scispace - formally typeset
Search or ask a question

How much does hydrogen peroxide catalytic converter cost? 

Catalysis
Chemical reaction
NOx
Hydrogen peroxide
Catalytic converter

Answers from top 10 papers

More filters
Papers (10)Insight
Open accessJournal ArticleDOI
I.C. Engine emission reduction by copper oxide catalytic converter
S. P. Venkatesan, Desai Shubham Uday, Borana Karan Hemant, Kagita Rajarshi Kushwanth Goud, G. Lakshmana Kumar, K. Pavan Kumar 
01 May 2017
21 Citations
This catalytic converter system is cash effective and more economical than the existing catalytic converter.
Journal ArticleDOI
Removal of Propylene from Fuel‐Grade Propane
Paul F. Bryan
12 Jan 2004-Separation and Purification Reviews
72 Citations
Catalytic hydrogenation is straightforward, but also has a high capital cost, and the cost/availability of the continuous hydrogen production required may also be problematic.
Journal ArticleDOI
Mechanistic studies on the oxidative degradation of Orange II by peracetic acid catalyzed by simple manganese(II) salts. Tuning the lifetime of the catalyst
Sabine Rothbart, Erika Ember, Rudi van Eldik 
20 Feb 2012-New Journal of Chemistry
63 Citations
Selected catalytic experiments with different in situ formed intermediates showed the essential role of a small amount of hydrogen peroxide (omnipresent in commercial peracetic acid, 6 wt% H2O2) for efficient catalytic dye decomposition.
Open accessJournal Article
Running on natural gas
D Leeming
01 Sep 1989-Transport Engineer
4 Citations
Ultimately, the whole-life cost, including fitting, seems likely to be well within 400 to 500 pounds Sterling per vehicle--cheaper than a catalytic converter.
Journal ArticleDOI
Simultaneous removal of NOx and SO2 with H2O2 catalyzed by alkali/magnetism-modified fly ash: High efficiency, Low cost and Catalytic mechanism
Bingchuan Yang, Suxia Ma, Rongji Cui, Shujun Sun, Jie Wang, Shicheng Li 
01 Mar 2019-Chemical Engineering Journal
51 Citations
A catalyst with high efficiency and low-cost is proposed which can catalyze hydrogen peroxide (H2O2) for desulfurization and denitrification simultaneously in this study.
Journal ArticleDOI
ASYMMETRIC EPOXIDATION OF α,β-UNSATURATED KETONES WITH HYDROGEN PEROXIDE CATALYZED BY AXIALLY CHIRAL GUANIDINE BASE
Masahiro Terada, Megumi Nakano 
01 Nov 2008-Heterocycles
22 Citations
Hydrogen peroxide can be utilized as a cost-effective and atom-efficient oxidant in the present catalytic epoxidation even under heterogeneous conditions.
Journal ArticleDOI
Self-propagating high-temperature synthesis of Sr-doped LaMnO3 perovskite as oxidation catalyst
T. Hirano, Hadi Purwanto, Toshiyuki Watanabe, Tomohiro Akiyama 
30 Aug 2007-Journal of Alloys and Compounds
23 Citations
SHS showed the potential for the production of a relatively inexpensive catalytic converter.
Journal ArticleDOI
Ion effects in water oxidation to hydrogen peroxide
Ciaran James McDonnell-Worth, Douglas R. MacFarlane 
16 Jul 2014-RSC Advances
28 Citations
This process has the potential to provide a low energy-cost route to the generation of hydrogen peroxide, either for in situ use as a “green” oxidant or as part of a water splitting process for the generation of oxygen and hydrogen.
Journal ArticleDOI
Direct synthesis of hydrogen peroxide in a catalytic membrane contactor
Aneta Pashkova, Karel Svajda, Roland Dittmeyer 
15 May 2008-Chemical Engineering Journal
43 Citations
By optimization of the reactant supply, high productivity (up to 16.8 mol h −1  m −2 in methanol) and high selectivity (between 80% and 90%) to hydrogen peroxide could be demonstrated in this reaction for the first time with catalytic membranes.
Open accessJournal ArticleDOI
Hydrogen peroxide obtained via direct synthesis as alternative raw material for ultrapurification process to produce electronic grade chemical
R. Abejón, R. Abejón, A. Abejón, Pierdomenico Biasi, Nicola Gemo, Aurora Garea, Tapio Salmi, Jose Angel Irabien 
01 Apr 2016-Journal of Chemical Technology & Biotechnology
7 Citations
BACKGROUND The catalytic direct synthesis of hydrogen peroxide is a highly interesting alternative process to avoid the current anthraquinone route because it implies significant sustainability improvements.

Related Questions

How much dies it cost for a sperm donor?7 answers
How much does a sperm donation cost?2 answers
How much does a transistor cost?18 answers
How much does it cost for sperm donation?2 answers
How much does it cost to go to a sperm donor?5 answers
How much is a sperm donor cost?14 answers

See what other people are reading

How to make artificial biofilms?
4 answers
To create artificial biofilms, a method involving the combination of specific bacterial species and evaluation techniques is essential. The process includes developing an artificial biofilm using Porphyromonas gingivalis, Tannerella forsythia, Treponema denticola, and Streptococcus gordonii, followed by observation through microscopy and microflora analysis. Additionally, exposure to substances like chlorhexidine gluconate can be used to assess the effects on the biofilm, allowing for the evaluation of component effects. Other methods involve the production of artificial bacterial flagella through laser direct writing and wet metallization, enabling remote actuation using magnetic fields. Furthermore, the rational design of biofilm catalysts integrating extra- and intracellular catalysis systems has shown increased catalytic efficiency for biosynthesis processes. These diverse approaches highlight the multifaceted strategies involved in creating artificial biofilms for various applications.What is the global reaction mechanism for N2O C3H6 mixture?
5 answers
The global reaction mechanisms for various reactions involving N2O and C3H6 have been extensively studied in different contexts. For instance, the reaction mechanism of NO–C3H6–CO–O2 over NiFe2O4 involves the reduction of NO by C3H6 under three-way catalytic conditions, with acetate species reacting with NO–O2 to form N2 via NCO. Additionally, a global ab initio interpolated potential-energy surface for the H + N2O → OH + N2 reaction highlights the main mechanisms involving indirect processes and direct abstraction processes. Furthermore, the ion–molecule reaction of benzene anion with nitrous oxide has been characterized, revealing main pathways and competitive reactive pathways. These studies collectively contribute to understanding the complex global reaction mechanisms of N2O and C3H6 mixtures in various chemical processes.At what pH levels in the presence of ultrasonic iridation do DCPD and ACP phases emerge?
4 answers
In the presence of ultrasonic irradiation, the emergence of DCPD (Dicalcium phosphate dihydrate) and ACP (Amorphous calcium phosphate) phases is observed over a wide pH range. Specifically, the formation of these phases occurs in the pH range of 2-12. The ultrasonic treatment accelerates chemical reactions, leading to the rapid destruction of compounds like omethoate, with a significant portion undergoing destruction within cavitating holes. Additionally, the effect of ultrasonic irradiation on the catalytic activity of goethite powder in the presence of H2O2 at pH 3 is studied, showing enhanced decolorization of azo dye through a Fenton-like process. The synergistic effects of ultrasonic treatment of biochar in H2O with dissolved CO2 are also explored, highlighting the complexity of reactions and the impact on pH and biochar properties.How does the presence of MWCNT and Nb2O5 affect the cyclic voltamogram of a GCE modified electrode?
4 answers
The presence of MWCNT and Nb2O5 on a glassy carbon electrode (GCE) significantly impacts the cyclic voltamogram. MWCNT/chitosan/Fe2O3-modified GCE enhances the oxidation peak current of cefditoren, showing improved sensitivity for antibiotic detection. Similarly, MWCNT-modified GCE with CTAB exhibits a diffusion-controlled surface phenomenon for paclitaxel detection, indicating enhanced sensitivity and selectivity. Moreover, MWCNTs-CeO2@GCE and MWCNTs-Yb2O3@GCE sensors show up to a 40-fold increase in sensitivity for sulfisoxazole analysis, highlighting the impact of MWCNTs-REMO composites on sensor performance. Additionally, Pd/MWCNT catalysts synthesized for hydrazine electrooxidation on GCE demonstrate improved specific activity under optimized conditions, emphasizing the influence of MWCNT-supported Pd on electrode performance. These studies collectively showcase the significant influence of MWCNT and Nb2O5 on GCE cyclic voltammetry, enhancing sensitivity, selectivity, and performance for various electrochemical applications.What properties of photocatalyst do i need for RWGS reaction?
4 answers
For the RWGS (reverse water-gas shift) reaction, essential properties of a photocatalyst include high activity, stability, and selectivity towards CO production. Catalysts with bimetallic compositions like Ni-Cu or Ni-Mo show enhanced activity and stability. The catalyst's structure, composition, and dispersion of active species significantly impact its performance. For instance, the distribution of Ni throughout the catalyst particle and the presence of active species like Nio and NiAl2O4 are crucial for catalytic activity. Additionally, the presence of oxygen vacancies in the catalyst, such as Mg(Al,Ni)O vacancies, plays a vital role in the reduction of CO2 to CO, highlighting the importance of specific active sites for RWGS reaction. Therefore, a well-designed photocatalyst with optimized composition, structure, and active sites is essential for efficient CO production in the RWGS reaction.How does the use of public transportation affect air pollution in urban areas?
4 answers
The use of public transportation in urban areas has a significant impact on air pollution levels. Studies from Rio de Janeiro, China, Addis Ababa, and urban areas in generalhighlight that public transportation plays a crucial role in reducing emissions and improving air quality. Implementing efficient public transport systems leads to shorter bus routes, decreased fuel consumption, and lower emissions of pollutants like NOx, CO, PM10, and PM2.5. Additionally, investing in subway networks can result in a substantial reduction in air pollution, especially in cities with lower population density and higher income levels. Encouraging the use of zero-emission vehicles and promoting green development are recommended strategies to further mitigate transport-related air pollutants in urban areas. Efforts to electrify bus fleets can significantly reduce CO2 and other air pollutant emissions, showcasing the potential of public transportation in combating urban air pollution.How impactful is ozonation in treating wastewater for agricultural use?
5 answers
Ozonation shows significant promise in treating wastewater for agricultural use. Studies have highlighted its effectiveness in removing persistent organic compounds, enhancing the sanitary and agricultural viability of treated effluents, and improving disinfection efficiency for epidemic animal diseases. Furthermore, catalytic ozonation, particularly heterogeneous catalytic reactions, offers advantages like higher mineralization rates and lower costs, making it a practical choice for organic matter removal. Additionally, ozonation has been found effective in removing micropollutants and conventional pollutants from wastewater, with promising results in terms of chemical oxygen demand and total suspended solids removal. Overall, ozonation emerges as a valuable technology for enhancing the quality of wastewater for agricultural purposes, showcasing its potential impact in sustainable water management practices.How long can silicon wafers be stored?
5 answers
Silicon wafers can be stored for varying durations depending on the storage method employed. Proper storage conditions are crucial to prevent surface degradation and contamination. Research suggests that the storage life of silicon wafers can extend up to 18 months with strict control of moisture inside the wafer package. Methods such as adsorbing a polymer onto the wafer surface or immersing wafers in an aqueous hydrogen peroxide solution can help prevent contamination and surface staining during storage. Additionally, storing freshly sliced silicon wafers in ethanol solution at controlled temperatures can maintain their state and cleanliness effectively. By following appropriate storage protocols, the longevity and quality of silicon wafers can be preserved for extended periods.What is the process used to induce senescence in epidermal cells?
5 answers
Inducing senescence in epidermal cells involves the activation of p14^ARF, which leads to apoptosis, cell-cycle arrest, and subsequent p53-dependent senescence. This process requires continued expression of p14^ARF to commit cells to senescence, indicating a dependency on a persistent signal. Senescent cells formed in the epidermis are retained for extended periods even after transgene silencing, suggesting a lack of efficient removal mechanisms. Interestingly, epidermal hyperplasia induction can prevent the appearance of senescent cells upon p14^ARF activation. Understanding the dynamics of senescence induction in epidermal cells is crucial due to its implications in aging, tumor suppression, and tissue function.How does FESM imaging with EDX compare to other characterization techniques for calcined banana peel ash catalysts?
5 answers
Field emission scanning electron microscopy (FESEM) imaging with energy-dispersive X-ray spectrometry (EDX) is crucial for characterizing calcined banana peel ash catalysts due to its ability to provide high-resolution surface observation and elemental analysis of catalyst particles down to a few tens of nanometers. FESEM allows for the visualization of surface topography and irregularly shaped particle structures, while EDX enables elemental analysis of the catalyst composition. This technique is particularly beneficial for catalyst systems like Ag dispersed fine particles, ensuring optimum distribution and morphology of the catalyst particles. By comparing different imaging methods like secondary electron (SE), backscattered electron (BSE), and transmitted electron (TE) detection, FESEM/EDX can offer comprehensive insights into the morphology and composition of the catalyst particles, making it a valuable tool for characterizing calcined banana peel ash catalysts.How does the total content of phenolic compounds affect the size of nanoparticles?
5 answers
The total content of phenolic compounds has a significant impact on the size of nanoparticles. Research has shown that the phenolic compounds present in plant extracts play a crucial role in the synthesis and stabilization of nanoparticles. Specifically, the study on iron oxide nanoparticles demonstrated a direct relationship between the composition and concentration of phenolic compounds in plant extracts and the size and type of nanoparticles produced. Moreover, the study on lignin nanoparticles highlighted a high negative correlation between the amount of phenolic hydroxyl groups in lignin and the size properties of the nanoparticles, indicating that phenolic hydroxyl groups influence the nucleation or condensation during nanoparticle formation. Therefore, higher concentrations of phenolic compounds tend to result in smaller nanoparticles due to their influence on the formation process.