11 May
Construction

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.

11 May
Construction

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.

11 May
Construction

The depth of a building foundation


The depth of a building foundation depends on various factors such as soil type, load-bearing capacity of the soil, building height, and local building codes. Here are some general guidelines for foundation depth based on soil type:

  1. Clay Soil: For buildings with a load-bearing capacity of up to two stories, the foundation depth should be at least 1.2 meters (4 feet) deep. For buildings taller than two stories, the foundation depth should be deeper.
  2. Sand and Gravel Soil: For buildings with a load-bearing capacity of up to two stories, the foundation depth should be at least 0.9 meters (3 feet) deep. For buildings taller than two stories, the foundation depth should be deeper.
  3. Rocky Soil: For buildings with a load-bearing capacity of up to two stories, the foundation depth should be at least 0.6 meters (2 feet) deep. For buildings taller than two stories, the foundation depth should be deeper.
  4. Soft Soil: For buildings with a load-bearing capacity of up to two stories, the foundation depth should be at least 1.5 meters (5 feet) deep. For buildings taller than two stories, the foundation depth should be deeper.

It is important to note that building codes and regulations vary by region, and it is crucial to consult with local authorities to determine the appropriate foundation depth for a particular project. Additionally, a structural engineer should be consulted to determine the appropriate foundation depth based on the specific soil conditions and load requirements of the building.

11 May
Construction

Building foundation

Building foundation is one of the most critical components of any structure. It is responsible for transferring the weight of the building to the ground and providing stability to the structure. Here are some things to know about building foundation:

  1. Soil Analysis: The soil type and condition at the construction site should be analyzed to determine the type of foundation that is suitable for the site.
  2. Types of Foundations: There are different types of foundations, including shallow foundations (such as strip and raft foundations) and deep foundations (such as pile foundations). The choice of foundation depends on the soil type and the load capacity of the soil.
  3. Foundation Design: The foundation design should be prepared by a structural engineer and should consider the building’s weight, soil condition, and local building codes.
  4. Excavation: The soil should be excavated to the appropriate depth for the foundation type and size.
  5. Footings: Footings are the foundation’s base and are designed to distribute the building’s weight evenly over the soil. They should be properly reinforced and constructed to the appropriate depth and size.
  6. Waterproofing: To prevent water from seeping into the foundation, waterproofing should be applied to the exterior walls and floor of the foundation.
  7. Drainage: Proper drainage should be installed around the foundation to prevent water buildup, which can cause damage to the foundation and the building.
  8. Inspections: Foundation construction should be inspected at various stages by a building inspector to ensure that it is built to code and meets safety standards.

Building foundation is a critical component of any structure, and it is important to work with experienced professionals to ensure that the foundation is designed and constructed properly.

11 May
Construction

COST EFFECTIVE CONSTRUCTION STRATEGY

Cost-effective construction involves designing and building structures in a way that maximizes value while minimizing costs. Here are some strategies to achieve cost-effective construction:

  1. Planning and Budgeting: Proper planning and budgeting are essential to cost-effective construction. Accurate cost estimates should be prepared, and a budget should be established to ensure that the project stays on track financially.
  2. Material Selection: Careful selection of building materials can help reduce costs. This includes choosing cost-effective materials that are durable and energy-efficient.
  3. Energy Efficiency: Incorporating energy-efficient features into the design, such as efficient HVAC systems, insulation, and lighting, can help reduce long-term operational costs.
  4. Standardization: Using standardized building materials and components can help reduce costs through economies of scale.
  5. Efficient Use of Space: Designing the structure to efficiently use space can help reduce costs by minimizing the overall building footprint and reducing material and labor costs.
  6. Simplification: Simplifying the design can help reduce costs by minimizing the need for complex and expensive building systems.
  7. Off-site Fabrication: Off-site fabrication can help reduce construction time and labor costs by building components in a controlled environment.
  8. Contractor Selection: Choosing the right contractor can help ensure that the project is completed on time and on budget.

By implementing these strategies, cost-effective construction can be achieved without sacrificing quality or safety. It is important to work with experienced professionals to ensure that the project is designed and executed in a cost-effective manner.

11 May
Construction

SELECTING TILE SIZE

Large tile sizes are typically considered to be tiles that are larger than 12×12 inches. Some common large tile sizes include 18×18 inches, 24×24 inches, and even up to 48×48 inches. Large tiles are becoming increasingly popular in modern design, as they can create a sleek and seamless look with fewer grout lines. They can also be used to make a space appear larger and more open. However, larger tiles can also be more difficult to install, as they require a flatter surface and more careful handling during installation. Additionally, larger tiles can be more expensive than smaller tiles due to their size and weight. Ultimately, the choice of tile size depends on the project’s design, budget, and installation capabilities.

Small tiles are typically considered to be tiles that are smaller than 6×6 inches, but can range from 1×1 inch to 4×4 inches. They are often used to create intricate designs, mosaics, and patterns. Small tiles can provide a unique and personalized look to a space and are available in a wide variety of materials, colors, and finishes. They can also be easier to install than larger tiles, as they can be more forgiving of uneven surfaces. However, the installation process for small tiles can be more time-consuming and labor-intensive, as each tile must be carefully placed and aligned to create the desired pattern. Additionally, smaller tiles may require more grout lines, which can require more maintenance over time. Ultimately, the choice of tile size depends on the project’s design, budget, and desired aesthetic.


Selecting the right tile size is an important decision that can greatly impact the overall appearance and functionality of a space. Here are some factors to consider when selecting tile size:

  1. Room Size: The size of the room can play a significant role in tile size selection. Smaller rooms may benefit from smaller tiles to create the illusion of more space, while larger rooms can accommodate larger tiles for a more grand and seamless look.
  2. Design Aesthetic: The desired design aesthetic of the space can also guide tile size selection. A modern and minimalist look may benefit from larger tiles with fewer grout lines, while a more traditional or intricate design may benefit from smaller tiles.
  3. Tile Type: The type of tile can also impact size selection. Natural stone tiles may have limitations on size due to their weight, while ceramic or porcelain tiles may have more options for larger sizes.
  4. Maintenance: The size of the tile can also impact maintenance requirements. Larger tiles can be easier to clean due to fewer grout lines, while smaller tiles may require more frequent cleaning due to their smaller size.
  5. Installation: The size of the tile can also impact the installation process. Larger tiles may require more time and skill to install, while smaller tiles may be more forgiving of uneven surfaces.

Ultimately, the choice of tile size depends on the project’s design, budget, and functional requirements. It can be helpful to consult with a design professional or tile expert to determine the best size and type of tile for your specific project.