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Journal articles on the topic 'Chemical and energy industries'

Author: Grafiati
Published: 11 December 2022
Last updated: 31 July 2025

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1

Sawada, Yutaka. "Energy Saving Strategy of Chemical Industries." JAPAN TAPPI JOURNAL 52, no. 11 (1998): 1508–17. http://dx.doi.org/10.2524/jtappij.52.1508.

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2

Ostadi, Mohammad, Kristofer Gunnar Paso, Sandra Rodriguez-Fabia, Lars Erik Øi, Flavio Manenti, and Magne Hillestad. "Process Integration of Green Hydrogen: Decarbonization of Chemical Industries." Energies 13, no. 18 (2020): 4859. http://dx.doi.org/10.3390/en13184859.

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Integrated water electrolysis is a core principle of new process configurations for decarbonized heavy industries. Water electrolysis generates H2 and O2 and involves an exchange of thermal energy. In this manuscript, we investigate specific traditional heavy industrial processes that have previously been performed in nitrogen-rich air environments. We show that the individual process streams may be holistically integrated to establish new decarbonized industrial processes. In new process configurations, CO2 capture is facilitated by avoiding inert gases in reactant streams. The primary energy
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3

Shen, Peng, Jing Ye, Ze Qiang Fu, and Bao Gao. "MFA Study on Typical Energy (Coal) Chemical Base — Ningdong Case." Advanced Materials Research 361-363 (October 2011): 910–15. http://dx.doi.org/10.4028/www.scientific.net/amr.361-363.910.

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Energy (coal) chemical base refers to the industrial cluster which is mainly formed by coal, thermal power, coal chemical and building materials industries within a special region. The constructions of energy (coal) chemical bases promote the in situ conversion of coal resources, reducing water and material consumption as well as pollutant emissions. Through the material flow analysis, the input and output relationship within energy (coal) chemical-base was carried out in this article. And combined with case study, recommendations of key technologies to perfect the energy (coal) chemical-based
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Yang, Shun Shun, and Huan Zhi Wang. "Industrial Carbon Emissions Accounting from Energy and Non-Energy Consumption and Input-Output Model Construction for Trans-Sector Carbon Emissions Shift Assessment, China." Advanced Materials Research 703 (June 2013): 328–31. http://dx.doi.org/10.4028/www.scientific.net/amr.703.328.

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This paper describes an industrial energy combustion use and industrial process emissions accounting method. By utilizing three set of widely used energy combustion carbon emission factors, Chinas industrial energy consumption carbon emissions are calculated. By using the methods provided by the IPCC, the industrial process carbon emissions for extractive industries, chemical industries and metal industries are calculated. The results show that in 2010 China's industrial energy consumption carbon emissions reached approximately 6.91×108 t C (2.53×109 t CO2), 85% from coal burning. The industri
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5

Havlík, Jan. "Special Issue on “Advanced in Dewatering and Drying Processes”." Processes 13, no. 4 (2025): 1201. https://doi.org/10.3390/pr13041201.

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Li, Chong-Mao, Tao Cui, Rui Nie, and Xin-Yu Yan. "Measurement of the Industrial Collaboration of the Diversified Coal Industry: China Coal Energy Company as an Example." Mathematical Problems in Engineering 2017 (2017): 1–8. http://dx.doi.org/10.1155/2017/9416279.

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With the diversified development of coal enterprises in China, the industries related to coal, including coal chemical, electric power, transportation, and building materials, have witnessed rapid development. There is a collaboration relation between the coal industries and most of the aforementioned industries. Based on the synergy theory and the theory of industrial cooperation, the collaboration among coal industries is assessed in this research. Examining China Coal Energy Company as an example, this research divides the compound enterprise system into subsystems such as coal-electric, co
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Zheng, Jiliang, and Xiaoting Peng. "Does an Ecological Industry Chain Improve the Eco-Efficiency of an Industrial Cluster? Based on Empirical Study of an Energy-Intensive Industrial Cluster in China." Sustainability 11, no. 6 (2019): 1651. http://dx.doi.org/10.3390/su11061651.

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An energy-intensive industrial cluster is a combination and integration of energy-intensive industries formed by ecological industry chains. Eco-efficiency may reflect the effect of ecological industry chains in an energy-intensive industrial cluster. To evaluate the eco-efficiency of energy-intensive industries, industry chains, and industrial clusters with different level of eco-industry chains, the eco-efficiency is decomposed into two dimensions of resource efficiency and environment efficiency. The eco-efficiency evaluation index system and models of energy-intensive industries are constr
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Kenneth Ifeanyi Ibekwe, Aniekan Akpan Umoh, Zamathula Queen Sikhakhane Nwokediegwu, Emmanuel Augustine Etukudoh, Valentine Ikenna Ilojianya, and Adedayo Adefemi. "ENERGY EFFICIENCY IN INDUSTRIAL SECTORS: A REVIEW OF TECHNOLOGIES AND POLICY MEASURES." Engineering Science & Technology Journal 5, no. 1 (2024): 169–84. http://dx.doi.org/10.51594/estj.v5i1.742.

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The industrial sector plays a pivotal role in global economic development, but its energy consumption often leads to environmental challenges. This paper provides a comprehensive review of technologies and policy measures aimed at enhancing energy efficiency in industrial sectors. Focusing on the imperative of sustainable practices, the analysis encompasses a wide array of industries, considering diverse technological solutions and policy frameworks. Technological advancements have enabled innovative approaches to energy efficiency, ranging from process optimization and waste heat recovery to
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Mandalagiri, Levina, Anton Irawan, and Setyawati Yani. "Operability and Flexibility of Pinch Applications on Heat Exchanger Network in Chemical Industry – A Review." Journal of Chemical Process Engineering 6, no. 1 (2021): 36–47. http://dx.doi.org/10.33536/jcpe.v6i1.897.

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Energy conservation has recently become one of the most important considerations in industries, especially in petrochemical industries. This is due to the limited availability of fuel which affects the price of energy sources, as well as the tightening of the regulations concerning environmental and social issues related to pollutant emissions produced by industries. The successful energy-saving efforts made by industries impact on not only lowering production costs but also indirectly preserving natural resources as well as reducing the pollution of CO2 which is one of the gases contributing
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10

Kumaresan, R. "Methods of Quantifying Energy Losses During Energy Auditing in Chemical Process Industries." Asian Journal of Scientific Research 5, no. 4 (2012): 263–70. http://dx.doi.org/10.3923/ajsr.2012.263.270.

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11

Z.E., Pardaev, Khuzhakulov S.M., and Toshmamatov B.M. "Application of modern technologies in the development of energy-efficient technologies." American Journal of Applied Science and Technology 5, no. 2 (2025): 56–60. https://doi.org/10.37547/ajast/volume05issue02-14.

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The article analyzes the heat supply systems of industrial production processes and the amount of various emissions released into the atmosphere from them. The use of heat pump systems in industry is of great importance, taking into account environmental protection regulations and fluctuating fuel prices. Studies on the energy integration of industrial heat pumps have revealed that, due to the widespread use of high-temperature heat pump systems (>90 °C), there are several opportunities for heating capacities from 20 kW to 20 MW, especially in the food, paper, metal, and chemical industries
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12

Borudhe, Rushikesh. "Industrial Load Monitoring and Controlling System." INTERNATIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 06 (2025): 1–9. https://doi.org/10.55041/ijsrem49709.

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Abstract- Industrial sectors, such as manufacturing, chemical processing, and energy-intensive industries, face significant energy consumption costs and sustainability challenges. By implementing IPEMS, industries can monitor real-time energy consumption across various machines, identify inefficiencies, and predict equipment failures through advanced data analytics and machine learning algorithms. The system enables industries to make data-driven decisions regarding energy management, reducing both operational costs and the environmental footprint. IPEMS relies on key technologies, such as IoT
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13

Yarullin, R. S., I. Z. Salikhov, D. S. Cherezov, and A. R. Nurislamova. "Prospects of hydrogen technologies in power and chemical industries." Power engineering: research, equipment, technology 23, no. 2 (2021): 70–83. http://dx.doi.org/10.30724/1998-9903-2021-23-2-70-83.

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THE PURPOSE. Consider the use of hydrogen technologies in energy. The total production of hydrogen in Russia is about 5 million tons with a global consumption of 72 million tons. However, in the case of toughening of carbon regulation by importers of Russian products, the production of hydrogen in the Russian Federation may double. The roadmap «Development of hydrogen energy in Russia» stipulates that Gazprom and Rosatom will become the first hydrogen producers in the country - in 2024 they should launch pilot hydrogen plants, including at nuclear power plants. METHODS. To realize the potentia
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14

Branca, Teresa Annunziata, Valentina Colla, Barbara Fornai, et al. "Current state of Industrial Symbiosis and Energy Efficiency in the European energy intensive sectors." Matériaux & Techniques 109, no. 5-6 (2021): 504. http://dx.doi.org/10.1051/mattech/2022014.

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The implementation of Industrial Symbiosis and Energy Efficiency is linked to the ongoing technological development. New technologies can lead to an increased up-take of these concepts, which affect all areas of process industries and involve the whole workforce. The present paper describes part of the work developed in the early stage of a current Erasmus+ project entitled “Skills Alliance for Industrial Symbiosis: A Cross-sectoral Blueprint for a Sustainable Process Industry (SPIRE-SAIS)”. Such project aims at developing an industry-driven and proactive skills strategy to assist the implemen
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15

Beatrice, Aline Clementine. "Chemical Engineering in Uganda: Evolution, Innovation, and the Economic Impact of Process Optimisation." IDOSR JOURNAL OF COMPUTER AND APPLIED SCIENCES 9, no. 1 (2024): 15–20. http://dx.doi.org/10.59298/jcas/2024/91.1520000.

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Chemical engineering in Uganda has evolved significantly from its origins in colonial-era agricultural processing to encompass diverse industries such as food and beverage, pharmaceuticals, petrochemicals, and environmental engineering. This review explores the historical development of chemical engineering in Uganda, emphasising the pivotal role of institutions like Makerere University in educating the country's first generation of chemical engineers. The evolution of Uganda's industrial sector, catalysed by economic liberalisation in the 1990s, highlighted the need for specialised expertise
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16

Rahman, Sheikh Tareq, Jang-Rak Choi, Jong-Hoon Lee, and Soo-Jin Park. "The Role of CO2 as a Mild Oxidant in Oxidation and Dehydrogenation over Catalysts: A Review." Catalysts 10, no. 9 (2020): 1075. http://dx.doi.org/10.3390/catal10091075.

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Carbon dioxide (CO2) is widely used as an enhancer for industrial applications, enabling the economical and energy-efficient synthesis of a wide variety of chemicals and reducing the CO2 levels in the environment. CO2 has been used as an enhancer in a catalytic system which has revived the exploitation of energy-extensive reactions and carry chemical products. CO2 oxidative dehydrogenation is a greener alternative to the classical dehydrogenation method. The availability, cost, safety, and soft oxidizing properties of CO2, with the assistance of appropriate catalysts at an industrial scale, ca
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17

Alimatova, V., Z. Salabaeva, and G. Israilova. "Nanoparticles: Role in the Chemical Industry, Potential Sources and Application in Chemical Catalysis." Bulletin of Science and Practice 10, no. 1 (2024): 31–35. http://dx.doi.org/10.33619/2414-2948/98/03.

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Chemical industries produce polymers, and with the help of nanotechnology, their structure can be modified to be used for other chemical applications and industrial processes. The chemical industry synthesized useful products and chemical compounds at great cost and with large amounts of energy required to produce them. In the article, the authors consider various approaches in the study of nanotechnology to improve chemical methods in order to increase their strength and performance. The role of nanoparticles and nanotechnologies in the processing of magnetic substances, the role in cleaning
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18

Oharriz, Osmay. "Polymeric Solutions for Microbiologically Influenced Corrosion in the Oil and Gas Industry." Materials Performance 55, no. 3 (2016): 42–45. https://doi.org/10.5006/mp2016_55_3-42.

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Microbiologically influenced corrosion (MIC) is among the many modes of corrosion commonly found in industrial environments. While this article focuses on the oil and gas industry, that does not imply that MIC does not occur in other industries. Oil and gas is a strategic industry, as it provides primary sources of energy and byproducts for other industries such as chemical, marine, pulp and paper, waste water, and mining.
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19

Briceño-León, Marco, Doménica Montenegro-Tobar, Jean-Michel Clairand, and Guillermo Escrivá-Escrivá. "Energy Savings for Car Stores by Using Energy Efficiency Improvements." Processes 10, no. 6 (2022): 1108. http://dx.doi.org/10.3390/pr10061108.

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Industries in different sectors are addressing the emission reductions of their processes. Several energy efficiency proposals have been developed by researchers. However, the complexity of most industrial sectors makes it difficult for modelers, businesses, and policymakers to appreciate and realize the full potential for efficiency-driven energy savings in specific industries. Thus, this paper studies the energy efficiency potentials within a vehicle store in Quito, Ecuador. Data on power consumption, operating hours, and consumption were recorded for each inventory item. The workshop was id
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20

Trifirò, Ferruccio. "Awards for the Chemical Industries in Italy, from the Responsible Care Program, Examples of Sustainable Development." Tecnica Italiana-Italian Journal of Engineering Science 65, no. 1 (2021): 67–73. http://dx.doi.org/10.18280/ti-ijes.650110.

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In this note are reported the awards of the Responsible Care program of Federchimica the Italian Association of Chemical Industries attributed to industries that operate in the following strategies of Sustainable Development: the modification of the processes in order to decrease the consume of energy and water and to decrease the amount of produced wastes the transformation of the wastes of the industrial plants and of the products on the market in useful products or new raw materials; the use of biomass as raw material; the teaching of Sustainable Development to students and to employees in
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21

Mulatsih, Sri. "Industrial development and greenhouse gas emissions in Indonesia." IOP Conference Series: Earth and Environmental Science 950, no. 1 (2022): 012064. http://dx.doi.org/10.1088/1755-1315/950/1/012064.

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Abstract The manufacturing industry is the main source of Indonesia’s economic growth. Its contribution to national GDP (gross domestic product) in 2012 is 22%, and it is expected to reach 30% in 2035. On the other hand, the industrial sector consumes energy which produces greenhouse gases. In 2017, the final energy consumption of the industrial sector was 232 million BOE (barrels of oil equivalent), slightly below the transportation sector, which was 362 million BOE. This study analyses the relationship between economic growth in the industrial sector and greenhouse gas emissions. Data for th
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22

Wang, Yuanyuan, Haoyang Ji, Shiqian Wang, Han Wang, and Junyi Shi. "Research on Carbon Emissions Estimation in Key Industries Based on the Electricity–Energy–Carbon Model: A Case Study of Henan Province." Energies 17, no. 12 (2024): 2933. http://dx.doi.org/10.3390/en17122933.

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This study focuses on the carbon emissions of key industries in Henan Province, employing techniques of seasonal adjustment, frequency transformation, and statistical modeling to construct an industry-level “Electricity–Energy–Carbon” model to aid in the high-frequency monitoring of carbon emissions in the province’s industries. Based on relevant data, this research performs high-frequency calculations of carbon emissions from energy consumption in 34 typical industries and from the production processes of 53 typical sub-categories in the industrial sector of Henan. The findings reveal the fol
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23

Nwabueze, Queendarlyn Adaobi, and Smith Leggett. "Advancements in the Application of CO2 Capture and Utilization Technologies—A Comprehensive Review." Fuels 5, no. 3 (2024): 508–32. http://dx.doi.org/10.3390/fuels5030028.

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Addressing escalating energy demands and greenhouse gas emissions in the oil and gas industry has driven extensive efforts in carbon capture and utilization (CCU), focusing on power plants and industrial facilities. However, utilizing CO2 as a raw material to produce valuable chemicals, materials, and fuels for transportation may offer a more sustainable and long-term solution than sequestration alone. This approach also presents promising alternatives to traditional chemical feedstock in industries such as fine chemicals, pharmaceuticals, and polymers. This review comprehensively outlines the
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24

Schorr, M., B. Valdez, A. So, and J. Flores. "Erosion-Corrosion in Industrial Turbomachinery." Materials Performance 51, no. 2 (2012): 46–50. https://doi.org/10.5006/mp2012_51_2-46.

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Erosion-corrosion (EC) reduces the service life of turbomachines handling slurries. EC is a particular type of corrosion caused by the interaction of mechanical, hydrodynamic, chemical, and electrochemical processes acting on the surface of the equipment in various industries, including mineral, chemical, energy, and water. EC measuring devices that simulate the shear and impact forces encountered in industrial environments are applied and the results are presented.
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Gao, Bao, Ze Qiang Fu, Peng Shen, Na Wu, Yuan Yuan Xie, and Lin Zi Li. "Analysis and Optimization of Industrial Structure Based on the Relative Efficiency Index." Advanced Materials Research 962-965 (June 2014): 2261–67. http://dx.doi.org/10.4028/www.scientific.net/amr.962-965.2261.

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Based on the theory and method of eco-efficiency, the relative efficiency index (Ri) was constructed in the paper. According to the range of the relative efficiency index, the industrial sectors can be divided into four categories. When Ri≥R+0.5δ , the industry should be encouraged. When R≤Ri<R+0.5δ, the industry should be optimized and updated. When R-0.5δ≤Ri<R, the industry should be transformed and elevated. When Ri<R-0.5δ, the industry should be restricted, even eliminated. Jiaxing City in Zhejiang Province was selected to be the typical base for further analysis. The results show
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26

Edwards, Rob, Tom Jenkins, Patrick Steel, and Phil Roberts. "Green factories: Synthetic plant products for industry." Biochemist 33, no. 1 (2011): 26–30. http://dx.doi.org/10.1042/bio03301026.

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The realization that we can no longer take reserves of fossil fuels for granted, allied to issues of industrial sustainability, pollution and climate change has reawakened an interest in increasing our use of plants as a source of both chemicals and materials. Whereas plant-derived biomass, fermentable sugars and oils are now well recognized as sources of energy and liquid fuels, the use of green feedstocks for large-scale platform and fine chemical production is increasingly high on the agenda of industries wanting to reduce their environmental footprint.
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27

N Prithiviraj and J K Kumar. "Environmental Safety in Industrial Waste Management: Innovative Solutions for Hazardous Material Handling." International Research Journal on Advanced Engineering and Management (IRJAEM) 3, no. 03 (2025): 915–23. https://doi.org/10.47392/irjaem.2025.0150.

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Industrial waste management is a critical issue for both environmental safety and public health, especially when dealing with hazardous materials like chemicals, heavy metals, and toxic by-products. Improper disposal of these substances can cause soil contamination, water pollution, and harm human health. This project aims to explore innovative solutions for managing hazardous industrial waste, focusing on minimizing environmental impact and safeguarding workers and surrounding communities. The study begins with a review of current industrial waste management practices, highlighting challenges
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28

CHEN, Zi, Changyi LIU, and Shenning QU. "China’s Industrialization and the Pathway of Industrial CO2 Emissions." Chinese Journal of Urban and Environmental Studies 03, no. 03 (2015): 1550019. http://dx.doi.org/10.1142/s2345748115500190.

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Industrial sector is the largest CO2 emission sector in China, thus the peak of China’s total CO2 emissions relies heavily on its industrial sector. After rapid industrialization during the last three decades, China now is between the intermediate and the late industrialization stage in general. Looking at the production and emission structures of China’s industries, especially the heavy and chemical industrial sectors which are energy- and emission-intensive industries, we claim that the output of these heavy and chemical industries will peak at around 2020, the industrialization process will
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29

Ismukurnianto, D. A. "Co-Generation Technology For High Efficiency Conversion Of Natural Gas Energy In Indonesia." Scientific Contributions Oil and Gas 21, no. 1 (1998): 23–29. http://dx.doi.org/10.29017/scog.21.1.953.

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Very high efficiency energy conversion of natural gas can be obtained by simultaneous production of electricity and thermal energy. In industrial countries, this technology has been widely used in various industries, such as pulps, foods, oil refineries, and chemical industries. Moreover, it is becoming very popular and spans a wide spectrum of market, from the relatively small-scale residential and commercial consumers to large industrial plants.In Indonesia, this technology has an open opportunity for application, particulary in support of the country’s energy conservation and “blue sky” pro
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30

16., Aziz H. Ravshanov. "BRIEF OVERVIEW OF ACTIVITIES OF LARGE INDUSTRIAL ENTERPRISES OF THE KASHKADARYA REGION." LOOK TO THE PAST 5, Special issue 3 (2020): 120–26. https://doi.org/10.5281/zenodo.6583058.

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This article analyzes the contribution of large industrial enterprises of the Kashkadarya region to the development of the country's national economy during the years of independence, and also briefly describes the activities of enterprises in the oil and gas, chemical, fuel and energy, textile and other industries.
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Wang, Shuang, Yang Yu, Tangyang Jiang, and Jun Nie. "Analysis on carbon emissions efficiency differences and optimization evolution of China’s industrial system: An input-output analysis." PLOS ONE 17, no. 3 (2022): e0258147. http://dx.doi.org/10.1371/journal.pone.0258147.

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The excessive carbon emissions not only intensify the global climate change, but also seriously restrict the sustainable development of social economy. However, improving industrial carbon emissions efficiency is the most directly effective way to reduce emissions. Therefore, accurate measurement and analysis of carbon emissions efficiency and evolution characteristics of China’s industrial system is the basis for China to improve carbon emissions efficiency. Based on this, we adopted energy consumption method and input-output method to calculate and analyze the industrial carbon emissions eff
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32

Sartowska, Bożena, Marek Barlak, Lech Waliś, Jan Senatorski, and Wojciech Starosta. "Formation of the Surface Layer with Improved Tribological Properties on Austenitic Stainless Steel by Alloying with REE Using HIPPB." Materials Science Forum 790-791 (May 2014): 479–84. http://dx.doi.org/10.4028/www.scientific.net/msf.790-791.479.

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Austenitic stainless steels with their very good corrosion resistance are used in industrial applications nuclear and petrochemical industries, pulp and paper chemical, food and chemical processing, biomedical industries and others. But poor tribological and mechanical properties of austenitic stainless steels limit their applications in engineering fields. AISI 316L steel was subjected to transient treatment using high intensity pulsed plasma beams HIPPB. The plasma pulses contained both ions/atoms of electrodes material: Ce, La or (Ce+La) and those of working gas. The pulse energy densities
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Qiu, Ruzhi, Yingxia Li, Zhifeng Yang, Chunhui Li, Jingshan Yu, and Jianghong Shi. "A waste load allocation method based on unfairness factors and its application in the Zhangweinan Watershed, northern China." Water Science and Technology 62, no. 1 (2010): 58–67. http://dx.doi.org/10.2166/wst.2010.278.

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A waste load allocation method was developed for industrial wastewater management based on unfairness factors, an industrial allocation factor and pollution reduction discounts. Three unfairness factors were defined to assess the relative efficiencies of energy consumption, pollution discharge and waste treatment costs for different industries. The overall effect of these factors was described by an industrial allocation factor. Based on the values of these factors, industries were classified into three types, after which waste load allocation proportions among different industries were determ
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34

Tekleyohanis, Tsiye, and Abebayehu Tekleye. "Optimizing Industrial Effluent Flue Gas as Source of Energy for Charcoal Production." International Journal of Energy and Environmental Science 9, no. 1 (2024): 9–19. http://dx.doi.org/10.11648/j.ijees.20240901.12.

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This research suggests a unique way to produce charcoal utilizing industrial flue gas as an energy source. The process entails gathering, cleaning, and transporting the flue gas to a pyrolysis reactor where it is used to carbonize and heat biomass. The paper outlined the design of various components, such as the heat exchanger, pyrolysis reactor, and flue gas filter. It specified that the flue gas temperatures in the glass, pulp and paper, and alcohol industries typically range from 400-500°C, 200-500°C, and 150-300°C, respectively. Furthermore, the chemical compositions of these industries we
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35

Agarwal, Renu, and Nikita Tarar. "Green Techniques for Energy Providing." Journal for Research in Applied Sciences and Biotechnology 3, no. 3 (2024): 17–21. http://dx.doi.org/10.55544/jrasb.3.3.4.

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The pressing global challenges of pollution, resource depletion, and climate change. This abstract provides an overview of modern approaches in green chemistry, focusing on key principles and practices that are transforming the way we design, produce, and use chemicals. Several critical keywords are highlighted to better understand the evolving landscape of green chemistry, including sustainable synthesis, renewable feedstocks, catalysis, atom economy, and eco-friendly processes. By adopting these approaches, researchers and industries are striving to minimize the environmental impact of chemi
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Liu, Fangyu. "Impact Of Corporate Green Technology Innovation from An ESG Perspective." Highlights in Business, Economics and Management 23 (December 29, 2023): 474–81. http://dx.doi.org/10.54097/hzvwbq95.

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This paper discusses the impact of green innovation on firms in the chemical, manufacturing, high-tech and power generation industries from an Environmental, Social, and Governance (ESG) perspective. Through case studies of representative firms in the industries, it summarizes the common features of the impacts in the industries by focusing on the impacts of green innovation on firms from an ESG perspective. By examining leading chemical companies, AkzoNobel, DuPont and The Dow Chemical Company, it demonstrates how green innovation can significantly improve economic performance. In the high-te
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Рябов, Валерий, Valerii Riabov, Ольга Столбова, and Olga Stolbova. "MODERN INDUSTRIAL COMPLEX OF THE KEMEROVO OBLAST." Bulletin of Kemerovo State University. Series: Biological, Engineering and Earth Sciences 2017, no. 3 (2017): 41–46. http://dx.doi.org/10.21603/2542-2448-2017-3-41-46.

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The article describes the modern functional and territorial structure of the economic complex of one of the most industrial regions of the Asian Russia – the Kemerovo region. The basic link in the economic complex of the Kemerovo Region is industry. A quarter of the economically active population in the region is employed in industry. Industry provides half of the gross regional product. The role of industry in the economic complex of the Kemerovo region has not changed for many years. In general, the region’s industry has a pronounced raw material orientation. Raw materials industries are the
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Englande, A. J. "Status and Direction of Waste Minimization in the Chemical and Petrochemical Industries." Water Science and Technology 29, no. 8 (1994): 25–36. http://dx.doi.org/10.2166/wst.1994.0375.

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This paper presents an evaluation of the status and direction of toxic/hazardous waste reduction in the chemical and petrochemical industries from an international perspective. Pertinent approaches, experiences and trends are described. Industrial waste management has evolved from an “end-of-pipe” treatment mentality to source reduction as the preferred option. It is generally agreed that the Chemical/Petrochemical Industries generate more hazardous and toxic waste than any other industrial sector. Also because of the large quantities of materials and energy used by these industries, significa
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Choi, Jae-Young, and Gurumurthy Ramachandran. "Review of the OSHA Framework for Oversight of Occupational Environments." Journal of Law, Medicine & Ethics 37, no. 4 (2009): 633–50. http://dx.doi.org/10.1111/j.1748-720x.2009.00437.x.

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Nanotechnology is a collection of different technologies and approaches dealing with manipulating matter with dimensions on the nanometer scale. The growth of nanotechnology has been rapid in recent years and encompasses a range of industries including pharmaceuticals, chemicals, robotics, medicine, agriculture, electronics, national defense, fiber optics, and energy. Nanoparticles with shapes, morphologies, and chemical compositions engineered for specific functions and applications are now common. While estimates of the numbers of new types of nanoparticles being produced in academic and ind
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40

Vasudeva, Sudhir. "Sustainable Technologies for Energy and Environment in Process Industries." Indian Chemical Engineer 55, no. 1 (2013): 58–65. http://dx.doi.org/10.1080/00194506.2013.793877.

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Vijayaraghavan, P. "Sustainable Technologies for Energy and Environment in Process Industries." Indian Chemical Engineer 55, no. 1 (2013): 52–57. http://dx.doi.org/10.1080/00194506.2013.793878.

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Guo, Hai Bo, Ying Zhu, and Zheng Wang. "Low Carbon Strategies for Industry Energy Plan of Heilongjiang Province." Advanced Materials Research 361-363 (October 2011): 1009–12. http://dx.doi.org/10.4028/www.scientific.net/amr.361-363.1009.

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Heilongjiang Province, whose pillar industries are made up of petroleum and coal exploitation, chemicals fabrication and mechanical devices manufacture, is one of the most important industrial bases in China. The leading enterprises from the three pillar industries make up the 59.2% of the total quantity and contribute the 57.3% of the total GDP in Heilongjiang Province. But as a matter of fact, according to the latest statistics, unit GDP carbon emissions of these three industrials are as high as 4. They are the typical industries whose characteristics are high energy consumed and intense car
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Shinkevich, Alexey I., Tatiana V. Malysheva, Yulia V. Vertakova, and Vladimir A. Plotnikov. "Optimization of Energy Consumption in Chemical Production Based on Descriptive Analytics and Neural Network Modeling." Mathematics 9, no. 4 (2021): 322. http://dx.doi.org/10.3390/math9040322.

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Improving the energy efficiency of chemical industries and increasing their environmental friendliness requires an assessment of the parameters of consumption and losses of energy resources. The aim of the study is to develop and test a method for solving the problem of optimizing the use of energy resources in chemical production based on the methodology of descriptive statistics and training of neural networks. Research methods: graphic and tabular tools for descriptive data analysis to study the dynamics of the structure of energy carriers and determine possible reserves for reducing their
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Desmond C. Richard. "Green Chemistry and Sustainability." Revista Latinoamericana de Química 51, no. 1 (2024): 1–2. https://doi.org/10.52783/rlq.7.

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Green chemistry aims to design chemical products and processes that minimize hazardous substances and environmental impact. It integrates principles that promote sustainability, waste reduction, and energy efficiency. This paper explores the core principles of green chemistry, its industrial applications, and future challenges. By adopting green chemistry, industries can reduce pollution and enhance economic and environmental sustainability.
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Mao, Guangxiong, Wei Jin, Ying Zhu, Yanjun Mao, Wei-Ling Hsu, and Hsin-Lung Liu. "Environmental Pollution Effects of Regional Industrial Transfer Illustrated with Jiangsu, China." Sustainability 13, no. 21 (2021): 12128. http://dx.doi.org/10.3390/su132112128.

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Industrial transfer is reshaping the geographic layout of industries and facilitating the transfer and spread of environmental pollution. This study employs the pollution transfer estimation method to discuss the environmental effect of industrial transfer. By compiling statistics on industries of a certain scale according to time-series data, the researchers compute the pollution load generated by industrial transfer and the difference in pollution emissions for each region and industry. Through the constructed evaluation model, the empirical scope is Jiangsu, which is the most developed indu
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Wolf, Andreas T., and Andreas Stammer. "Chemical Recycling of Silicones—Current State of Play (Building and Construction Focus)." Polymers 16, no. 15 (2024): 2220. http://dx.doi.org/10.3390/polym16152220.

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As the demand for silicone polymers continues to grow across various industries, the need for effective recycling methods has become increasingly important, because recycling silicone products reduces landfill waste, conserves resources, and uses less energy. Chemical recycling involves the depolymerization of silicone waste into oligomers, which can then be used to produce virgin-grade silicone. While this sector of the recycling industry is still in its infancy—we estimate that 35,000 to 45,000 metric tons of silicone waste will be chemically recycled worldwide in 2024—an increasing number o
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Kussumardianadewi, Bernadette Detty, Albert Eddy Husin, and Lastarida Sinaga. "Renewable energy in chemical industrial buildings for cost performance." SINERGI 29, no. 1 (2025): 21. https://doi.org/10.22441/sinergi.2025.1.003.

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Due to their potential benefits for a variety of industries, blockchain technologies have recently attracted a lot of attention from the scientific community as well as the business community. Blockchain provides distributed, secure, permissioned transactional ledgers, that successfully deal with these problems. The purpose of this study is to present a new conceptual framework that combines blockchain technology with building information modeling. This framework is specifically designed for smart contracts and digital transactions in the chemical industry's retrofitting of green buildings. Wi
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Akkuzinov, A. K. "Industrial potential of the Kazakh SSR during the Great Patriotic War (1941–1945)." Vestnik of Samara University. History, pedagogics, philology 29, no. 4 (2023): 45–52. http://dx.doi.org/10.18287/2542-0445-2023-29-4-45-52.

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The aim of the article is to analyze the activities of various industries of the Kazakh SSR during the Great Patriotic War, aimed at providing raw materials to enterprises of the military-industrial complex and their own production aimed at improving the defense capabilities of the Soviet state. The relevance of the study was determined by the need to identify trends in the development of industry in the Kazakh Republic during the Patriotic War. The source base of the work was the works of Soviet, Russian and Kazakh authors, information from the Archive of the President of the Republic of Kaza
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Carmona-Martínez, Alessandro A., Alejandro Fresneda-Cruz, Asier Rueda, et al. "Renewable Power and Heat for the Decarbonisation of Energy-Intensive Industries." Processes 11, no. 1 (2022): 18. http://dx.doi.org/10.3390/pr11010018.

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The present review provides a catalogue of relevant renewable energy (RE) technologies currently available (regarding the 2030 scope) and to be available in the transition towards 2050 for the decarbonisation of Energy Intensive Industries (EIIs). RE solutions have been classified into technologies based on the use of renewable electricity and those used to produce heat for multiple industrial processes. Electrification will be key thanks to the gradual decrease in renewable power prices and the conversion of natural-gas-dependent processes. Industrial processes that are not eligible for elect
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Ahmad, M. A., U. Isah, I. A. Raubilu, S. I. Muhammad, and D. Ibrahim. "An overview of the enzyme: Amylase and its industrial potentials." Bayero Journal of Pure and Applied Sciences 12, no. 1 (2020): 352–58. http://dx.doi.org/10.4314/bajopas.v12i1.53s.

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Amylases are group of enzymes produced by plants, animals and microorganisms, the enzyme has the ability to hydrolyze or degrade starch molecules into polymers containing units of glucose, thus, it is one of the most useful enzymes used by industries dependent on starch in their production processes. The enzyme has varying applications in food, fermentation, textile, pharmaceutical industries among others. Generally, amylase from microbial sources (i.e. fungal and bacterial origin) has over shadowed others in industrial usage. As such, this Paper aimed at reviewing amylase enzyme as a whole an
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