石炭科学会議発表論文集
Online ISSN : 2423-8309
Print ISSN : 2423-8295
ISSN-L : 2423-8295
最新号
選択された号の論文の32件中1~32を表示しています
開催案内・プログラム
招待講演・特別講演
研究発表
ガス化・カーボンリサイクル
カーボンリサイクル・バイオマス
  • 中村 彩乃, 鈴木 雄登, 村上 賢治
    p. 8-9
    発行日: 2024/10/23
    公開日: 2024/11/13
    会議録・要旨集 認証あり

    CO2 methanation is performed at 300-450°C and atmospheric pressure using Ni supported on CeO2 or ZrO2 as catalysts with moderate basicity. However, the cost of the catalyst is problematic. Therefore, the perovskite-type oxides, BaZr0.95M0.05O3-δ, in which a part of Zr4+ is replaced by M3+ (Y, Fe, Al) and oxygen vacancies were increased, were focused on. In this study, the effect of Ni 10 wt% supported perovskite oxide catalysts on CO2 methanation reaction at 300-450°C was investigated. The highest CH4 yields for Ni/BaZrO3 (400°C), Ni/BaZr0.95Y0.05O3-δ (350°C), Ni/BaZr0.95Fe0.05O3-δ and Ni/BaZr0.95Al0.05O3-δ (400°C) were 65, 75, 72 and 56 mol%, respectively. From the CO2-TPD profiles, CO2 desorption amounts of Ni/BaZr0.95Y0.05O3-δ and Ni/BaZr0.95Fe0.05O3-δ increased more than that of Ni/BaZrO3 between 100‒500°C, whereas Ni/BaZr0.95Al0.05O3-δ decreased 250‒400°C, indicating that the sites with moderate basicity for Ni/BaZr0.95Y0.05O3-δ and Ni/BaZr0.95Fe0.05O3-δ increased by the formation of the oxygen vacancies.

  • 三浦 伸太郎, 加藤 貴宏, 巖 裕哉, 横田 早希, 任 傑, 大川 浩一, 菅原 勝康
    p. 10-11
    発行日: 2024/10/23
    公開日: 2024/11/13
    会議録・要旨集 認証あり

    To prepare humic acid from biomass (sugarcane leaves) with high yield, a two-step hydrothermal treatment using acidic and alkaline solutions was carried out. It was confirmed that when the biomass was treated directly with hot alkaline solution, the yield of humic acid was only 5% of the total carbon. Since humic acid can be obtained in high yields when reagent lignin is treated with hot alkaline solution, it was speculated that cellulose and hemicellulose in the biomass inhibit the alkaline extraction of lignin. To decompose cellulose and hemicellulose, the biomass was hydrothermally treated in an acidic solution at different temperatures and reaction times, and the obtained sample was then treated in an alkaline solution to recover humic acid. At 140°C, that hemicellulose decomposes, the humic acid yield increased to approximately 8%. It was found that by increasing the temperature to 180°C and extending the reaction time, the cellulose was decomposed and the humic acid yield increased to 15%.

  • 大竹 彩耶夏, 大川 浩一, 加藤 貴宏, 堺 康爾, 小堀 竜一, 奥山 憲幸
    p. 12-13
    発行日: 2024/10/23
    公開日: 2024/11/13
    会議録・要旨集 認証あり

    Iron-based materials have been attracted as cathode material for large-scale lithium-ion batteries because iron resources are more abundant than those of cobalt and nickel. Lithium iron phosphate (LiFePO4) shows excellent thermal stability, so, it is used in EV’s battery and stationary battery. However, its disadvantage is low electronic conductivity. To overcome this problem, carbon coating techniques have been studied. In this paper, we studied carbon coating on the surface of lithium iron phosphate using Soluble extracted from rice husk. Carbon-coated LiFePO4 (LiFePO4/C) was obtained by calcination of the mixture of LiFePO4 and Soluble in Ar atmosphere. The charge and discharge characteristic of LiFePO4/C was evaluated, and it showed higher charge/discharge capacity than that of LFP at current rates of 5C and 10C. The electronic conductivity of LiFePO4 was successfully improved by carbon coating using Soluble.

  • 上原 友輔, 李 乔, Thuppati Upender RAO, 町田 洋, 則永 行庸
    p. 14-15
    発行日: 2024/10/23
    公開日: 2024/11/13
    会議録・要旨集 認証あり

    Efficient conversion of biomass-derived furfural into high value-added chemicals such as tetrahydrofurfuryl alcohol (THFA) by hydrogenation has received much attention in terms of post-fossil fuel and energy saving. While many researchers have put their efforts on developing cost-effective catalysts for furfural hydrogeneration, only little investigations have been reported on its techno-economic analysis as well as process optimization. This study aims to design an energy saving process model of furfural hydrogeneration for THFA synthesis coupled with thermal recovery system consisting of organic Rankine cycle and heat pump, and to evaluate energy efficiency and economics of the proposed process through Aspen simulation, based on our previous experimental data with Ni1Cu1-Al1 catalyst.

熱分解・コークス・構造・物性
灰・微量元素
ガス化 1
  • 秋保 広幸, 小林 誠
    p. 30-31
    発行日: 2024/10/23
    公開日: 2024/11/13
    会議録・要旨集 認証あり

    To develop a low-cost hydrogen chloride (HCl) removal process from syngas, removal characteristics of HCl using commercially available calcium hydroxide sorbent (CHS) were evaluated. The CHS was set into a quartz reactor of lab-scale fixed-bed test apparatus, and the simulated coal and waste plastic gasification gas containing 400-2000ppm HCl was fed into the reactor for a certain period. The results of gas analysis using a Fourier transform infrared (FT-IR) spectrophotometer showed that the CHS was able to reduce HCl to less than a few ppm. Elemental analysis and XRD analysis of the tested CHS revealed that the Ca in CHS reacted with HCl to produce CaClOH, and reacted with CO2 to produce CaCO3. In the temperature range of 250~450°C, CHS reacted better with HCl at lower temperatures. A low-cost two-stage halide removal system could be constructed by providing a small-scale high-performance sorbent such as sodium aluminate reactor as a backup process downstream of the CHS reactor.

  • リダクタ模擬ガス化炉による石炭/ポリプロピレン共ガス化
    梅本 賢, 木戸口 和浩, 濱田 博之, 深澤 秀行, 梶谷 史朗
    p. 32-33
    発行日: 2024/10/23
    公開日: 2024/11/13
    会議録・要旨集 認証あり

    CRIEPI is developing a poly-generation system using various fuels with CO2 capture. The system consists of O2/CO2/H2O blown gasifier, a gas clean-up, a power generation, and a chemical synthesis process. Various carbonaceous feedstocks, such as plastic wastes as well as coal are fed into the gasifier. This presentation shows the current progress of the research project, particularly the reductor simulating gasifier test results. The “reductor” is the upper part of the two-stage entrained-flow gasifier, while the lower part is the “combustor”. The gas composition and temperature in the combustor of the reductor simulating gasifier is controlled by gas feeding ratio without feeding solids into the combustor. This allows for a detailed investigation of the gasification products, char, soot, tar and gas generation behaviors in the reductor condition. In this study, coal and polypropylene (PP) as a plastic-waste simulated sample were co-gasified. By PP addition, char decreased while soot and tar increased. Higher temperature reduced char, soot and tar. Furthermore, H2O concentration in the combustor had a complex effect on the products in the reductor.

  • 丹野 賢二, 梅本 賢, 笠高 宏洋
    p. 34-35
    発行日: 2024/10/23
    公開日: 2024/11/13
    会議録・要旨集 認証あり

    Since aromatic tar is produced from coal and aliphatic tar from plastics in pyrolysis, a large number of chemical species and chemical reactions must be considered to evaluate tar and soot in co-gasification of coal and plastics. To overcome this issue, this study developed a reduced reaction model that treats tar and soot as hypothetical chemical species and considers these reactions in the global reaction model. Using the developed reaction model, CFD simulation of a gasifier, called reductor simulating gasifier, was performed. The results showed that tar is produced by pyrolysis and then consumed by chemical reactions. Soot is formed from tar and then consumed by gasification reaction, but it remains until the outlet of the gas-fired furnace compared to tar. The developed reaction model can be used to evaluate the behavior of tar and soot in co-gasification of coal and plastics.

ガス化 2
熱分解・コークス
バイオマス
feedback
Top