Society of Chemical Technology-SCT

23/08/2025

Conclusion

In conclusion, Chemical Engineering and Chemical Technology are two distinct fields that play vital roles in the chemical industry. While Chemical Engineering focuses on the design and optimization of chemical processes, Chemical Technology emphasizes their practical implementation and operation. Both fields offer rewarding career opportunities and require specialized education and expertise. Understanding the differences between Chemical Engineering and Chemical Technology is essential for individuals considering a career in the chemical industry.

23/08/2025

Career Opportunities in Chemical Technology
Chemical Technology provides graduates with abundant career prospects in the chemical manufacturing sector. They can work in chemical manufacturing plants, petrochemical refineries, pharmaceutical production facilities, food processing industry, quality control laboratories, and research and development centers.

Chemical Technologists can hold positions such as plant operators, production supervisors, quality assurance technicians, process analysts, or technical support specialists. Their practical knowledge and expertise enable them to contribute to the successful operation of chemical processes and ensure compliance with industry standards.

Educational Requirements for Chemical Engineering
To pursue a career in Chemical Engineering, individuals typically need to obtain a bachelor's degree in Chemical Engineering or a related field. The curriculum includes courses in chemistry, physics, mathematics, thermodynamics, fluid mechanics, and process control. Some universities also offer master's and doctoral programs for advanced research or specialized areas of Chemical Engineering.

Educational Requirements for Chemical Technology
Chemical Technology programs are often offered as two or three-year diploma or associate degree programs. These programs provide students with a strong foundation in chemistry, chemical processes, instrumentation, and process control. The curriculum focuses on practical skills and hands-on training to prepare students for the operational aspects of chemical manufacturing.

23/08/2025

Key Differences between Chemical Engineering and Chemical Technology
Chemical Engineering and Chemical Technology share a foundation in chemistry and chemical processes, but they differ in several key aspects:

Focus: Chemical Engineering focuses on designing and optimizing chemical processes, while Chemical Technology emphasizes the practical implementation and operation of these processes on an industrial scale.

Level of Detail: Chemical Engineering deals with fundamental principles and theoretical aspects, while Chemical Technology focuses on applied aspects and practical considerations in manufacturing chemicals.

Job Roles: Chemical Engineers are typically involved in research, process design, and project management, while Chemical Technologists work in plant operations, production supervision, and technical support.

Scope of Work: Chemical Engineers are involved in the entire lifecycle of a chemical process, from concept to optimization. Chemical Technologists primarily focus on the practical aspects of running chemical processes and ensuring their smooth operation.

23/08/2025



CHEMOJO



Chemical Engineering vs Chemical Technology: Unraveling the Key Differences and Career Paths



Chemojo

Jun 18, 2023

Updated: May 16, 2024

Chemical Engineering and Chemical Technology are two closely related fields that often confuse people due to their similar names. While both involve chemistry and chemical processes, they have distinct differences in their focus and applications. In this article, we will explore the disparities between Chemical Engineering and Chemical Technology, discussing their unique characteristics, career prospects, and educational requirements.



What is Chemical Engineering?

Chemical Engineering is a branch of engineering that specializes in designing, developing, and optimizing processes for converting raw materials into valuable products. It combines principles from chemistry, physics, mathematics, and biology to create efficient and sustainable methods for producing chemicals, fuels, pharmaceuticals, and other materials.

Chemical Engineers handle various tasks such as process design, equipment selection, process control, and safety analysis. They use their knowledge of chemical reactions, thermodynamics, and transport phenomena to ensure that chemical processes are efficient, safe, and environmentally friendly.

What is Chemical Technology?

Chemical Technology focuses on the practical aspects of chemical production and the implementation of chemical processes on an industrial scale. It applies scientific and engineering principles to develop and optimize manufacturing processes, ensuring that they meet specific quality, safety, and cost requirements.

Chemical Technologists are responsible for operating and maintaining chemical plants, monitoring process parameters, troubleshooting issues, and ensuring production targets are met. They work closely with Chemical Engineers to translate theoretical concepts into practical applications, playing vital role in the successful ex*****on of chemical processes.

02/04/2025

Let's win this money guys👌❤️

NUL Innovation Hub Student Prototype Competition 2025! M40 000 Per Project!

Call for Proposals: Turn Your Idea into Reality!

Are you a creative and innovative resgistered National University of Lesotho (NUL) student with a ground-breaking idea? The NUL Innovation Hub invites you to participate in our first ever Student Prototype Competition, where the best three ideas will receive M40,000 each in funding to bring their prototypes to life! The Competition is financially supported by the National University of Lesotho (NUL).

This is your chance to develop a tangible, workable, and innovative solution in any field, cutting across all seven Faculties of NUL.

Your idea doesn’t have to be a physical product—it can also be a digital solution, creative service, or any highly practical innovation with real-world impact.

What We Offer:

1. Funding for the top 3 prototype ideas (M40,000 each)—used to purchase materials, equipment, and services to bring the idea to live.

2. Mentorship & support to refine and develop your idea.

3. A pathway to entrepreneurship—your prototype could become the foundation of a future business!

Submission Requirements:

To apply, submit a proposal (max 5 pages, PDF format) including:

Project Title & Team Details

Names, student IDs, departments, and contact information.

Executive Summary (1 page max)

A brief overview of your idea, its uniqueness, and potential impact.

Detailed Project Description

What problem does your prototype solve?

How does it work? (Include sketches, diagrams, or mock-ups if applicable)

Why is it innovative compared to existing solutions?

Feasibility & Workability

Explain how you will develop the prototype (step-by-step plan).

Highlight any preliminary tests or research done.

Budget Breakdown (with Quotations)

A detailed budget showing how the M40,000 will be spent.

Attach quotations for materials, equipment, or services. (Proposals with realistic, well-researched budgets will be favoured.)

Sustainability & Future Potential

Can this prototype evolve into a business?

Who are the potential users or customers?

Judging Criteria:

Submissions will be evaluated based on:

✅ Innovation & Creativity (How unique and original is the idea?)
✅ Practicality & Feasibility (Can it be realistically developed?)
✅ Impact & Relevance (Does it solve a real problem?)
✅ Budget Clarity & Cost-Effectiveness (Are expenses well-justified?)
✅ Potential for Commercialization (Could this become a business?)

Deadline & Next Steps:

📅 Submit your proposal by April 30, 2025 [[email protected]] | Subject: NUL Prototype Competition Submission).

🔍 Shortlisted teams will be invited for a pitch presentation.
🏆 Winners will be announced in May 2025 and receive funding support.

Why Participate?

Get funding and resources to turn your idea into reality.

Gain valuable experience in innovation and entrepreneurship.

Your prototype could be the next big thing!

Don’t just imagine—create! Submit your proposal today!

31/03/2025

: "You are braver than you believe, stronger than you seem, and smarter than you think." ~ AA Milne

Never forget: You have more strength and wisdom than you realise. Believe in yourself!

29/03/2025

Long time no see folks👋😊

IS ON WITH A NEW INTERESTING UPDATE YOU ALL MUST KNOW!!!

Chemical Technology is a hybrid of chemistry and chemical engineering imagine being a specialist in such programme.❤️👌

Existing opportunities for Chemical technologist's are science based and engineering based.

Here are some of the opportunities of technologists:

1.The textile industry, where fiber, dye fastness, and chemical residue testing are vital.

2.The leather and footwear industry utilizes tensile strength testing, tanning agent analysis, and flexing tests.

3.The construction sector depends on compressive strength testing, aggregate analysis, and concrete pH testing.

4.Plastic product manufacturing employs melt flow index, tensile strength, and chemical resistance testing.

5.Food processing industries use microbiological, nutrient, and pH analyses. Water bottling companies utilize total dissolved solids, residual chlorine, and heavy metal testing.

6.The mining industries eg. diamond mining sector uses clarity and color grading, and density measurements.

7.Renewable energy eg. battery industries need electrolyte analysis, voltage and current testing, and cycle life testing.

8.Ceramic and brick manufacturing requires firing temperature control, compression strength testing, and moisture content testing.

9.Finally, environmental recycling projects rely on recycled material analysis, leachate testing, and emissions testing.

Across all these sectors, strong analytical skills, laboratory proficiency, and adherence to safety protocols are essential for a chemical technologist's success.

01/09/2024

Did you know?🤔

Mosquitoes buzz in people's ears because they want to get to the ear wax. In the ear wax , they look all sparkly to attract a mate. This wax contains cerumen and sebum made of long chain fatty acids(saturated and unsaturated) , alcohols, squalene and cholesterol.
Earwax also contains dead skin cells and hair

From a distance, female mosquitoes cue in on carbon dioxide that we exhale in conical plumes from our bodies. The carbon dioxide stimulates the female mosquitoes to start host-seeking , flying back and forth to follow that concentration gradient back to the source.
In other words, mosquitoes buzz around our heads because that's where we expel the most carbon dioxide 🥴😅

29/08/2024

Benefits of forest honey♥️💯:

1. Rich in antioxidants✅
2. Anti-inflammatory properties✅
3. Immune-boosting properties✅
4. Wound healing properties✅
5. Digestive health benefits✅
6. Energy boosting properties✅

Stay tuned for more🤝🏽🤗

29/08/2024

Difference between normal honey and box honey

Is forest honey healthy for you?

There are several reasons why someone may choose forest honey over box honey. Forest honey is harvested from beehives located in natural forest environments, while box honey is harvested from beehives that are placed in man-made boxes. Here are some reasons why forest honey may be a better choice:

1 Higher nutritional content

Forest honey is typically higher in nutritional content compared to box honey. This is because the bees that produce forest honey gather nectar from a wide variety of plant species found in forest areas, resulting in a honey that is rich in antioxidants, minerals, and other beneficial nutrients. Box honey, on the other hand, is often produced from nectar gathered from a smaller range of plant species, resulting in a honey that may be lower in nutritional value.

2 Free from pesticides and pollutants

Bees that produce forest honey gather nectar from plants and trees that are growing in natural environments, which are less likely to be exposed to pesticides and pollutants compared to plants that are grown in agricultural settings. Box honey, on the other hand, may contain traces of pesticides and pollutants from the surrounding environment.

3 Unique flavor and aroma

The flavor and aroma of forest honey is often more complex and nuanced compared to box honey. This is because the bees that produce forest honey gather nectar from a wide variety of plant species, resulting in a honey that has a unique flavor and aroma profile. Box honey, on the other hand, may have a more uniform flavor and aroma profile, as it is often produced from nectar gathered from a smaller range of plant species.

4 Support for sustainable beekeeping practices

Harvesting honey from beehives in natural forest environments can be a sustainable way to support beekeeping practices. Forest honey can be harvested without disrupting the natural balance of the environment and can provide a source of income for local communities. In contrast, box honey is often produced using commercial beekeeping practices, which can involve the use of chemicals and pesticides that can harm bees and the environment.

5 Potential health benefits

As mentioned earlier, forest honey may offer a range of potential health benefits, including anti-inflammatory, antioxidant, immune-boosting, wound-healing, digestive health, and energy-boosting properties. While box honey may also offer some of these benefits, forest honey may be more potent due to its higher nutritional content and unique plant profiles.

Overall, choosing forest honey over box honey can provide a range of benefits, including higher nutritional content, free from pesticides and pollutants, unique flavor and aroma, support for sustainable beekeeping practices, and potential health benefits.

Bees collect nectar from a variety of plant species found in forest areas, resulting in a honey that is unique in color, taste, and nutritional profile. The plant species that bees collect nectar from can vary greatly depending on the location, climate, and season, which can result in different types of forest honey.

29/08/2024

Did you know?😀

There are two types of bee honey being natural forest honey and man-made box honey. ♥️🤞🏽

Forest honey is from wide variety of plant nectar while box honey is from low variety or even no plant nectar rather sucrose from sugar cane.

Forest honey is more noble and beneficial than box honey.