Joachim Maier

Q: What Schools Are Affiliated With Joachim Maier

Joachim Maier is affiliated with the following schools: Saarland University, University of Stuttgart, Massachusetts Institute of Technology, University of Tübingen, University of Graz

Joachim Maier's AcademicInfluence.com Rankings

Joachim Maier

Chemistry

#573

World Rank

#1006

Historical Rank

chemistry Degrees

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Chemistry

Joachim Maier's Degrees

PhD Chemistry University of Stuttgart

Why Is Joachim Maier Influential?

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According to Wikipedia, Joachim Maier is Emeritus Director at the Max Planck Institute for Solid State Research in Stuttgart and Scientific Member of the Max Planck Society. Education and career Maier studied chemistry at Saarland University in Saarbrücken, made his Masters and PhD in Physical Chemistry there. He received his habilitation at the University of Tübingen. From 1988 to 1991 he was responsible for the activities on functional ceramics at the MPI for Metals Research in Stuttgart, and from 1988 to 1996 he taught defect chemistry at the Massachusetts Institute of Technology. Notwithstanding other prestigious offers, he decided in favor of the Max Planck Society. In 1991 he was appointed Scientific Member of the Max Planck Society, Director at the MPI for Solid State Research and Honorary Professor at the University of Stuttgart. He is the recipient of various prizes and a member of various national and international academies including German Academy of Sciences Leopoldina., German Technical Academy Acatech, Academia Europaea, Academy of Science and Literature , Fellow of the Royal Society of Chemistry, Fellow of the Electrochemical Society, IUPAC Fellow. Joachim Maier is Editor-in-Chief of Solid State Ionics and on the board of a number of scientific journals.

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Joachim Maier's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Oxy-fuel coal combustion—A review of the current state-of-the-art (2011) (526)
Moving torrefaction towards market introduction – Technical improvements and economic-environmental assessment along the overall torrefaction supply chain through the SECTOR project (2016) (116)
Ash fusibility and compositional data of solid recovered fuels (2010) (100)
High-Temperature Conversion of SO2 to SO3: Homogeneous Experiments and Catalytic Effect of Fly Ash from Air and Oxy-fuel Firing (2014) (88)
Nickel-base superalloys for ultra-supercritical coal-fired power plants: Fireside corrosion. Laboratory studies and power plant exposures (2013) (71)
Oxy-fuel combustion technology for cement production – State of the art research and technology development (2016) (69)
Mercury Emissions and Removal by Ash in Coal-Fired Oxy-fuel Combustion (2014) (62)
Advantages and possibilities of solid recovered fuel cocombustion in the European energy sector. (2007) (53)
Sulphur Oxide Emissions from Dust-fired Oxy-fuel Combustion of Coal (2013) (49)
Combustion, cofiring and emissions characteristics of torrefied biomass in a drop tube reactor (2015) (49)
Emissions reduction and deposits characteristics during cofiring of high shares of torrefied biomass in a 500 kW pulverized coal furnace (2015) (43)
Fine particle formation from co-combustion of sewage sludge and bituminous coal (2004) (41)
Role of potassium in deposit formation during wood pellets combustion (2016) (39)
Experimental and Modeling Study of Biomass Reburning (2004) (39)
Corrosion Mechanism of Alloy 310 Austenitic Steel beneath NaCl Deposit under Varying SO2 Concentrations in an Oxy-fuel Combustion Atmosphere (2013) (34)
Fly Ash Formation and Characteristics from (co-)Combustion of an Herbaceous Biomass and a Greek Lignite (Low-Rank Coal) in a Pulverized Fuel Pilot-Scale Test Facility (2018) (33)
Fast pyrolysis char - Assessment of alternative uses within the bioliq® concept. (2016) (32)
Oxy-fuel technology: An experimental investigations into oil shale combustion under oxy-fuel conditions (2013) (31)
Experimental study of NO and NO2 formation in a PF oxy-fuel firing system (2013) (30)
Fate of mercury and chlorine during SRF co-combustion (2007) (28)
A temperature-history based model for the sticking probability of impacting pulverized coal ash particles (2016) (28)
Mercury and SO3 Emissions in Oxy-fuel Combustion☆ (2014) (26)
The solid recovered fuel Stabilat®: Characteristics and fluidised bed gasification tests (2012) (25)
Impact of the oxy-fuel combustion on the corrosion behavior of advanced austenitic superheater materials (2011) (25)
Characterisation of large solid recovered fuel particles for direct co-firing in large PF power plants (2009) (25)
The Effect of HCl and SO2 on NOx Formation in Coal Flames (2003) (23)
Sulfur capture by fly ash in air and oxy-fuel pulverized fuel combustion (2014) (21)
Investigation of deposit formation and its characterization for a pulverized bituminous coal power plant (2016) (20)
The impact of an additive on fly ash formation/transformation from wood dust combustion in a lab-scale pulverized fuel reactor (2019) (19)
A method to characterise the volatile release of solid recovered fuels (SRF) (2007) (19)
Experimental investigations of oxyfuel burner for cement production application (2019) (17)
Solid recovered fuel as coal substitute in the electricity generation sector (2005) (15)
Fireside Corrosion during Oxyfuel Combustion Considering Various SO2 Contents (2014) (15)
Drag coefficient of Solid Recovered Fuels (SRF) (2010) (14)
Use of wood dust fly ash from an industrial pulverized fuel facility for rendering (2018) (14)
Oxyfuel technology: Oil shale desulfurization behavior during staged combustion (2015) (13)
The influence of air and oxy-fuel combustion on fly ash and deposits (2016) (12)
Results of fly ash quality for disposal options from high thermal shares up to pure biomass combustion in a pilot-scale and large scale pulverized fuel power plants (2015) (12)
Thermal Utilization of Solid Recovered Fuels in Pulverized Coal Power Plants and Industrial Furnaces as Part of an Integrated Waste Management Concept (2009) (11)
Oxyfuel technology: NO reduction during oxy-oil shale combustion (2014) (10)
Fireside Corrosion of Applied and Modern Superheater-alloys Under Oxy-fuel Conditions (2013) (10)
Experiences on Co-firing Solid Recovered Fuels in the Coal Power Sector (2011) (10)
Impact of oxy-fuel combustion on fly ash transformations and resulting corrosive behavior of alloys 310 and 617 (2013) (10)
TRACE METAL PARTITIONING FROM CO-COMBUSTION OF RDF AND BITUMINOUS COAL (2002) (8)
Oxy-fuel burner investigations for CO2 capture in cement plants (2017) (7)
OVERVIEW OF ACTUAL METHODS FOR CHARACTERIZATION OF ASH DEPOSTION (2003) (6)
Potassium and chlorine distributions in high temperature halloysite formed deposits (2019) (5)
Effect of air and oxyfuel staged combustion on oil shale fly ash formation with direct in-furnace limestone addition for sulphur retention (2018) (4)
Experimental study on combustion of torrefied palm kernel shell (PKS) in oxy‐fuel environment (2019) (4)
Ash deposit and corrosion characteristics of coal-biomass blends in a 0.5 MW pulverized fuel test facility (2000) (4)
Influence of oxy-coal on fly ash transformations and corrosion behavior of heat-exchangers (2011) (4)
Long-Term Corrosion Behavior of Cr Diffusion Coatings on Ferritic–Martensitic Superheater Tube Material X20CrMoV12-1 under Conditions Mimicking Biomass (Co-)firing (2020) (3)
Milling, Drying and Combustion of Low Rank Coal in a 500 kWth Pulverized Coal Test Facility (1997) (3)
Characterizing the Grinding Behavior of Pre-Treated Biomass Fuels for Coal Pulverizer Application (2016) (2)
DEPOSITION BEHAVIOR OF A BITUMINOUS COAL IN A LARGE PULVERIZED FUEL POWER PLANT (2011) (2)
Pilot-Scale Experiences on a Plasma Ignition System for Pulverized Fuels (2021) (2)
The Influence of Sieving on the Dust Explosion Characteristics of a Lignite Coal (2019) (2)
Biomass Based Energy Intermediates Boosting Bio-Fuel Production-Bioboost (2013) (2)
Bubbling Fluidized Bed Co-Combustion of Different Sustainable Fuels: Trace Element Behaviour (2003) (1)
Particle and Emission Behaviour of Raw and Predried Lignite in a 20 kW and in a 500 kW Test Facility (1998) (1)
Experimental Investigations of the Ignitability of Several Coal Dust Qualities (2021) (1)
Corrigendum to “Results of fly ash quality for disposal options from high thermal shares up to pure biomass combustion in a pilot-scale and large scale pulverized fuel power plants” [Renew Energy 75 (2015) 899–910] (2015) (1)
Effect of Pre-drying on Combustion Behaviour and Boiler Design (1999) (1)
Slagging Tests on the Suitability of Alternative Coals in a 325MW F PC Boiler (1997) (1)
EXPERIMENTAL STUDY ON COFIRING HIGH SHARES OF TORREFIED FUELS IN A 500 kW PULVERIZED COAL BOILER * (2014) (0)
Experimental investigation of single wood particle combustion in air and different O2/CO2/H2O atmospheres (2023) (0)
Experimental investigation of oxyfuel combustion of RDF and wood chips in a grate incineration system (2023) (0)
Oxyfuel Kiln Burner Tests for a CO2-Free Cement Plant (2019) (0)
Fouling tendency and ash deposition evaluation in large-scale pulverised fuel power plants (2013) (0)
Fireside corrosion during oxyfuel combustion considering various SO 2 (2015) (0)
Modification of a 240 kWth grate incineration system for oxyfuel combustion of wood chips (2022) (0)
Experimental Investigation of Combustion Performance and Cofiring Characteristics of Torrefied Biomasses in a Pulverized Coal Furnace (2014) (0)
Superheater corrosion of selected martensitic and austenitic alloys in sulphur-rich and-lean oxy-PC-combustion considering varying water content (2013) (0)
Near infrared spectroscopy as an alternative method to thermogravimetric analysis for evaluation of volatile matter of bamboo wood chips (2016) (0)
Flue-gas Coupling Of A Waste Incinerator With ALignite-fired Coal Boiler: Assessment Of TheBest-suited Injection Concept By Computational (2005) (0)
SOx Mitigation Technologies for Combustion Systems (2015) (0)
Oxyfuel combustion experiments to reduce CO 2 emissions in the cement production process (2022) (0)
An Evaluation of Limitations of Co-Firing in Pulverized Fuel Facilities (2012) (0)
Olive Kernel and RDF Co-firing with Greek Lignite in Drop Tube Pulverized Fuel Furnace (2013) (0)
Full scale measurements to validate mathematical models and to monitor the combustion behavior of bituminous and brown coal-fired boilers (1999) (0)
Impact of Oxyfuel Technology on Calcination Process (2019) (0)

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What Schools Are Affiliated With Joachim Maier?

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