CEMENT MANUFACTURERS IN KENYA

Bamburi Cement was founded in 1951 and began making cement in 1954. Currently, they have two cement plants in Mombasa and Athiriver as well as precast and readymix concrete manufacturing facilities in Nairobi (Industrial Area, Athiriver, and Two Rivers) and Mombasa.

One of Kenya’s top-quality cement manufacturers, Mombasa Cement was established in 2007 to serve the building construction market.

In Nairobi, Savannah Cement runs a cement-grinding facility with an annual capacity of 2.4 million tons. It was the first company to use the roller press technology to commission a new generation cement grinding mill.

Since 1933, the East African Portland Cement has been making cement.

The third significant project for Devki Group’s diversification and expansion was National Cement Company Limited. In 2010, they started making and supplying cement under the Simba Cement brand.

CONSTRUCTION NAIROBI EXPRESSWAY EXPANSION

The Nairobi Expressway is looking for feedback from the public before moving forward with plans to build a new, five-lane Haile-Selassie Exit.

The upgraded Jomo Kenyatta International Airport (JKIA) Entrance and the upgraded Museum Hill Exit A should also be visible in the views.

According to the Kenya National Highways Authority, the government of Kenya “has identified the need to optimize and upgrade some of the toll stations on the 27.1 km Nairobi Expressway.”

The upgrade and toll optimization will be carried out by CALE Infrastructure Construction Company, a division of China Road and Bridge Corporation Kenya.

An expert firm with a registered name, Centric Africa, has been hired to conduct the environmental and social impact assessment.

BUDGETING FOR TOOLS IN CONSTRUCTION

Budgeting for tools in construction is crucial for several reasons:

  1. Cost control: Construction projects involve a wide range of tools and equipment, and without proper budgeting, costs can quickly spiral out of control. By setting a budget for tools, construction companies can track and manage their expenses, ensuring that they stay within the allocated budget and avoid overspending.
  2. Project planning: Budgeting for tools helps in project planning by determining the specific tools required for each phase of the construction process. It allows project managers to identify the necessary tools, estimate their costs, and ensure that they are available when needed. This ensures smooth workflow and prevents delays due to tool unavailability.
  3. Quality and productivity: Investing in high-quality tools can significantly improve productivity and the quality of work. By allocating a budget for tools, construction companies can prioritize purchasing reliable and durable equipment, which leads to efficient work processes, fewer breakdowns, and better overall project outcomes.
  4. Safety considerations: Budgeting for tools also includes allocating funds for safety equipment and personal protective gear. Ensuring that workers have the necessary safety tools and equipment is crucial for maintaining a safe work environment and complying with regulations. It helps minimize accidents and injuries, protecting the well-being of workers and avoiding potential legal and financial liabilities.
  5. Long-term cost savings: While budgeting for tools requires an upfront investment, it can lead to long-term cost savings. Investing in high-quality tools may be more expensive initially but can reduce maintenance and replacement costs in the long run. Additionally, proper budgeting allows for planned equipment upgrades and replacements, avoiding sudden unexpected expenses and downtime.
  6. Competitive advantage: Construction companies that effectively budget for tools can gain a competitive advantage in the industry. By having the necessary tools readily available, they can complete projects efficiently, meet deadlines, and deliver high-quality work. This enhances their reputation, increases client satisfaction, and can lead to repeat business and referrals.

For cost management, project planning, quality and productivity assurance, maintaining a safe work environment, attaining long-term cost savings, and establishing a competitive edge in the industry, budgeting for tools is essential. It enables building enterprises to decide with knowledge, allocate resources efficiently, and ultimately improve project outcomes.

3D PRINTING HOUSES: ADVANTAGES AND DISADVANTAGES

A cutting-edge technology with the potential to completely change the construction business is 3D printing homes, sometimes referred to as additive manufacturing in the industry. Benefits and downsides of 3D printing companies are listed below:

  1. Cost-effective: 3D printing houses could drastically lower construction expenses. The method reduces the need for numerous conventional building materials, lowers labor expenses, and reduces waste, all of which lead to overall cost reductions.

2. Efficiency: 3D printing can construct homes considerably more quickly than conventional construction techniques. It is especially helpful in locations with a pressing need for housing or during times of catastrophe recovery because it can build sophisticated designs and structures in a fraction of the time needed for conventional construction.

3. Greater design freedom is made possible by 3D printing, allowing architects and designers to create complex and one-of-a-kind structures that might not be practical or cheap using conventional building methods. This adaptability creates opportunities for more aesthetically beautiful and environmentally friendly designs.

4. Resource effectiveness: Additive manufacturing in the building industry can minimize resource usage and cut down on material waste. By precisely depositing the necessary amount of material, it can reduce waste and save resources.

5. Sustainability: When compared to conventional construction techniques, 3D printing homes can have a smaller impact on the environment. It might help to take a more environmentally responsible approach to constructing by reducing waste and using sustainable materials.

Cons:

  1. Limited material choices: In comparison to the variety accessible in traditional construction, the range of materials acceptable for 3D printing homes is now fairly constrained. Even while improvements are being made, the materials chosen might not provide the same level of durability or aesthetic alternatives as traditional techniques.

2. Limitations imposed by technology: 3D printing technology is still developing, and there are obstacles to be overcome, like sizing up printed structures and maintaining constant quality throughout the printing process. There could be technical problems, which could cause delays and complications.

3. Regulatory and legal challenges: The use of 3D printing facilities can run into compliance problems and regulatory roadblocks. To account for this new technology, building codes and regulations may need to be revised or modified. The distinctiveness of 3D printed constructions may also give rise to legal and insurance issues.

4. Disruption in the construction labor market is a possibility due to the need for a distinct set of skills and knowledge that 3D printing facilities require. It may be necessary for traditional construction employees to pick up new skills or look for alternative employment alternatives.

5. Initial investment: Specialized tools, software, and training must be purchased in order to set up a 3D printing construction system. The high cost of the technology may prevent it from being widely adopted, especially in developing countries or by smaller construction companies.

It’s crucial to remember that 3D printing technology is still rather new, and that further research and development may help to overcome some of its existing drawbacks and maximize its advantages.

DUMUZAS

The fact that the DUMU ZAS MABATI iron sheets are some of the highest quality ones we offer adds to their durability. They are difficult to break. They do not easily distort or absorb water either.

They are designed to resist all kinds of weather.

They are little maintenance and have enduring power.

Natural disasters like hail, fire, and earthquakes are prevented by the way the roofs are constructed. Because of the steel, the roof is earthquake- and fire-resistant.

KIPEVU OIL TERMINAL

The new Kipevu Oil Terminal (KOT), valued at KSh40 billion, is 96% complete and should be operational by the end of the next month.

The executor, China Communications Construction Company (CCCC), anticipates delivering the building to Kenya Ports Authority before the year is up.

After that, Kenya Pipeline Company (KPC) will operate the terminal, which will take the place of the current Kipevu Oil Terminal, which is 50 years old.

The new terminal can simultaneously store and discharge volumes from four vessels (three carrying petroleum and one carrying LPG), which reduces vessel waiting times. Only one ship can be stored at a time in the old terminal.

Therefore, it is anticipated that the expanded capacity will shield importers from demurrage and surcharges, potentially lowering the cost of importing gasoline goods and the final pump pricing.

The modernized, contemporary oil terminal should be able to handle ships with a dead weight tonnage of up to 200,000. It will be able to handle crude oil, heavy fuel oil, and three different kinds of white oil products, including DPK aviation fuel, AGO diesel, and PMS gasoline. It will also have both subsea and land-based pipes connecting it to the storage facilities in Kipevu.

Kenya will increase its ability to handle transit petroleum products to Uganda, Rwanda, and Burundi starting in January 2022 from the present 35,000 tonnes upon completion of the new Kipevu Oil Terminal in Mombasa.