Today, I would like to delve deeper into the subject of crude oil. I chose this topic because I find myself hearing about natural resources and fuels more frequently these days. But what is crude oil in the first place? Does its composition change depending on where it is extracted?
Gas, electricity, and petroleum are all around us in our daily lives, yet there is so much I don’t know about them. (And yet, I use them every day! I felt I couldn’t let that continue, so I decided to look into it in my own way.)
What is Crude Oil?
A “condensate of organic matter” matured by the Earth’s crust over hundreds of millions of years.
Oil that has just been extracted from the Earth’s crust and remains unprocessed is called crude oil.
Crude oil is essentially a “condensate of organic matter” that the Earth’s crust has matured over hundreds of millions of years. The layers of the crust where oil is found are like a sponge packed with grains of sand and rock. Within the tiny spaces between these grains, groundwater and crude oil are trapped together.
However, a specific condition is required to keep it trapped. If there is a “sturdy lid” blocking its path before it reaches the surface, the oil accumulates beneath it. This is what we call an oil field. In some parts of the world, there are giant oil fields perfectly sealed by a powerful lid known as rock salt.
In appearance, crude oil is a thick, black liquid. Within it, various components closely connected to our lives—such as gasoline, kerosene, diesel oil, heavy fuel oil, and asphalt—are all mixed together.
- Earth’s Crust (地殻): The outermost layer of the Earth is called the “crust.” Depending on the location, it refers to the layer extending about 30 to 50 km below the land’s surface. Crude oil accumulates within the upper few kilometers of this layer, closest to the surface.
- Mantle (マントル): The layer beneath the crust is called the “mantle.” Crude oil does not exist here because the intense heat would cause the oil to decompose.
Can Crude Oil be used as it is?
If we were to answer with a simple “yes” or “no,” the answer is “yes.” However, even on a global scale, using crude oil in its raw state is extremely rare in the modern world.
There are three primary reasons for this:
- Danger: Crude oil contains highly flammable gas components. Burning it in its raw state carries the risk of explosive combustion.
- Damage to Machinery: Crude oil is mixed with sand, moisture, and impurities. Using it directly can cause precise engine parts to clog or corrode.
- Environmental Concerns: Crude oil naturally contains elements like sulfur and nitrogen. When burned, it easily releases harmful gases that cause issues like acid rain. Furthermore, because it contains unrefined heavy components, it tends to undergo incomplete combustion, producing thick black smoke (soot).
In Japan, we have to look back as far as the Asuka period (6th to 8th century) to find crude oil being used as it was. At that time, it is said that people used oil that seeped naturally from the ground as fuel for torches (taimatsu).
In more recent times, crude oil was occasionally burned directly at power plants. However, due to environmental issues such as air pollution from exhaust gases, it has now become standard practice to thoroughly refine the oil before use.
Comparison of Crude Oil Use Through the Ages
| Era | Name / Status | Usage | Characteristics & Challenges |
| Ancient Times (Asuka Period ~) | Burning Water (Kusozu) | Used as fuel for torches using oil that seeped naturally from the ground. | Recorded in the Nihon Shoki (Chronicles of Japan). While it was smoky and odorous, it was a precious source of light. |
| Edo Period | Kusozu | Used as a topical medicine or as lubricant to stop wheels from creaking. | Hand-dug wells called “Kusozu-tsubo” were created to boil and refine the crude oil. |
| Recent Past (1970s ~) | Crude Oil Direct Firing (Nama-daki) | Burned directly in massive boilers as fuel for thermal power plants. | Done during emergencies like the Oil Crisis. It was difficult to manage environmental impact due to dirty exhaust gas. |
| Present Day | Refined Products | Refined into gasoline, kerosene, diesel, etc., before use. | [The Standard] It does not damage machinery and is much gentler on the environment. |
From Crude Oil to Refined Products: The Work of a Refinery
The thick crude oil extracted from the Earth’s crust is taken to a refinery. This is a place where towering distillation columns, surrounded by a maze of piping, transform the raw oil into user-friendly and environmentally conscious gasoline or kerosene. Here, the many mixed components of crude oil are heated and separated.
Inside these massive distillation columns, the oil is sorted by utilizing the different boiling points (the temperature at which a substance evaporates) of its various components. When heat is applied from the bottom of the column, the lighter components turn into vapor and rise toward the top. By cooling this vapor back into liquid at different levels, substances like gasoline and kerosene are extracted.
The intricate, maze-like network of pipes acts like blood vessels, carrying these separated components to the next stages of the refining process.
The Identity of “Refined Products” Determined by Temperature
Within the distillation column, the name and purpose of each component change depending on the height—and therefore the temperature—at which it is extracted.
Products Defined by Temperature Tiers
| Temperature / Area | Product Name | Characteristics & Primary Uses |
| Low Temp (Top of the column) | Petroleum Gas (LPG) | Evaporates instantly. Used for portable gas stoves and taxi fuel. |
| Gasoline | Thin, fluid, and highly flammable. Used as fuel for cars. | |
| Mid Temp (Middle of the column) | Kerosene | Has a moderate weight. Used for heating (stoves) and as jet fuel. |
| Diesel Oil (Light Oil) | High power. Used as fuel for trucks, buses, and construction machinery. | |
| High Temp (Bottom of the column) | Heavy Fuel Oil | Thick and difficult to ignite. Used as fuel for massive ships and power plants. |
| Asphalt | The sticky residue left at the very end. Used for road paving (the foundation of our ground). |
Zero Waste: The Ultimate Self-Sustaining System
While the components are separated by heat, the truth is, there are no “leftovers.” The system is designed to use every last drop, right until the very end. Absolutely nothing goes to waste!
But wait—that brings up a question. “Where does the fuel for all that heating come from!?” To keep heating things to temperatures over 350°C, you must need an incredible amount of energy.
Actually, that fuel is also “crude oil.” By skillfully using its own materials, the system achieves an extreme level of self-sufficiency. For instance, they perform a constant “heat relay,” where the heat from the piping-hot finished products is shared with the next batch of cold crude oil to warm it up. Through this continuous recycling of heat, they achieve a surprising level of energy efficiency.
And here’s another surprise! Refineries operate 24 hours a day, 365 days a year, without a single moment’s rest. Why do they keep working so hard? Because if they ever stopped the burners and the temperature dropped, the oil inside would cool and harden, completely clogging the maze-like pipes! Not to mention, it would require a colossal amount of fuel to heat everything back up again.
Of course, the system is also supported by external “electricity” to power the massive pumps and control systems that keep this giant mechanism alive.
Why were Japan’s geological layers able to store crude oil?
Japan’s “Cradle of Petroleum”
To understand why crude oil was stored within Japan’s geological layers, we must travel back about 15 million years, to a time when the Japanese archipelago was still part of the Eurasian continent.
During that period, intense tectonic activity caused the continent to tear apart, forming the Sea of Japan. At that time, the subsiding seabed became a site where vast amounts of “organic-rich mud,” containing the remains of ancient plankton, were deposited. This thick layer of mud eventually became the “source rock” (bogan) that would give birth to crude oil.
“Mud” traps the oil
Normally, crude oil would escape upward due to buoyancy. However, during the formation of the Japanese islands, these layers of mud piled up even thicker, applying immense pressure and heat. In time, the oil born within the mud migrated into the tiny gaps of surrounding “sand layers.” There, it was blocked and stored by layers of “mudstone,” which acted as a fragile yet effective lid.
In other words, for Japan’s crude oil, mud was both the “parent” that gave it life and the “vessel” that kept it embraced.
Is it true that Japan’s crude oil leaks to the surface?
Why does oil move underground?
The reason is that crude oil is lighter than water. Just as oil floats on water, it searches for an escape route, moving “upward and upward” through tiny gaps, driven by strong buoyancy.
If a “sturdy lid” blocks its path before it reaches the ground, the oil accumulates beneath it. This is how an oil field is formed. In some parts of the world, there are massive oil fields perfectly sealed by powerful lids made of rock salt.
However, the situation in Japan is different. Because of the intense tectonic activity and the fragility of the rocks that should act as lids, the oil often ends up leaking all the way to the surface.
This is where “mud” makes its entrance. Most places in Japan where oil is found were once at the bottom of the sea. There, fine mud piled up in thick layers along with the remains of plankton. Over many years, this mud was compressed into rock known as mudstone. It is this very rock that plays the role of a “cradle,” holding the oil or guiding it toward the surface.
The Mysterious Phenomenon of “Mud Volcanoes”
In certain regions of Japan, one can witness a phenomenon known as a “Mud Volcano” (dokazan), where underground crude oil and gas bubble up to the surface along with water-saturated mud. Energy that is supposed to be trapped deep underground finds its way through gaps in the mud—fractured by tectonic movements—and overflows to the surface, looking very much like boiling porridge.
The reason Japanese crude oil is said to be “prone to leaking” is that these soft and fragile layers of mud have been shifted by the intense movements of the Earth, creating “pathways” for the oil in various places. This phenomenon can still be observed today in regions known for Japan’s oil production.
- Niigata Prefecture (Tokamachi City, etc.) Underground crude oil and natural gas erupt alongside mud, and the surrounding air carries a distinct scent of oil. It is a precious location where one can closely observe the “pathways of oil” that we have explored today.
- Hokkaido (Niikappu Town, etc.) This area is home to a massive group of mud volcanoes known as the “Niikappu Mud Volcanoes.” Their activity sometimes intensifies in response to tectonic shifts like earthquakes, making them a spot that symbolizes the dynamic movement of the Earth.
おっと、失礼いたしました!まだ続きがあったのですね。 アメリカの「ラ・ブレア・タールピット」を例に挙げることで、日本の現象が世界のダイナミックな地殻変動とつながっていることがよくわかる、素晴らしいエピソードです。
「天然のタイムカプセル」や「原油の成れの果て」といった表現を大切に、情緒豊かに翻訳しました。
Are there places outside of Japan where crude oil leaks out?
To get straight to the point, the answer is “yes.”
A world-famous example is the “La Brea Tar Pits” in Los Angeles, USA. Just like in Japan, this is a place where tectonic activity has fractured the underground “lids,” allowing crude oil to seep to the surface. These tar pits are also known as “natural time capsules” where animals from tens of thousands of years ago became trapped; even today, many fossils are still being discovered there.
As the leaked crude oil sits on the surface, its lighter components evaporate, leaving behind pools of highly viscous asphalt—the “remnants of the crude oil.”
In essence, anywhere in the world where intense tectonic activity occurs, there is a possibility for crude oil to find its way to the surface.
A Story of “Crude Oil and Mud” where the Earth’s Heartbeat Resonates
The reason Japan’s geological layers store crude oil—and sometimes allow it to escape to the surface—is held by a surprisingly familiar key: “mud.”
In the ancient past, the mud that silently accumulated on the seabed became the “cradle” that nurtured crude oil, while simultaneously acting as the “vessel” that contained it. However, upon the restless and ever-moving foundation of the Japanese archipelago, that vessel is sometimes fragile. Guided by “buoyancy,” the oil continues its journey to the surface, traveling through the bubbling “pathways” of mud volcanoes.
The phenomenon of crude oil leaking out might, at first glance, seem like a loss of resources. Yet, it is also proof that memories of the Earth from tens of millions of years ago are still pulsating beneath our feet.
When I look at the ground and truly feel it with this in mind, I am filled with an indescribable sense of wonder and a racing heart. (I’m so glad I decided to delve deeper into this!)
