Washing soda for cleaning is a water-soluble sodium carbonate compound frequently employed for its alkaline properties and efficacy in removing stubborn stains and greasy buildups. Known chemically as sodium carbonate decahydrate, washing soda softens water, which enhances the effectiveness of detergents. Its high pH level makes it adept at breaking down acidic stains like wine or fruit juices. In households, it is commonly utilized for cleaning laundry, kitchen surfaces, and even large areas like tiled floors and outdoor patios. The granulated powder is gentle enough not to damage surfaces but strong enough to tackle challenging cleaning tasks. Environmental benefits include its non-toxic nature and biodegradability, making it a preferred choice in green cleaning practices. Its versatility extends beyond simple cleaning; it is also used as a descaling agent and to unclog drains. Sodium carbonate’s ability to react with acidic components in stains to neutralize and dissolve them is a key mechanism behind its cleaning power.

Related ingredients: all our natural cleaning guides, borax, and salt.

What Is Washing Soda?

Washing soda is a powerful, alkaline cleaning compound that has been used for generations to tackle tough household cleaning jobs. Chemically known as sodium carbonate, this versatile cleaner excels at cutting through grease, removing stains, and softening water to boost the effectiveness of other cleaning products.

Where does Washing Soda come from?

Washing soda occurs naturally in mineral deposits and can be extracted from the ashes of plants that grow in sodium-rich soils. Historically, it was produced by burning seaweed or other marine plants. Today, most washing soda is manufactured through the Solvay process, which converts salt brine and limestone into sodium carbonate. Interestingly, you can also make washing soda at home by heating baking soda (sodium bicarbonate) in your oven at 400°F for about an hour, which drives off water and carbon dioxide to create sodium carbonate.

What does Washing Soda look like and how is Washing Soda generally used?

Washing soda appears as a white, odorless, crystalline or granular powder with a slightly gritty texture. It’s typically sold in boxes or bags in the laundry aisle of grocery stores. The powder dissolves readily in water, creating an alkaline solution with a slippery feel. Most commonly, washing soda is used as a laundry booster by adding it directly to the washing machine, though it also serves as a base ingredient for numerous DIY cleaning solutions. When dissolved in hot water, it creates a powerful cleaning solution for soaking heavily soiled items or scrubbing tough surfaces.

Other Names for Washing Soda

What are Washing Soda’s other names or chemical terms?

Washing soda goes by several names that you might encounter on product labels or in cleaning recipes:

• Sodium carbonate (the chemical name)
• Soda ash (the industrial term)
• Sal soda (an older term)
• Soda crystals (common in the UK)
• Carbonic acid disodium salt (IUPAC chemical nomenclature)
• Disodium carbonate

It’s important not to confuse washing soda with baking soda (sodium bicarbonate) or caustic soda (sodium hydroxide/lye), as these are different compounds with distinct properties and safety profiles.

Are there different grades, forms, or strengths of Washing Soda?

Yes, washing soda comes in several grades and forms:

By purity:

• Technical grade – Contains 99%+ sodium carbonate, suitable for most household cleaning
• Food grade – Higher purity standard, though washing soda isn’t typically consumed
• Industrial grade – May contain more impurities, used in manufacturing

By physical form:

• Anhydrous – Pure sodium carbonate with no water molecules (Na₂CO₃)
• Monohydrate – Contains one water molecule per formula unit (Na₂CO₃·H₂O)
• Decahydrate – Contains ten water molecules, also called sal soda or washing soda crystals (Na₂CO₃·10H₂O)

For home cleaning, the anhydrous form is most common in North America (like Arm & Hammer Super Washing Soda), while soda crystals (the decahydrate form) are popular in the UK. All forms work effectively for cleaning, though you may need to adjust quantities slightly based on water content.

Cleaning Uses

How is Washing Soda used in home cleaning?

Washing soda serves multiple cleaning purposes throughout your home:

Laundry applications:

• Add 1/2 cup to your regular wash cycle as a laundry booster to enhance detergent performance
• Pre-soak heavily soiled clothes in a solution of 1/2 cup washing soda per gallon of hot water
• Remove stubborn stains by making a paste with water and applying directly to the stain before washing
• Strip buildup from towels and cloth diapers that have become less absorbent

General household cleaning:

• Create an all-purpose cleaner by dissolving 2 tablespoons in a spray bottle of warm water
• Degrease kitchen surfaces, stovetops, and range hoods
• Clean and deodorize garbage cans, recycling bins, and compost containers
• Scrub tile grout and remove soap scum from bathroom surfaces
• Clean outdoor furniture, decks, and driveways
• Remove baked-on food from pots, pans, and oven racks by soaking

What are the best surfaces or areas to clean with Washing Soda?

Washing soda works exceptionally well on:

Excellent for:

• Stainless steel appliances and sinks – Cuts through grease without scratching
• Ceramic and porcelain tile – Removes soap scum and hard water deposits
• Glass cookware and bakeware – Dissolves baked-on food residue
• Concrete and masonry – Cleans driveways, garage floors, and patios
• Synthetic fabrics – Brightens and deodorizes polyester, nylon, and blends
• Painted walls – Removes grimy buildup (test first in an inconspicuous spot)
• Plastic containers – Eliminates odors and staining from food storage
• Vinyl and linoleum flooring – Provides deep cleaning without damage

Moderately effective for:

• Cotton and linen fabrics – Works well but may require water softening in hard water areas
• Bathroom fixtures – Effective on most modern finishes, but test chrome and brass first

Can Washing Soda be mixed safely with other cleaning ingredients?

Washing soda combines safely with many cleaning ingredients, but there are important guidelines to follow:

Safe combinations:

• Liquid dish soap – Creates a powerful degreasing solution (1 tablespoon washing soda + 1 teaspoon dish soap per quart of water)
• Borax – Both are alkaline cleaners that work synergistically in laundry and cleaning recipes
• Oxygen bleach (sodium percarbonate) – Enhances stain-fighting power in laundry
• Essential oils – Add fragrance to DIY cleaning solutions (add oils after dissolving washing soda)
• Liquid castile soap – Pairs well in homemade laundry detergent recipes

Combinations to avoid:

• White vinegar – These neutralize each other in an acid-base reaction, producing carbon dioxide gas and water, which reduces cleaning effectiveness. If a recipe calls for both, they should be used in separate steps, not mixed together
• Ammonia – While not dangerous to mix, this combination provides no benefit as both are alkaline
• Chlorine bleach – Though not creating toxic fumes like bleach and ammonia, this combination is inefficient and unnecessary

Never mix with:

• Acidic cleaners – Will neutralize the washing soda’s alkalinity
• Commercial cleaners with unknown ingredients – Could create unexpected reactions

Safety and Storage

What should you do or avoid when using Washing Soda?

Safety precautions when using washing soda:

Do:

• Wear rubber or latex gloves, especially for prolonged contact or concentrated solutions
• Use in well-ventilated areas, though washing soda produces no harmful fumes
• Dissolve washing soda in water before use for most applications
• Test on an inconspicuous area before using on new surfaces
• Rinse surfaces thoroughly after cleaning
• Keep out of reach of children and pets
• Follow package directions for recommended amounts

Avoid:

• Direct skin contact for extended periods, as the high pH can cause irritation and dryness
• Getting washing soda in your eyes (if this occurs, flush immediately with water for 15 minutes)
• Inhaling the powder, which can irritate respiratory passages
• Using on aluminum, as it can cause discoloration and pitting
• Applying to waxed or sealed surfaces, as it may strip protective coatings
• Using excessively in laundry, which can leave residue on fabrics

Which cleaning mixtures or surfaces are unsafe?

Surfaces to avoid:

• Aluminum – Washing soda reacts with aluminum, causing blackening, pitting, and corrosion
• Fiberglass – The alkalinity can damage the gel coat and cause dulling
• Waxed or sealed wood – Strips away protective finishes and can raise the wood grain
• Natural stone (marble, granite, limestone, travertine) – The alkalinity etches and dulls the surface
• Untreated or unsealed wood – Raises grain and can cause discoloration
• Delicate fabrics (silk, wool, leather) – The high pH damages protein-based fibers
• Antique or finished brass and copper – May remove patina or protective lacquer coatings
• Certain plastics – Can cause clouding or brittleness in some polymer types

Unsafe mixtures:

While washing soda doesn’t create toxic fumes like some chemical combinations, avoid mixing it with:

• Acidic cleaners (vinegar, lemon juice, commercial acid-based cleaners) in the same solution
• Unknown commercial products that might contain incompatible ingredients
• Drain cleaners or oven cleaners containing sodium hydroxide (redundant and potentially more caustic)

How should Washing Soda be stored for freshness and safety?

Proper storage ensures washing soda remains effective and safe:

Storage guidelines:

• Keep in original packaging or transfer to an airtight container with a clear label
• Store in a cool, dry place away from humidity, which can cause clumping
• Avoid temperature extremes – A pantry, laundry room shelf, or cleaning closet is ideal
• Keep away from acids – Store separately from vinegar, citric acid, or acidic cleaners
• Elevate off the floor – Prevents moisture absorption and makes it inaccessible to small children and pets
• Seal tightly after each use – Prevents moisture absorption and maintains powder flow
• Keep away from food storage areas – Prevents accidental contamination or ingestion

Shelf life:

Washing soda has an indefinite shelf life when stored properly. If it becomes clumpy from moisture exposure, it’s still effective—just break up the lumps or dissolve in warm water before use. The cleaning power doesn’t diminish over time, though heavily clumped washing soda may be harder to measure accurately.

Why Washing Soda Works

Why does Washing Soda clean so well?

Washing soda’s exceptional cleaning power stems from its strong alkalinity and unique chemical properties. When dissolved in water, washing soda creates a solution with a pH of around 11, making it significantly more alkaline than neutral water (pH 7) or even baking soda (pH 8.3). This high alkalinity is the key to its effectiveness.

The alkaline environment created by washing soda excels at breaking down several types of soils:

Grease and oil removal: The alkalinity converts fats and oils through a process called saponification—essentially turning grease into soap that can be easily rinsed away. This is why washing soda is so effective on kitchen messes, greasy laundry, and automotive grime.

Protein stain breakdown: The high pH helps break down protein-based stains like blood, grass, and food spills by denaturing the protein molecules and making them water-soluble.

Water softening: Washing soda binds to calcium and magnesium ions in hard water, preventing them from interfering with detergent action. This allows soaps and detergents to work more effectively, producing better lather and cleaning results.

Emulsification: Washing soda helps suspend dirt and oil particles in water, preventing them from redepositing on surfaces or fabrics during cleaning.

What chemical reaction or property makes Washing Soda effective?

The chemistry behind washing soda’s cleaning power involves several mechanisms:

Alkaline hydrolysis: When sodium carbonate (Na₂CO₃) dissolves in water, it undergoes hydrolysis, creating hydroxide ions (OH⁻):

Na₂CO₃ + H₂O → 2Na⁺ + HCO₃⁻ + OH⁻

These hydroxide ions are responsible for the alkaline pH and enable the chemical reactions that break down soils.

Saponification reaction: When washing soda encounters fats and oils (triglycerides), the hydroxide ions break the ester bonds, converting the fats into glycerol and fatty acid salts (soap):

Fat + Sodium Carbonate → Glycerol + Soap

This reaction literally transforms greasy messes into soap that can be rinsed away with water.

Precipitation of hardness ions: In hard water, washing soda reacts with calcium and magnesium ions to form insoluble carbonates that precipitate out:

Ca²⁺ + CO₃²⁻ → CaCO₃ (precipitate)

This removes the minerals that interfere with detergent action, effectively softening the water.

pH disruption: Many types of dirt, stains, and organic materials are stable at neutral pH but become unstable in alkaline conditions. The high pH environment created by washing soda disrupts these compounds, making them easier to remove.

Surface tension reduction: While not as effective as true surfactants, washing soda does slightly lower water’s surface tension, helping cleaning solutions penetrate fabrics and porous surfaces more effectively.

DIY Cleaning Recipes

What easy homemade cleaner recipes use Washing Soda?

All-Purpose Cleaning Spray:

• 2 tablespoons washing soda
• 2 cups warm water
• 1 teaspoon liquid dish soap (optional, for extra grease-cutting power)
• 10 drops essential oil (optional, for fragrance)

Dissolve washing soda in warm water in a spray bottle, add other ingredients, shake well, and use on countertops, appliances, and most hard surfaces. Shake before each use.

Homemade Laundry Detergent:

• 1 cup washing soda
• 1 cup borax
• 1 bar grated castile soap or laundry bar soap (about 5 oz)

Mix all ingredients thoroughly. Use 1-2 tablespoons per load. For high-efficiency (HE) washers, use only 1 tablespoon.

Heavy-Duty Degreaser:

• 1/4 cup washing soda
• 1 gallon hot water
• 1 tablespoon liquid dish soap

Mix in a bucket and use with a sponge or cloth for stovetops, range hoods, garage floors, or outdoor furniture. Rinse thoroughly after cleaning.

Carpet Deodorizer:

• 1 cup washing soda
• 1 cup baking soda
• 20 drops essential oil (optional)

Mix ingredients, sprinkle on carpet, let sit 15-30 minutes, then vacuum thoroughly. Test in an inconspicuous area first.

Drain Maintenance Treatment:

• 1/2 cup washing soda
• 2 cups boiling water

Pour washing soda down drain, follow with boiling water. Let sit 30 minutes, then flush with hot tap water. Use monthly to prevent buildup (not for fully clogged drains).

Oven and Cookware Soaking Solution:

• 1/4 cup washing soda
• 1 gallon hot water

Soak oven racks, baking sheets, or pots and pans for several hours or overnight. Scrub and rinse. For oven cleaning, make a paste with washing soda and water, apply to cool oven surfaces, let sit, then scrub and rinse.

What are the best ingredient combinations for Washing Soda?

For laundry cleaning:

• Washing soda + oxygen bleach + castile soap – Creates a complete laundry detergent with stain-fighting and brightening power
• Washing soda + borax – Synergistic combination for water softening and enhanced cleaning
• Washing soda + hydrogen peroxide – Boosts whitening and stain removal (add separately, not as a stored mixture)

For kitchen and bathroom cleaning:

• Washing soda + liquid dish soap – Maximum grease-cutting power for stovetops and range hoods
• Washing soda + baking soda – Combines alkalinity with gentle abrasion for scouring without scratching
• Washing soda + essential oils (tea tree, lemon, eucalyptus) – Adds natural fragrance and antimicrobial properties

For outdoor and heavy-duty cleaning:

• Washing soda + hot water – Sometimes simplicity is best for concrete, decks, and outdoor furniture
• Washing soda + oxygen bleach – Powerful combination for deck cleaning and mold/mildew removal
• Washing soda + TSP (trisodium phosphate) – Industrial-strength combination for pre-paint cleaning (use with caution and proper protection)

Ratios and proportions:

• For general cleaning: 1-2 tablespoons washing soda per quart of water
• For heavy degreasing: 1/4 cup washing soda per gallon of water
• For laundry boosting: 1/2 cup washing soda per load
• For soaking: 1/2 cup washing soda per gallon of hot water

Common Problems and Solutions

What common problems can occur when cleaning with Washing Soda?

White residue or film on surfaces:
This chalky residue typically occurs when washing soda isn’t fully dissolved or rinsed, or when used in very hard water where it precipitates calcium carbonate.

Skin irritation or dryness:
The high pH of washing soda can strip natural oils from skin, causing irritation, redness, or excessive dryness with prolonged contact.

Fabric stiffness or roughness:
Overuse of washing soda in laundry can leave fabrics feeling stiff or scratchy, especially in hard water conditions.

Discoloration of surfaces:
Some materials, particularly aluminum, unsealed wood, or certain finishes, may discolor or develop a dull appearance when exposed to washing soda.

Clumping or hardening of powder:
Exposure to moisture causes washing soda to absorb water and form hard clumps that are difficult to measure and use.

Ineffective cleaning results:
Sometimes washing soda doesn’t perform as expected, which can result from using it on inappropriate stains, inadequate dissolving, or neutralization by acidic substances.

How can these issues be prevented or solved?

Preventing and removing white residue:

• Always dissolve washing soda completely in warm or hot water before use
• Rinse cleaned surfaces thoroughly with clean water
• In hard water areas, use less washing soda or add a water softener
• For laundry, run an extra rinse cycle if residue appears
• Wipe down surfaces with a vinegar solution (after washing soda has been rinsed) to remove any remaining film

Avoiding skin irritation:

• Always wear rubber or latex gloves when handling washing soda solutions
• Avoid prolonged skin contact with dry powder or concentrated solutions
• If skin contact occurs, rinse immediately with plenty of water
• Apply moisturizer after cleaning to restore skin’s natural oils
• For sensitive skin, consider using baking soda instead, which is milder

Preventing fabric stiffness:

• Use the recommended amount (1/2 cup per load) rather than more
• Ensure washing soda is fully dissolved before adding clothes
• Add 1/2 cup white vinegar to the rinse cycle as a natural fabric softener (added separately, not with the washing soda)
• Use washing soda primarily for heavily soiled loads rather than every wash
• In hard water, reduce the amount of washing soda by one-quarter

Avoiding surface discoloration:

• Always test on an inconspicuous area before widespread use
• Never use on aluminum, natural stone, or unsealed wood
• Rinse surfaces promptly—don’t let washing soda solutions sit for extended periods
• Use appropriate dilutions rather than concentrated solutions
• If discoloration occurs on washable fabrics, rewash immediately with regular detergent

Preventing clumping:

• Store washing soda in an airtight container
• Keep in a cool, dry location away from humidity
• If clumping occurs, break up lumps with a spoon or dissolve in warm water before use
• Consider storing in smaller containers to minimize air exposure
• Add a few dry beans or rice grains to absorb excess moisture (in a separate small bag or cloth)

Improving cleaning effectiveness:

• Use hot or warm water to maximize washing soda’s cleaning power
• Allow adequate contact time—let solutions sit for 10-15 minutes on tough stains
• Combine with appropriate complementary ingredients for specific tasks
• Ensure you’re using washing soda on appropriate soils (it works best on grease and protein stains)
• Don’t use washing soda immediately after acidic cleaners, which neutralize its effectiveness

Environmental and Health Considerations

Is Washing Soda safe for health and the environment?

Health safety:

Washing soda is generally considered safe for home use when handled properly, but it’s not without precautions:

Low toxicity: Unlike many harsh chemical cleaners, washing soda has relatively low toxicity. It’s not a poison, but it shouldn’t be ingested. Small accidental exposures typically cause only minor irritation.

Skin and eye irritation: The primary health concern is its alkalinity (pH 11), which can cause:

• Skin irritation, dryness, and redness with prolonged contact
• Serious eye irritation if powder or solution gets in eyes
• Respiratory irritation if powder is inhaled in significant amounts

Ingestion risks: If swallowed, washing soda can cause nausea, vomiting, and stomach pain. Large amounts could cause more serious digestive tract irritation. Keep away from children and pets. If ingested, don’t induce vomiting—rinse mouth and contact poison control.

Comparison to alternatives: Washing soda is significantly safer than:

• Caustic soda (lye/sodium hydroxide), which is much more corrosive
• Chlorine bleach, which produces toxic fumes when mixed with acids or ammonia
• Commercial oven cleaners containing harsh solvents
• Phosphate-based cleaners (which washing soda has largely replaced)

Environmental impact:

Washing soda is considered environmentally friendly for several reasons:

Biodegradable: Sodium carbonate breaks down naturally in the environment without creating persistent pollutants or toxic byproducts.

No bioaccumulation: Unlike some synthetic chemicals, washing soda doesn’t accumulate in living tissues or concentrate up the food chain.

Minimal aquatic toxicity: When diluted in water systems (as it would be after going down drains), washing soda has low toxicity to aquatic life. It may temporarily raise pH in very small water bodies, but this effect is minimal in municipal water systems.

Phosphate-free: Washing soda replaced phosphate-based water softeners in many applications. Phosphates cause eutrophication (algae blooms) in waterways, while washing soda doesn’t contribute to this problem.

Low manufacturing impact: The Solvay process for producing washing soda is relatively efficient and uses abundant raw materials (salt and limestone). Modern production facilities capture and reuse byproducts.

Reduces need for harsher chemicals: By effectively cleaning many surfaces and boosting detergent performance, washing soda can reduce reliance on more problematic chemical cleaners.

Sustainable sourcing: Washing soda can be mined from natural mineral deposits (trona) or manufactured from abundant materials. It can even be made at home from baking soda.

Considerations:

• Like any cleaning product, use only what’s needed—excessive use wastes resources
• In areas with septic systems, use moderately as high alkalinity could affect bacterial balance (though occasional use is generally fine)
• Proper disposal means washing down the drain with plenty of water, where it will be diluted and neutralized

Washing Soda FAQs

Can Washing Soda be mixed with vinegar or hydrogen peroxide?

Washing soda and vinegar:

No, washing soda and vinegar should not be mixed together in the same solution. Here’s why:

Washing soda (sodium carbonate) is alkaline with a pH around 11, while vinegar (acetic acid) is acidic with a pH around 2.5. When combined, they undergo an acid-base neutralization reaction:

Na₂CO₃ + 2CH₃COOH → 2CH₃COONa + H₂O + CO₂

This reaction produces:

• Sodium acetate (a mild salt with minimal cleaning power)
• Water
• Carbon dioxide gas (the fizzing you observe)

The result is that both ingredients lose their cleaning effectiveness. The alkalinity of washing soda and the acidity of vinegar cancel each other out, leaving you with essentially salt water.

However, they can be used sequentially in a two-step cleaning process:

1. Clean with washing soda solution first, rinse thoroughly
2. Follow with vinegar if needed for different cleaning properties (like removing mineral deposits)

The fizzing reaction can provide mild abrasive action for cleaning drains or toilets, but it’s more theatrical than effective compared to using each product separately for its intended purpose.

Washing soda and hydrogen peroxide:

Yes, washing soda and hydrogen peroxide can be combined, and this mixture is actually quite effective for certain cleaning tasks.

This combination works well because:

• Hydrogen peroxide is a mild acid (pH 4-5) but not acidic enough to completely neutralize washing soda
• The alkalinity of washing soda actually enhances hydrogen peroxide’s bleaching and oxidizing properties
• Together, they create a powerful stain-fighting combination for laundry

Practical applications:

• Add 1/2 cup washing soda and 1/2 cup hydrogen peroxide (3%) to laundry for whitening and stain removal
• Create a paste for grout cleaning or stain treatment
• Use for cleaning and brightening outdoor surfaces

Important notes:

• Mix only what you’ll use immediately—don’t store this combination, as hydrogen peroxide breaks down over time
• The mixture may bubble slightly due to the alkalinity accelerating peroxide decomposition
• Use 3% hydrogen peroxide (standard household strength), not higher concentrations
• This combination is more aggressive than either ingredient alone, so test on fabrics first

Is Washing Soda safe for marble, stone, or wood surfaces?

Marble and natural stone (granite, limestone, travertine, slate):

No, washing soda should not be used on marble or most natural stone surfaces. Here’s why:

Chemical incompatibility: Natural stone, particularly marble, limestone, and travertine, is composed of calcium carbonate. The high alkalinity of washing soda (pH 11) can:

• Etch the surface, creating dull spots and removing the polished finish
• Cause pitting and roughness
• Lead to permanent damage that requires professional restoration

Even granite, which is more resistant than marble, can be damaged if it has a polished finish or if the washing soda solution is left on the surface for extended periods.

Safe alternatives for stone:

• pH-neutral stone cleaners specifically formulated for natural stone
• Mild dish soap diluted in water
• Specialized stone cleaning products
• For sealed stone, warm water with a tiny amount of dish soap

If washing soda contacts stone:

• Rinse immediately and thoroughly with plain water
• Dry the surface completely
• Check for etching or dullness
• Consider professional restoration if damage occurred

Wood surfaces:

Washing soda is generally not recommended for wood, but the answer depends on the type and finish:

Unsealed or raw wood: Definitely avoid. Washing soda can:

• Raise the wood grain, creating a rough texture
• Cause discoloration or darkening
• Dry out the wood excessively
• Damage the wood fibers

Finished, sealed, or painted wood: Use with extreme caution:

• May strip wax, oil finishes, or sealants
• Could dull polyurethane or lacquer finishes
• Might damage paint over time
• Generally safe for occasional use on well-sealed painted wood, but test first

Laminate “wood”: Generally safe for laminate flooring or furniture that mimics wood, as the surface is plastic-based. However, test first and avoid excessive moisture.

Safe wood cleaning alternatives:

• Murphy’s Oil Soap or similar wood cleaners
• Mild dish soap and water (well-wrung cloth)
• Vinegar and water solution (for sealed wood only)
• Commercial wood floor or furniture cleaners appropriate for your finish

When washing soda might be acceptable:

• Stripping old paint or finish from wood (intentional finish removal)
• Cleaning outdoor unfinished wood decks (though oxygen bleach is often better)
• Cleaning painted wood cabinets occasionally (if the paint is in good condition and you rinse thoroughly)

Best practices if you must use it on wood:

• Test in an inconspicuous area first
• Use a very dilute solution (1 tablespoon per quart of water)
• Apply with a well-wrung cloth, never soak the wood
• Rinse immediately with clean water
• Dry thoroughly right away
• Reapply appropriate finish or sealant if needed

Does Washing Soda clean, disinfect, or both?

Washing soda is a cleaner, not a disinfectant.

This is an important distinction that many people misunderstand:

What washing soda does (cleaning):

Cleaning refers to physically removing dirt, grease, food residue, stains, and other visible soils from surfaces. Washing soda excels at this through:

• Breaking down grease and oils via saponification
• Dissolving protein-based stains
• Softening water to enhance other cleaners
• Providing mild abrasive action
• Emulsifying and suspending dirt particles

When you clean with washing soda, you’re removing the dirt and many microorganisms along with it—physically washing them away down the drain. This significantly reduces the microbial load on a surface.

What washing soda doesn’t do (disinfecting):

Disinfecting means killing or inactivating bacteria, viruses, and other pathogens to safe levels. True disinfectants must be registered with the EPA and proven effective against specific organisms.

Washing soda:

• Does not kill most bacteria, viruses, or fungi
• Is not registered as a disinfectant or sanitizer
• Has no proven antimicrobial efficacy at concentrations used for cleaning
• Should not be relied upon for sanitizing food contact surfaces, bathrooms, or areas where pathogen control is important

The alkalinity factor:

While washing soda’s high pH (around 11) does create an inhospitable environment for some microorganisms, it’s not alkaline enough or doesn’t maintain contact long enough to serve as a reliable disinfectant. (For comparison, lye/sodium hydroxide at pH 13-14 does have some antimicrobial properties, but washing soda is much milder.)

When to use washing soda vs. disinfectants:

Use washing soda when:

• You need to remove visible dirt, grease, or stains
• You’re doing general household cleaning
• You’re cleaning non-critical surfaces like floors, walls, or outdoor items
• You want to boost laundry detergent performance
• You’re pre-cleaning before disinfecting (cleaning should always come first)

Use a disinfectant when:

• Someone in the household is sick
• You’re cleaning bathroom surfaces, especially toilets
• You’re sanitizing kitchen counters and cutting boards
• You need to kill specific pathogens
• You’re cleaning up bodily fluids or other potentially infectious materials

Effective disinfectants include:

• Diluted chlorine bleach (1/3 cup per gallon of water)
• Hydrogen peroxide (3% or higher concentration)
• Isopropyl alcohol (70% concentration)
• EPA-registered disinfectant products
• Quaternary ammonium compounds (“quats”)

The two-step approach:

For best results, especially in kitchens and bathrooms:

1. Clean first with washing soda to remove visible dirt and grease
2. Rinse thoroughly with clean water
3. Disinfect second with an appropriate disinfectant
4. Allow proper contact time (usually 5-10 minutes) before rinsing or drying

This approach is more effective than disinfecting alone because disinfectants work poorly in the presence of organic matter. The cleaning step removes dirt that would otherwise shield microorganisms from the disinfectant.

Bottom line:

Washing soda is an excellent, eco-friendly cleaner that removes dirt, grease, and stains effectively. It reduces microbial load through physical removal but doesn’t kill germs. For situations requiring disinfection, use washing soda for cleaning, then follow with an appropriate disinfectant. For routine household cleaning where disinfection isn’t critical, washing soda alone provides thorough, safe, and effective cleaning.

This comprehensive guide to washing soda provides the knowledge you need to use this versatile, economical, and environmentally friendly cleaner safely and effectively throughout your home. Whether you’re tackling tough laundry stains, degreasing your kitchen, or creating your own DIY cleaning products, washing soda is a powerful addition to your cleaning arsenal.