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Distillation Apparatus Product List and Ranking from 26 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Dec 24, 2025~Jan 20, 2026
This ranking is based on the number of page views on our site.

Distillation Apparatus Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Dec 24, 2025~Jan 20, 2026
This ranking is based on the number of page views on our site.

  1. 大阪油化工業 本社 Osaka//Manufacturing and processing contract
  2. null/null
  3. 関西化学機械製作 Hyogo//Industrial Machinery
  4. 4 フォス・ジャパン Tokyo//Testing, Analysis and Measurement
  5. 5 null/null
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Distillation Apparatus Product ranking

Last Updated: Aggregation Period:Dec 24, 2025~Jan 20, 2026
This ranking is based on the number of page views on our site.

  1. Learn about 'What is Precision Distillation?' from the experts in precision distillation ★ Three books are being offered together. 大阪油化工業 本社
  2. Kjeldahl distillation apparatus
  3. Automatic Kjeldahl Distillation Apparatus K-375/376/377
  4. Kjeldahl automatic distillation apparatus "Keltec 8100" フォス・ジャパン
  5. 4 Read this to understand distillation!" Technical & Basic Knowledge Material "What is Distillation 関西化学機械製作

Distillation Apparatus Product List

61~75 item / All 83 items

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Solvent distillation apparatus

Solvent distillation apparatus

Fully automated operation! Reduced maintenance due to low thermal power and sustained performance over long periods.

We handle "solvent distillation equipment." The "ROTO PLUS 100-202-400" is a model suitable for integration with parts cleaning devices and automatic cleaning systems for printing machines. It supports processing capacities from 100 to 2,000 liters per 24 hours. Self-cleaning is possible with a spatula attached to the mixer. We also offer the "IST 90-122-202" and "ECO PLUS 122-202-400," which realize a low-cost system. 【Features of ROTO PLUS 100-202-400】 ■ Easy operation via touch screen ■ All process parameters are clearly visible at a glance ■ Complex mixing can be easily programmed (guided) ■ Fully automatic operation ■ Optimized production space due to compact design *For more details, please refer to the PDF materials or feel free to contact us.

  • Distillation Apparatus

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Continuous Thin Film Water Vapor Distillation Device "TLVC"

Continuous Thin Film Water Vapor Distillation Device "TLVC"

A distiller with good yield for the extraction of volatile components using a thin film stirring method.

The "TLVC" is a continuous thin-film steam distiller that has a significantly superior essential oil (volatile component) collection efficiency compared to conventional devices. It can process high-viscosity raw materials and handle high-concentration treatments efficiently, and since it is continuous, it allows for large-scale processing. Please feel free to consult us if you have any requests. 【Features】 ■ High flexibility in scale, allowing for devices tailored to specific purposes ■ The device is simple and inexpensive, offering good cost performance ■ Nitrogen is used as the carrier gas, enabling extraction processing at low temperatures ■ Demonstrates high performance as a deodorization device *For more details, please download the PDF or feel free to contact us.

  • Steam distillation apparatus
  • Distillation and fractionation equipment
  • Other distillation equipment

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[Test] Residual carbon content of 10% residual oil (vacuum distillation method)

[Test] Residual carbon content of 10% residual oil (vacuum distillation method)

Burn the residual oil after removing 90% of the distillate oil from the sample using a vacuum distillation apparatus, and measure!

We conduct tests to measure the coke-like carbon residue remaining after the combustion of samples. The target is FAME (Fatty Acid Methyl Ester). We burn the residual oil after removing up to 90% of the distillate using a vacuum distillation apparatus and measure it. Please feel free to contact us when you need our services. 【Test Details】 ■Item Number: L376 ■Required Amount: 500ml ■Standard Number: JIS K2270-2 *For more details, please refer to the related links or feel free to contact us.

  • Public Testing/Laboratory

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[Example of Problem Solving] Reuse of Treated Water at Landfill Sites

[Example of Problem Solving] Reuse of Treated Water at Landfill Sites

We will introduce case studies that solve issues related to difficult decomposition processes and water reuse.

There was a request from a plant manufacturer to treat the concentrated water that comes from the RO membrane treatment of leachate from a landfill. The requester had a plan to reuse the leachate treatment water from the landfill, but the salinity of the treated water was too high for reuse. Therefore, we proposed to treat the concentrated liquid, which accounts for 40% of the treated water discharged from the RO membrane, using a vacuum distillation unit called "Gen," to separate the concentrated liquid into distilled water and salt. As a result, the landfill, which had difficulty securing water in the mountains, was able to conserve valuable water resources and easily secure the necessary water volume through this method. [Case Study] ■ Request: To treat the concentrated water that comes from the RO membrane treatment of leachate from the landfill ■ Proposal: Proposed the vacuum distillation unit "Gen" ■ Implementation Effect: Valuable water resources were conserved, and securing the necessary water volume became easier. *For more details, please refer to the PDF document or feel free to contact us.

  • Water treatment equipment
  • Wastewater/wastewater treatment equipment
  • Other water treatment equipment

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Atmospheric Pressure and Boiling Point

Atmospheric Pressure and Boiling Point

A clear explanation of the basic knowledge necessary to understand distillation, distillation towers, and distillation equipment!

Kansai Chemical conducts plant engineering for processes such as distillation, evaporation, refining, reaction, fermentation, extraction, and solvent recovery. I will explain about "atmospheric pressure and boiling point." Most of the atmosphere consists of air and water, and atmospheric pressure is expressed in hectopascals (hPa). In fact, atmospheric pressure is the sum of air pressure and water vapor pressure. In the state before the water in the pot boils, steam initially rises above the pot, and gradually the amount of water vapor increases. The amount of air just above the pot decreases gradually. When boiling occurs, all the air is gone, and it becomes all water vapor. Assuming the atmospheric pressure on that day was 1,013 hPa, the water vapor pressure just above the pot becomes 1,013 hPa since there is no air left, and it consists solely of water vapor. At that time, the temperature of the pot is 100°C. *For more details, please refer to the PDF document or feel free to contact us.*

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Temperature and Vapor Pressure

Temperature and Vapor Pressure

A clear explanation of the basic knowledge necessary to understand distillation, distillation towers, and distillation equipment!

Kansai Chemical conducts plant engineering for distillation, evaporation, refining, reaction, fermentation, extraction, solvent recovery, and more. I will explain about "temperature and vapor pressure." When water boils at 100°C, its vapor pressure is 1,013 hPa. At the summit of Mount Fuji, the atmospheric pressure is said to be approximately 630 hPa. When the water in a pot boils, the water vapor just above the pot displaces all the air, so the vapor pressure of the water is the same as the atmospheric pressure, which is 630 hPa. At this point, the temperature of the boiling water is likely 87°C. At the summit of Mount Everest, the atmospheric pressure is about 300 hPa. The temperature of boiling water here is 69°C. Thus, "the boiling temperature is determined by pressure." In other words, it is a physical property value. In other words, vapor pressure is determined by temperature. *For more details, please refer to the PDF document or feel free to contact us.

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Humidity and Partial Pressure

Humidity and Partial Pressure

A clear explanation of the basic knowledge necessary to understand distillation, distillation towers, and distillation equipment!

Kansai Chemical will explain "Humidity and Partial Pressure." The atmosphere is a mixture of air and water, and the ratio of this mixture is humidity. Just above a boiling pot, there is no air, only 100% water vapor. Therefore, the pressure of that water vapor is equal to atmospheric pressure. Most liquids have a vapor pressure determined by temperature, and the vapor pressure of water at 30°C (saturated vapor pressure) is 42 hPa. If the atmospheric pressure on Earth were 42 hPa, water would boil at 30°C. However, the atmospheric pressure at ground level is considered to be an average of 1,013 hPa (neither high pressure nor low pressure). If the water in the pot is at 30°C, then the water vapor just above the surface of the water is 42 hPa, and the air pressure is (1,013 - 42) = 971 hPa. When several components are mixed, the total pressure is called the total pressure, and the pressure exerted by each component (air, water) is called the partial pressure. And this is known as "the total pressure is equal to the sum of the partial pressures (Dalton's Law of Partial Pressures)." *For more details, please refer to the PDF document or feel free to contact us.

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Partial pressure and total pressure

Partial pressure and total pressure

A clear explanation of the basic knowledge necessary to understand distillation, distillation towers, and distillation equipment!

Kansai Chemical will explain "partial pressure and total pressure." When it comes to pressure in distillation operations, it usually refers to the pressure limited on the gas side. Air is primarily composed of nitrogen and oxygen, with nitrogen making up about 80% and oxygen about 20% by volume. (The molar ratio is the same.) Now, let's consider a balloon inflated with air. Inside the balloon, nitrogen and oxygen molecules are moving vigorously. They are colliding violently and uniformly (according to Pascal's principle) against the inner walls of the balloon multiple times. The pressure inside the balloon can be said to be the result of these collision forces. One mole is a collection of 6.022×10^23 molecules, and for all gases, at 0°C and 1 atm, it occupies 22.4 L. This means that the force exerted by a single molecule on the wall during a collision is equal for both nitrogen and oxygen. While we have imagined a lot about gases, an important law regarding the handling of gases in distillation is Dalton's law of partial pressures: "Total pressure P (kPa) = Sum of partial pressures Σpi (kPa)." *For more details, please refer to the PDF document or feel free to contact us.

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What is an ideal gas?

What is an ideal gas?

A clear explanation of the basic knowledge necessary to understand distillation, distillation towers, and distillation devices!

Kansai Chemical will explain about "ideal gases." An ideal gas is defined as: - "The size of the molecules is negligible (therefore, the molecules do not collide with each other)" - "When colliding with walls, the direction changes but the speed remains the same (elastic collision)" - "There are no interactions between molecules" Based on these assumptions, the laws mainly related to the field of distillation are "Boyle's Law and Charles's Law" and "Dalton's Law of Partial Pressures." While we have imagined many aspects regarding gases, an important law in the handling of gases during distillation is Dalton's Law of Partial Pressures: "Total Pressure P (kPa) = Sum of Partial Pressures Σpi (kPa)." This law is derived from the properties of ideal gases, but it is a sufficiently reliable law within the range used in distillation. *For more details, please refer to the PDF materials or feel free to contact us.*

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What is an ideal solution?

What is an ideal solution?

A clear explanation of the basic knowledge necessary to understand distillation, distillation towers, and distillation equipment!

Kansai Chemical will explain about "ideal solutions." A solution in which "Raoult's Law" holds is called an ideal solution. The solutions that can be treated as ideal solutions are very limited combinations, such as methanol-ethanol and benzene-toluene, which have similar molecular structures. However, the existence of solutions that behave like ideal solutions is sufficient for understanding the concept of distillation operations when treated as ideal solutions. "Raoult's Law" states that the partial pressure \( p_i \) of a component in the vapor phase is equal to the product of the vapor pressure \( P_i \) of each pure component in the solution and the concentration \( x_i \) (mol-fraction) of that component in the solution. Here, it also relates to the ratio of the number of molecules in the liquid. *For more details, please refer to the PDF document or feel free to contact us.*

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What is precision distillation that you can't ask about now? We are currently offering materials that explain precision distillation.

What is precision distillation that you can't ask about now? We are currently offering materials that explain precision distillation.

"What is precision distillation?" We are currently offering explanatory materials that can help you understand from the basics! It includes "types of distillation," "illustrations of distillation methods," and "examples of distillation applications"!

Osaka Yuka Kogyo, as a professional in distillation, has supported various product developments through distillation. However, many people may find distillation difficult to understand and may only have a vague idea about it. This document includes information such as "What exactly is precise distillation?" as well as "Types of distillation" and "Details about each distillation method." If you have any questions about precise distillation, please feel free to contact Osaka Yuka Kogyo. ★ We will be exhibiting at "Chemical Material Japan 2025." *For more details, please refer to the PDF document or feel free to contact us.

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