Asian step toilet with gully trap available


A gully trap toilet is a type of toilet that utilizes a gully trap as a part of its drainage system. A gully trap is essentially a U-shaped pipe that is installed underground and is connected to the toilet drain. The purpose of the gully trap is to trap solid waste materials that are too large to be flushed down the toilet.

Here’s how a gully trap toilet works:

  1. When the toilet is flushed, the waste and water flow through the trap and into the drain pipe.
  2. The solid waste materials are trapped in the gully trap, while the water and smaller particles continue to flow through the drain pipe.
  3. Over time, the solid waste materials may build up in the gully trap and cause clogging. If this occurs, the gully trap may need to be cleaned or replaced.
  4. Gully trap toilets are more commonly used in areas where sewer systems are not available, such as rural areas or developing countries.

Overall, a gully trap toilet can be an effective solution for areas where sewer systems are not available. However, they require more maintenance compared to other types of toilets and may not be suitable for areas with high population density or heavy usage.


An Asian step toilet, also known as a squat toilet, is a type of toilet that is commonly used in many countries in Asia, as well as in parts of Europe and the Middle East. It is essentially a hole in the ground with two raised foot platforms on either side of the hole.

Here’s how an Asian step toilet works:

  1. The user stands over the hole and positions their feet on the raised foot platforms.
  2. The user then squats down to use the toilet.
  3. After use, the user typically uses a bucket of water or a handheld bidet to clean themselves.

Asian step toilets are often preferred in certain cultures because they are believed to be more hygienic than traditional sitting toilets. Additionally, they can be more water-efficient and cost-effective compared to other types of toilets. However, they may require more effort and balance to use, and may not be suitable for people with mobility issues or certain health conditions.

P-trap & S- trap toilet

A P-trap toilet is a type of toilet that has a P-shaped trap installed beneath it. This trap is designed to prevent sewer gases and odors from entering the bathroom through the toilet.

Here’s how a P-trap toilet works:

  1. The P-trap is a curved pipe that is installed beneath the toilet. This pipe is designed to hold a small amount of water, which creates a seal that prevents sewer gases and odors from entering the bathroom.
  2. When the toilet is flushed, the waste and water flow through the trap and into the drain pipe.
  3. After the waste and water have passed through the trap, the small amount of water remaining in the trap creates a seal that prevents gases and odors from entering the bathroom.
  4. The P-trap must be installed properly to ensure that it functions correctly. It should be installed at the proper height and angle to create an effective seal.
  5. Over time, the P-trap may become clogged with debris or other materials, which can lead to unpleasant odors or slow draining. If this occurs, the trap may need to be cleaned or replaced.

Overall, a P-trap toilet is an effective and efficient way to prevent sewer gases and odors from entering the bathroom. It is an important component of any modern plumbing system and should be installed and maintained properly to ensure proper function.

An S-trap toilet is a type of toilet that has an S-shaped trap installed beneath it. This trap is designed to prevent sewer gases and odors from entering the bathroom through the toilet.

Here’s how an S-trap toilet works:

  1. The S-trap is a curved pipe that is installed beneath the toilet. This pipe is designed to hold a small amount of water, which creates a seal that prevents sewer gases and odors from entering the bathroom.
  2. When the toilet is flushed, the waste and water flow through the trap and into the drain pipe.
  3. After the waste and water have passed through the trap, the small amount of water remaining in the trap creates a seal that prevents gases and odors from entering the bathroom.
  4. The S-trap must be installed properly to ensure that it functions correctly. It should be installed at the proper height and angle to create an effective seal.
  5. Over time, the S-trap may become clogged with debris or other materials, which can lead to unpleasant odors or slow draining. If this occurs, the trap may need to be cleaned or replaced.

Overall, an S-trap toilet is an effective and efficient way to prevent sewer gases and odors from entering the bathroom. It is an important component of any modern plumbing system and should be installed and maintained properly to ensure proper function. However, in many countries S-trap toilets are being replaced by P-trap toilets due to their easier installation and maintenance.

Sewin automatic electric toilet available in Kenya

Click here to Shop for automatic electric toilet

The Sewin automatic electric toilet is a type of toilet that is designed to automatically flush after use, eliminating the need for manual flushing. Here are some of the features and benefits of the Sewin automatic electric toilet:

    1. Automatic Flushing: The Sewin toilet has a sensor that detects when a person has finished using the toilet and automatically flushes the waste away. This eliminates the need for manual flushing, which can be unhygienic and time-consuming.
    2. Water Saving: The automatic flushing system of the Sewin toilet is designed to use only the necessary amount of water, reducing water usage and water bills.
    3. Hygienic: The Sewin toilet is designed to be hygienic, as it eliminates the need for manual flushing, which can spread bacteria and germs. The automatic flushing system ensures that the toilet is always clean and fresh.
    4. Comfortable: The Sewin toilet is designed to be comfortable, with a soft-close lid and a comfortable seat.
    5. Energy Efficient: The Sewin toilet is designed to be energy efficient, using minimal power to operate the automatic flushing system.
    6. Easy to Clean: The Sewin toilet is designed to be easy to clean, with a smooth, non-porous surface that resists stains and bacteria.

    Overall, the Sewin automatic electric toilet is a modern, hygienic, and energy-efficient toilet that offers several benefits over traditional toilets. It is a good choice for those who value convenience, hygiene, and water conservation.

    Click here to Shop for automatic electric toilet

    To operate the Sewin automatic electric toilet, follow these simple steps:

    1. Approach the toilet: The toilet has a sensor that detects when someone is nearby and activates the flushing mechanism.
    2. Use the toilet: Sit on the toilet seat and use the toilet as you normally would.
    3. Stand up: Once you stand up, the toilet sensor will detect that you have finished using the toilet.
    4. Flushing: The toilet will automatically flush after a few seconds of no activity, ensuring that the bowl is clean and hygienic.
    5. Adjust the settings (optional): The Sewin toilet has several settings that can be adjusted to suit your preferences, such as the water pressure, water temperature, and seat temperature. These settings can be adjusted using the control panel located on the side of the toilet.
    6. Cleaning: The Sewin toilet is designed to be easy to clean. Simply wipe down the toilet bowl and seat with a clean cloth and mild cleaner, avoiding abrasive or harsh chemicals.

    Overall, the Sewin automatic electric toilet is simple and easy to use. It is designed to be a convenient and hygienic alternative to traditional toilets

    KNOW MORE ABOUT CIRCUIT BREAKERS

    There are several types of circuit breakers commonly used in electrical systems. Here are some of the most common types:

    1. Miniature Circuit Breakers (MCBs): MCBs are commonly used in residential and commercial applications and provide protection against overload and short circuits.
    2. Residual Current Circuit Breakers (RCCBs): RCCBs are used to protect against electrical shock caused by earth leakage currents.
    3. Molded Case Circuit Breakers (MCCBs): MCCBs are commonly used in industrial applications and provide protection against overloads and short circuits.
    4. Air Circuit Breakers (ACBs): ACBs are used in medium to high voltage applications and are designed to protect against overloads, short circuits, and earth faults.
    5. Ground Fault Circuit Interrupters (GFCIs): GFCIs are commonly used in outdoor and wet locations and are designed to protect against electrical shock caused by ground faults.
    6. Arc Fault Circuit Interrupters (AFCIs): AFCIs are used to protect against fires caused by arc faults in electrical systems.
    7. Oil Circuit Breakers (OCBs): OCBs are used in high voltage applications and are designed to interrupt current flow using oil as a medium.
    8. Vacuum Circuit Breakers (VCBs): VCBs are commonly used in high voltage applications and use vacuum as a medium to interrupt current flow.

    Each type of circuit breaker has its own unique features and is designed to provide protection against specific types of electrical faults. The selection of the appropriate type of circuit breaker depends on the specific application and requirements.

    The inner workings of a circuit breaker involve several components that work together to protect electrical systems from overloads, short circuits, and other electrical faults. Here is a brief overview of the main components and how they work:

    1. Contacts: The contacts are the metal parts that make and break the electrical connection when the circuit breaker is turned on or off. When current flows through the contacts, they heat up, and if too much current flows through the contacts, they can become damaged.
    2. Operating Mechanism: The operating mechanism is the part of the circuit breaker that moves the contacts to open or close the circuit. The mechanism can be manual or automatic, depending on the type of circuit breaker.
    3. Arc Quenching Chamber: When the contacts open, an arc is created between them due to the interruption of the current flow. The arc quenching chamber is designed to extinguish this arc quickly and safely, preventing damage to the contacts and other components of the circuit breaker.
    4. Trip Unit: The trip unit is the electronic component of the circuit breaker that detects overloads, short circuits, and other electrical faults. When a fault is detected, the trip unit sends a signal to the operating mechanism, causing the contacts to open and interrupt the circuit.
    5. Protective Relay: The protective relay is an additional safety device that monitors the electrical system and sends a signal to the trip unit when it detects a fault. The trip unit then opens the contacts to interrupt the circuit and prevent damage to the electrical system.

    These components work together to provide reliable protection against electrical faults in a circuit breaker. By interrupting the circuit when necessary, circuit breakers prevent damage to equipment, reduce the risk of electrical fires, and improve the safety of electrical systems.

    The best instant shower

    The best instant shower depends on individual preferences and requirements. However, here are some features to consider when choosing an instant shower:

    1. Water Pressure: Look for an instant shower that has a good water pressure to ensure a strong and consistent flow of water during your shower.
    2. Temperature Control: Choose an instant shower that allows for precise temperature control, so you can adjust the water temperature to your liking.
    3. Energy Efficiency: Look for an instant shower that is energy-efficient to help save on electricity costs. Some models have features like automatic shut-off and temperature sensors to help conserve energy.
    4. Installation: Consider the ease of installation of the instant shower. Choose a model that is easy to install and does not require extensive plumbing work.
    5. Durability: Look for an instant shower made of durable materials to ensure it can withstand regular use and last for a long time.
    6. Brand Reputation: Consider the reputation of the brand and read reviews from other customers to ensure you are choosing a reliable and trustworthy product.

    Some popular brands of instant showers include Ariston, Midea, and Ramtons. It is important to choose an instant shower that fits your budget and meets your specific requirements.

    Cement manufacturing in Kenya


    Cement manufacturing in Kenya is a vital industry that plays a crucial role in the country’s economic development. The Kenyan cement industry is dominated by four major players: Bamburi Cement, ARM Cement, East African Portland Cement Company (EAPCC), and Savannah Cement.

    The manufacturing process of cement involves the extraction of raw materials, such as limestone, clay, and gypsum, from quarries and mines. These raw materials are crushed and ground into a fine powder. The powder is then heated in a kiln at very high temperatures, ranging from 1400 to 1500 degrees Celsius, which causes chemical reactions to take place, resulting in the formation of clinker.

    The clinker is then cooled and ground into a fine powder, which is mixed with gypsum and other additives to produce different types of cement. The different types of cement produced include Portland cement, Pozzolana cement, and blended cement.

    Cement manufacturing in Kenya is a significant contributor to the country’s Gross Domestic Product (GDP) and provides employment opportunities to thousands of Kenyans. The industry also plays a crucial role in the construction sector, as cement is a primary building material used in the construction of buildings, roads, bridges, and other infrastructure projects.

    However, the Kenyan cement industry faces several challenges, such as high energy costs, inadequate infrastructure, and increased competition from imports. The high cost of energy has a significant impact on the industry’s profitability, as cement manufacturing is an energy-intensive process.

    To overcome these challenges, the Kenyan cement industry is exploring alternative sources of energy, such as solar and wind power. The industry is also investing in modern technology and equipment to improve efficiency and reduce costs.

    In conclusion, the cement manufacturing industry is a vital component of Kenya’s economy. It provides employment opportunities, contributes to the country’s GDP, and supports the construction sector. Despite the challenges faced by the industry, there is potential for growth and development through investment in modern technology and alternative sources of energy.