Decolorization of dye wastewater before discharge is pivotal because of its immense color and toxicities.www.wyactivatedcarbon.com In this study, a granular activated carbon based microbial fuel cell (GACB-MFC) was used without using any expensive materials like Nafion membrane and platinum catalyst for simultaneous decolorization of real dye wastewater and bioelectricity generation. After 48 hours of GACB-MFC operation, 73% color was removed at anode and 77% color was removed at cathode. COD removal was 71% at the anode and 76% at the cathode after 48 hours. Toxicity measurements showed that cathode effluent was almost nontoxic after 24 hours. The anode effluent was threefold less toxic compared to original dye wastewater after 48 hours. granular activated carbon wholesale The GACB-MFC produced a power density of 1.7 W/m(3) with an open circuit voltage 0.45 V. One of the advantages of the GACB-MFC system is that pH was automatically adjusted from 12.4 to 7.2 and 8.0 at the anode and cathode during 48 hours operation.
This product is installed in the exhaust systems of the vehicles specifically inside the exhaust line situated between the engine and silencer.
Global platinum automotive catalyst market is expected to grow with a steady CAGR in the forecast period of 2019-2026.
This rise in market value can be attributed to the high levels of production and manufacturing of vehicles and effectivity of these products to restrict/control the emissions of toxic gases from the vehicles.
Top Manufacturers Covered in the Report: INTERKAT Catalyst GmbH; Johnson Matthey; CDTi Advanced Materials, Inc.; BASF SE; Royal Dutch Shell; Clariant; Heraeus Holding; CATALER CORPORATION; Ecocat India Pvt.
Ltd.; DEC; Magneti Marelli S.p.A.; Tenneco Inc.; Umicore; Cummins Inc.; Eberspächer; N.E.
CHEMCAT; SINOCATA; IBIDEN; BOSAL and Klarius Products Ltd.Get Exclusive Sample Report: @ https://www.databridgemarketresearch.com/request-a-sample/?dbmr=global-platinum-automotive-catalyst-marketTable of Content-01: Executive Summary02: Scope of The Report03: Market Landscape04: Market Sizing05: Market Segmentation by Product06: Five Forces Analysis07: Customer Landscape08: Geographic Landscape09: Decision Framework10: Drivers and Challenges11: Market Trends12: Vendor Landscape13: Vendor AnalysisTo Continue…….!!!
Fact.MR has recently added a new research report on the global Nafion market size to its repository.
This report aims to help readers in understanding key technologies as well as product developments in this market during the forecast period of 2020 to 2030.
Analysts at Fact.MR highlight that the global Nafion market will show growth at a prominent CAGR of 6% during the period of analysis.This report intends to offer an in-depth analysis of various important aspects such as opportunities, drivers, challenges, and restraints of the global Nafion market.
In addition to this, it provides detailed data on various key players working in this market together with important data on their diverse business strategies to maintain their prominent market position.The overall share, volume, and other additional important information of important players is also precisely presented in the latest report on the global Nafion market.
Apart from this, readers get a clear idea about emerging players and the competitive landscape of the market for Nafion during the forecast period of 2020 to 2030.
Thus, the report includes reliable data on partnerships, new product launches, mergers, and acquisitions occurring in the global Nafion market during the period of analysis.To know more about this market – trends, drivers, regional analysis – request a sample @ https://www.factmr.com/connectus/sample?flag=S_id=4965Fact.MR’s latest report delivers a complete study of the impact of COVID-19 on the Nafion market in the present situation.
Schlumberger continues to lead the industry with state-of-the-art CYNARA acid gas removal membrane systemsOverview – CYNARA Acid Gas Removal Membrane Systems- CO2 and H2S removal with field-proven 99% operational uptimeCYNARA acid gas removal membrane systems efficiently and selectively permeate acid gases to separate them from produced gas streams that contain 5- to 95-mol% acid gas.These systems are ideal for stand-alone bulk acid gas removal and the treatment of produced gas to meet pipeline transmission and natural gas heating specifications.
They can provide permeate streams of more than 95% pure CO2 for enhanced oil recovery (EOR) injection applications.
Used in a hybrid acid gas treatment train, they provide bulk separation of produced gas streams that are subsequently treated by an amine system or other separation technologies.- Compact design eliminates liquid chemicals and improves logisticsThe compact footprint of the membrane systems and their largely self-contained functionality make them well suited for offshore applications.
There are no moving parts or chemical requirements because the systems work on the principle of diffusion and solubility-based separation.In addition to eliminating the weight of liquid chemicals and the need for liquid recirculation equipment and associated maintenance, CYNARA systems eliminate the logistics associated with the transportation and storage of liquid amine chemicals onshore and offshore.
The need to superheat gas streams containing >40% CO2 and related costs are also minimized because the membranes can efficiently handle condensing hydrocarbons.- Options to optimize performance for different acid gas concentrationsThree membrane-based acid gas removal options are available.
– CYNARA PN-1 dual-zoned acid gas removal membrane permeates the highest concentrations of inlet acid gas in Zone 1, directing lower concentrations of acid gas into Zone 2, and optimizing the treatment of produced gas streams with irregular levels of CO2 and H2S.