Recycling Technology Product List and Ranking from 10 Manufacturers, Suppliers and Companies | IPROS

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

Recycling Technology Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

  1. 野末商店 Shizuoka//others
  2. エヌ・ティー・エス Tokyo//Service Industry
  3. 技術情報協会 Tokyo//Service Industry
  4. 4 HARITA Toyama//others
  5. 4 Tohoku Techno Arch Co., Ltd. Miyagi//Educational and Research Institutions
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Recycling Technology Product ranking

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

  1. Recovery and recycling technology for metal composites 野末商店
  2. Recovery and recycling technology for rare metals from lithium-ion batteries. エヌ・ティー・エス
  3. [Book] Environmental Compatibility and Recycling Technology of Container Packaging Materials (No. 2182) 技術情報協会
  4. Solar panel recycling technology HARITA
  5. 4 Tohoku Univ. Technology:Swelling followed by ball-milling for waste wire-harness recycling:T19-082_T19-440 Tohoku Techno Arch Co., Ltd.

Recycling Technology Product List

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Tohoku Univ. Technology:Swelling followed by ball-milling for waste wire-harness recycling:T19-082_T19-440

Tohoku Univ. Technology:Swelling followed by ball-milling for waste wire-harness recycling:T19-082_T19-440

Highly efficient and accurate separation of copper wires and PVC coating

 Wire harnesses (WHs), the main target of this technology, are mainly used in automobiles and consist of bundles of thin wires that connect each component and are responsible for transmitting electrical signals and supplying power. Increased demand is expected with the rapid growth of electric vehicles in the future, and the development of efficient recycling technology for used WHs is strongly desired. To secure domestic resources and realize a decarbonized society, it is vital to recycle not only metal wires but also plastic coating materials. Chopping or comminution treatment is a common separation technology for treating used WHs, while it has limitations for mechanically recycling recovered plastic coating because it contains fine copper particles that are impurities for recycling. This invention enables the separation, sorting,and simultaneous recovery of copper wires and polyvinyl chloride (PVC) coating without the formation of fine particles by applying moderate impact in the ball mill equipment after swelling the coating material with organic solvent.

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Method for separating tramp elements in molten iron: T24-006

Method for separating tramp elements in molten iron: T24-006

Achieved copper removal with a metal copper composition comparable to actual operational levels, without adding sulfides.

■Introduction of Tohoku University Technology In the recycling smelting of iron scrap, elements such as Cu, Ni, and Sn, which are difficult to remove due to oxidation, are referred to as tramp elements, and they hinder the recycling rate of iron raw materials (scrap). In particular, Cu is expected to become a bottleneck in iron recycling. In response, the inventors have developed a technology in their prior patent No. 7515880 that selectively electro-deposits only Cu ions from molten iron onto the cathode. However, the examples provided in that patent had a Cu composition in the metal of only a few percent, which is far from practical operations, and since sulfides were added, desulfurization was necessary in practical operations. The present invention is a technology that achieves copper removal at a Cu composition in the metal comparable to practical operations without the addition of sulfides, by adjusting reaction forms and atmospheres.

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Recovery and recycling technology for rare metals from lithium-ion batteries.

Recovery and recycling technology for rare metals from lithium-ion batteries.

The recovery of useful materials from lithium-ion battery (LiB) recycling is an urgent priority for a resource-circulating society!

How can we recover limited rare metal resources with high purity? This includes an overview of the current business strategies and challenges in companies and research institutions, as well as an introduction to the recycling situation in China, which boasts a top global market share!

  • Rare metal recovery
  • Batteries and Capacitors
  • Other resource recycling
  • Recycling Technology

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Soil recycling technology "Bontelan Method"

Soil recycling technology "Bontelan Method"

Awarded the "Minister of Land, Infrastructure, Transport and Tourism Award" at the 2008 Academic and Government Collaboration Achievement Awards.

The "Bontelan Method" is a construction technique that improves the handling properties, durability, and earthquake resistance of soil that has traditionally been deemed unsuitable for use as fill. This is achieved by mixing fiber-based soil improvement materials called "Bonfiber" and solidifying agents into the soil. It is an environmentally friendly method that aims to enhance the quality of sludge generated during construction and repurpose it as excellent soil for reuse. The effectiveness of Bontelan improved soil as a ground material for earthquake resistance was demonstrated, as no damage was reported in civil engineering structures using this method during the Great East Japan Earthquake. **Features** - Significant cost reduction compared to conventional methods - Reusable as highly durable improved soil - Contributes to rapid disaster recovery - NETIS registration, registration number TH-020042-V - Collaborative research results from industry-academia-government → Professor Hiroshi Takahashi, Graduate School of Environmental Studies, Tohoku University For more details, please contact us or download the catalog.

  • Earthworks
  • Pile and foundation work
  • Recycling Technology

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"Environmental Maintenance Project / Environmental Recycling Project" Energy / Chemical Manufacturing

"Environmental Maintenance Project / Environmental Recycling Project" Energy / Chemical Manufacturing

- Towards "Creating" Environmental Technology -

【Hydrogen Power Generation Continuous Plant】 The liquid waste that is brought into our company as a hydrogen raw material includes approximately 15,000 tons per year of organic and inorganic waste liquids, including waste acids, waste alkalis, and waste oils that contain hydrogen. Extracting high-purity hydrogen from these materials and converting it into energy leads to a new value in waste, that is, the creation of waste energy that has not been effectively utilized until now. 【Reaction Heat Energy】 "Ionic Power Generation" is a technology that converts reaction heat from neutralization, dissolution, oxidation, and reduction into electricity. By efficiently extracting reaction heat in the low-temperature range of 70°C to 90°C, we utilize waste as an energy resource. "Material + Energy." The previously untapped resources hidden in waste have opened the door to a new environmentally friendly society. 【Ammonia Water Production】 Using ammonia-based wastewater discharged from precious metal handling, chemical manufacturing, and steel industries as raw materials, we produce ammonia water with a concentration of 25%, which can be supplied as a reagent for various applications, such as reducing agents for NOx.

  • Other power generation
  • Recycling Technology

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Soil recycling technology "Bontelan Method"

Soil recycling technology "Bontelan Method"

Registered with NETIS and has received awards! Reusing soil significantly reduces costs.

The "Bontelan Method" is a construction technique that actively reuses soil that has traditionally been deemed unsuitable for embankment by mixing fiber-based soil improvement material "Bonfiber" and a solidifying agent into the soil. This method transforms the soil into a high-performance ground material. The high-performance ground materials enhance handling properties, add functions such as high durability, erosion resistance, and liquefaction countermeasures. We take pride in our construction achievements, totaling 630,000 m³ and 400 projects. [Features] - Improved handling properties (contributing to disaster recovery) - Simple construction machinery for improvement - High-performance ground materials such as erosion resistance, durability against repeated wet and dry conditions, and liquefaction countermeasures - Non-decomposing Bonfiber *For more details, please download the PDF or feel free to contact us.

  • Renovation and repair methods
  • Civil Engineering Method
  • Special Construction Method
  • Recycling Technology

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Solar panel recycling technology

Solar panel recycling technology

The wet density separation machine uses only water, making it a low-cost and high-capacity processing equipment!

Our company has developed a technology to recycle solar power panels. The solar power panels are crushed using an indoor shredder sorting line from existing equipment, and metals (such as iron and aluminum) are removed. By utilizing the difference in specific gravity between materials with a wet specific gravity separator (jig separator), we can separate them into upper and lower layers, allowing for the sorting of glass, plastics, and precious metals (such as silver). The results of this demonstration project have been introduced as a reference case in the "Guidelines for Promoting the Recycling of Solar Power Generation Equipment (Second Edition)." *For more details, please download the PDF or feel free to contact us.

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[Seminar] IHI Corporation: Efforts in Carbon Recycling Technology Development

[Seminar] IHI Corporation: Efforts in Carbon Recycling Technology Development

e-methane production / low olefins via Fischer-Tropsch reaction / SAF synthetic fuel

Our company will hold a business seminar. Establishing carbon recycling technology that captures CO2 as a carbon source to replace fossil resources and reuses it as a valuable material is essential for the transition to a net-zero society. This seminar will describe the principles and characteristics of CO2 conversion technology, which uses catalysts to transform CO2 into valuable materials such as fuels and chemical raw materials. Additionally, it will provide detailed information on IHI's efforts in the production of e-methane through CO2 methanation and the development status of liquid hydrocarbon synthesis processes for lower olefins and sustainable aviation fuel (SAF) through the Fischer-Tropsch reaction. 【Seminar Details】 ■ Date and Time: December 20, 2024 (Friday) 13:30 - 15:30 (Doors open at 13:00) ■ Venue: JPI Conference Square ■ Address: 5-2-32 Minamiazabu, Minato-ku, Tokyo, Kowa Hiroo Building ■ Participation Method: In-person, live streaming, archived streaming ■ Speaker: IHI Corporation     General Manager, Technology Development Headquarters, Ph.D. (Engineering)     Hiroyuki Kamada *For more details, please refer to the PDF document or feel free to contact us.

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Recycling technology for plastics and rubber using the twin-screw extruder 'TEX'.

Recycling technology for plastics and rubber using the twin-screw extruder 'TEX'.

Achieving recycling of wire insulation materials and tires through cross-linking cutting by screw shear. Precise control of resin temperature and other factors is possible.

Our company is working on the development of recycling technology for plastics and rubber with cross-linked structures, which are generally considered difficult to recycle, by utilizing the twin-screw kneading extruder 'TEX'. 'TEX' effectively cuts cross-linking by finely grinding supplied coarse crushed rubber with a kneading screw, followed by applying heat, compression, and shear action. Since the resin temperature, screw rotation speed, and shear stress can be precisely controlled to conditions suitable for cross-link cutting, it enables the continuous production of high-quality recycled products effectively and stably. 【Features】 ■ Equipped with a screen changer at the front for filtering out impurities ■ Allows for filter replacement during operation, enabling continuous operation ■ Further efficiency can be achieved by using liquid additives for cross-link cutting ■ By-products can be collected through venting or slitting, etc. *For more details, please refer to the materials. Feel free to contact us with any inquiries.

  • Other resource recycling
  • Recycling Technology

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Recovery and recycling technology for metal composites

Recovery and recycling technology for metal composites

Separation, recovery, and recycling of metal materials from discarded motors. Stable supply of recycled materials such as copper, aluminum, and iron with a purity of 99%.

Our company is engaged in the recycling business of AC motors, washing machine motors, EV motors, and others, which require high crushing and separation performance for the recovery and regeneration of copper. The "Hollyhock Plant" built in 2023 is equipped with crushing and sorting lines capable of regenerating 2,150 tons of copper annually with a recovery rate and purity of 99% from motors ranging from 15mm to 200mm. We have achieved improvements in processing accuracy and recycling efficiency, contributing to the domestic circulation of resources and reduction of environmental impact. 【Features】 ■ Separation and recovery of metals such as copper, aluminum, and iron from metal composites ■ Proven track record of supplying regenerated materials to non-ferrous metal refining manufacturers and steel manufacturers ■ Delivery of regenerated materials tailored to specifications through component analysis ■ Acceptance of small quantities of metal recovery and drop-offs *For more details, please refer to the materials available for download in PDF format. Feel free to contact us with any inquiries.

  • Other resource recycling
  • Recycling Technology

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[Book] Environmental Compatibility and Recycling Technology of Container Packaging Materials (No. 2182)

[Book] Environmental Compatibility and Recycling Technology of Container Packaging Materials (No. 2182)

【Available for preview】★ How can we achieve gas barrier properties, heat sealability, and physical strength equivalent to conventional materials?

★ Development of Marine Biodegradable Plastics! Achieving both 'Physical Properties During Use' and 'Biodegradation After Use'! --------------------- ■ Key Points of This Document ◆ Organization of Various Regulations, Standards, and Certifications ◆ - Understanding the Plastic Resource Circulation Strategy - Mechanisms and Challenges of Mass Balance and Segregation - Evaluation of Environmentally Friendly Materials from the Perspective of LCA ◆ Establishment of Various Recycling Technologies ◆ - Chemical recycling conducted under mild conditions - Development of decomposition catalysts for polyolefins - Improvement of physically degraded recycled plastics - Prevention of contamination and yellowing - Balancing physical properties and recyclability ◆ Case Studies of Environmentally Friendly Material Development ◆ - Realization of mono-materialization → Improvement of barrier properties and optimization of material properties - Development of biodegradable/marine biodegradable plastics → Decomposition control using switch functions and decomposition accelerators - Adoption of biomass plastics → Measures for heat resistance, water resistance, moldability, odor, etc. - Expectations for paper-based materials → Manifestation of functions such as barrier properties and heat sealability

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[Book] Development of Effective Utilization Technology for CO2 (No. 2207)

[Book] Development of Effective Utilization Technology for CO2 (No. 2207)

[Available for preview] ~ Manufacturing of useful chemicals, fuel production, direct utilization, immobilization, resource recovery ~

◎A comprehensive explanation of the current state of carbon recycling technology from various aspects such as environmental impact, thermodynamics, and cost! ◎How can we achieve energy efficiency and low costs in utilization processes? Detailed case studies towards realization! --------------------- ■ Key Points of This Book ◆ CO2 conversion processes for the production of useful chemicals - Design methods for reaction fields to control and enhance the selectivity of CO2 reduction reactions - Approaches to electrode durability in electrochemical processes - Measures against catalyst degradation in high-temperature reaction processes and lowering the temperature of the process - Key points to improve conversion efficiency in bioprocesses! ◆ Production of useful chemicals and fuels from CO2 - Urea compounds, carbonates, polyurethanes, ethylene, carboxylic acids, formic acid, carbon monoxide, polyesters, formaldehyde, calcium carbonate... - Synthetic fuels, methane, methanol, hydrocarbons, dimethyl ether, biofuels, ethanol... Numerous case studies on the production of useful chemicals and fuels! ◆ Direct utilization technologies for CO2 and fixation technologies◆ - Adhesive technologies - Coating technologies - Cleaning technologies - Refrigeration systems - Fixation technologies - Fixation technologies in the ocean?

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[Seminar] Creating Systems and Specific Examples for Sustaining New Business Development

[Seminar] Creating Systems and Specific Examples for Sustaining New Business Development

Adopted as the "3rd Comprehensive Knowledge Utilization Case" by the Cabinet Office - Towards the commercialization of the "Global Zoo Concept"

Our company will hold a business seminar. 【Seminar Details】 ■ Date and Time: November 19, 2025 (Wednesday) 13:30 - 15:30 (Doors open at 13:00) ■ Venue: JPI Conference Square ■ Address: 5-2-32 Minamiazabu, Minato-ku, Tokyo, Kowa Hiroo Building ■ Participation Method: In-person, live streaming, archived streaming ■ Instructors: Tokyu Construction Co., Ltd. Value Creation Promotion Office, Innovation Promotion Department     Senior Manager: Yoshitaka Yanagihara     Manager: Koichi Fujita *For more details, please refer to the PDF document or feel free to contact us.

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