl acetate, hexane, chloroform, methylene

Separation and Purification Technology

bJG Environmental Technology Co., Ltd., No. 8, Gaoping Sec., Zhongfeng Rd., Longtan Township, Taoyuan County 325, Taiwan article info Article history: Received 8 January 2013 Received in revised form 15 April 2013 Accepted 18 April 2013 Available online 30

Separation and Purification Technology

as major faecal contaminant in water purification systems as well [25,26]. 2. Experimental section 2.1. Synthesis and characterization of materials TCTAPVP based conducting polymer (CP) was synthesized by heat polymerization of Tris(4-carbazoyl-9 and 4

Separation and Purification Technology

a salt, and have been intensively explored and used in the separation and purification of several biomolecules [1–5]. Due to their renewable character, high biodegradability, and easy synthesis, deep eutectic solvents (DES) were also proposed as phase former

Separation and Purification Technology

technology to cold extract phenolic compounds (phenolic acids and flavonoids) from watercress in a selective way using a green solvent and reduced extraction times. 1. Introduction The recovery of bioactive compounds from natural sources and their

The Evolution of Cobalt Nickel Separation and Purification Technologies: Fifty Years of

The Evolution of Cobalt–Nickel Separation and Purification Technologies 1171 anti-oxidant, t-butylhydroxytoluene, which is oxidised in preference to the diluent. Modern cobalt SX plants typically employ aliphatic diluents to minimise this problem. A phasen

Separation and Purification Technologies in

Separation and purification processes play a critical role in biorefineries and their optimal selection, design and operation to maximise product yields and improve overall process efficiency. Separations and purifications are necessary for upstream processes as well as in maximising and improving product recovery in downstream processes. These processes account for a significant fraction of

Separation and Purification Technology

cations such as Fe 3+,Al and Ca2+. Chemical free processes are particularly preferred in decentralized treatment plant applications [8], such as net-zero water plants which are economical at plants serving as few as 100 – 1000 homes [13]. For example, although

Structured adsorbents in gas separation processes

244 F. Rezaei, P. Webley / Separation and Purification Technology 70 (2010) 243–256 ing more production from a given quantity of material. However, as cycle time is reduced, cyclic devices usually face the problem of decreasing working capacity per cycle for the

Separation and Purification Technology

(FO) membrane technology has been widely used in desalination [3], food concentration [4], osmotic power generation [5] and wastewater reclamation [2]. However, the major issue hindering its further devel-opment remained the serious internal concentration

Separation and Purification Technologies in Biorefineries

Separation and purification technologies in biorefineries / Shri Ramaswamy, Hua-Jiang Huang, Bandaru V. Ramarao. pages cm Includes index. ISBN 978-0-470-97796-5 (cloth) 1. Biomass conversion. 2. Biomass energy. I. Title. TP248.B55R36 2013 333.95 39

Separation and Purification Technology

Scope Separation and Purification Technology is a publication dedicated to the dissemination of separation research results and findings. Its coverage extends to all aspects of separation and purification of homogeneous solutions and heterogeneous mixtures.

Separation and Purification Technology

Read the latest articles of Separation and Purification Technology at ScienceDirect, Elsevier's leading platform of peer-reviewed scholarly literature Separation and Purification Technology is a journal dedicated to the dissemination of novel methods for separation and purification in chemical and environmental engineering for homogeneous solutions and heterogeneous mixtures.

One

Journal of Chromatography A, 1140 (2007) 107–111 One-step separation and purification of 3,4-dihydroxyphenyllactic acid, salvianolic acid B and protocatechualdehyde from Salvia miltiorrhiza Bunge by high-speed counter-current chromatography Ming Gu∗, Xiaolei Wang, Zhiguo Su, Fan Ouyang

Separation and Purification Technology

University of Technology, Jkrinkatu 31, FI-50100 Mikkeli, Finland. Tel.: +358 466417024. E-mail address: ayati_a_aliyahoo (A. Ayati). Separation and Purification Technology 133 (2014) 415–420 Contents lists available at ScienceDirect Separation and

Separation and Purification Technology

the correct balance between them and avoid instability problems leading to a decrease in the biomass settling ability. At present, classic settling ability measurements, e.g., the sludge volume index (SVI) and microscopic examination, merely provide basic

Recent developments in centrifuge technology

244 H. Anlauf / Separation and Purification Technology 58 (2007) 242–246 Fig. 6. Competition of disc stack separator, precoat drum filter and crossflow module. The principle situation for centrifugal separation is shown in Fig. 7 and the calculation of the centrifugal

Separation and Purification Technology

logarithmic scale as is described in Eq. (2). q=KC f 1/n (2) where K f is the maximum capacity (mmol/L) (−1/n) and 1/n is the adsorption intensity. 3.2.1.3. Sips isotherm. The Sips model is the combined form of Langmuir and Freundlich model. It circumvents the

Separation and Purification Technology

the huge disposal costs related to the Siemens method of Si purification at present. To investigate the feasibility of Si recovery from the wastes, several researchers have proposed various separation and purification techni-ques in the past few years and have

Separation and Purification Technology

a University of Twente, Faculty of Science and Technology, Sustainable Process Technology Group, 7500AE Enschede, the Netherlands b University of Applied Sciences and Arts Northwestern Switzerland, Institute for Chemistry and Bioanalytics, Hofackerstrasse 30, 4132 Muttenz, Switzerland

International Conference on Ionic Liquids in Separation

The aim of the Fifth International Conference on Ionic Liquids in Separation and Purification Technology is to provide a forum for researchers in academia, national laboratories, and industry to share and discuss their latest results on the use of ionic liquids in separation applications.

Separation and Purification Technology

technology to cold extract phenolic compounds (phenolic acids and flavonoids) from watercress in a selective way using a green solvent and reduced extraction times. 1. Introduction The recovery of bioactive compounds from natural sources and their

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