Celebration of Lakshmi Pooja on the occasion of Diwali under Guidance of Site incharge Shri Vijay Kumar Sir by Finance department.
On this auspicious occasion around 100 associates along with HOD and SH taken the blessings of goddess Lakshmi For the Financial Growth of AM Green Group (Greenko Group).
Lakshmi is the Hindu goddess of wealth and fortune, and worshipping her is believed to bring good fortune and abundance into one's life
Lakshmi Puja is a ritual performed during Diwali to seek the blessings of Goddess Lakshmi for wealth and prosperity. Here are some things to know about Lakshmi Puja:
When it's performed
Lakshmi Puja is performed on the third day of Diwali, which is usually on a new moon day.
What to do
Here are some things you can do to prepare for Lakshmi Puja:
Clean and decorate: Clean and decorate your home with diyas, rangoli, and flowers.
Set up the altar: Place a red cloth on the altar and arrange idols of Lakshmi, Saraswati, and Ganesh.
Place valuables: Put valuable items like gold and silver in the puja to symbolize wealth.
Perform the puja: Perform the puja in the northeast corner of your home or business, facing east.
What to expect
During Lakshmi Puja, people open their doors and windows to welcome Lakshmi. They also light diyas on their windowsills and balcony ledges.
What it symbolizes
Lakshmi Puja symbolizes the importance of wealth, knowledge, courage, and the removal of obstacles in life
Why is Nitrogen Purging Important?
ReplyDeleteNitrogen purging is essential to remove oxygen, moisture, or flammable gases from systems before maintenance, startup, shutdown, or introducing a new process fluid. It prevents fires, explosions, and contamination—protecting both people and equipment.
When Do We Use It?
Before starting up or shutting down process units
Prior to maintenance on tanks, vessels, or pipelines
When switching between reactive or flammable fluids
To prevent oxidation or corrosion in sensitive systems
How Is It Done?
✅ There are several common methods:
Displacement Purging: Nitrogen pushes out unwanted gases in pipelines
Dilution Purging: Nitrogen mixes with gases inside tanks or vessels
Pressure Cycling: Alternate pressurizing and venting with nitrogen to reduce oxygen levels
What Are the Dangers? ⚠️
While nitrogen is inert, it can be deadly in confined spaces:
Asphyxiation risk due to oxygen displacement
Over-pressurization hazards if not controlled properly
Cold burns from liquid nitrogen
That’s why safety measures like oxygen monitoring, ventilation, and confined space entry protocols are critical.
📌 The water treatment field is full of chemical terms that might seem complex, but they are essential to understanding the processes and analyses that ensure clean and safe water. Here’s a simplified breakdown:
ReplyDelete➡️ Chemical Terms 💬 in Processes:
1. Coagulants: Chemicals that cause fine particles in water to clump together for easier removal (e.g., Aluminum sulfate (Al₂(SO₄)₃), Ferric chloride (FeCl₃)).
2. Flocculants: Substances that enhance the clumping of particles into larger masses during treatment (e.g., Polyacrylamides (PAMs), Polyaluminum chloride (PAC).
3. pH Adjusters: Chemicals used to change the acidity or alkalinity of water (Acidic: Sulfuric acid (H₂SO₄), Basic: Sodium hydroxide (NaOH).
4. Disinfectants: Agents that eliminate pathogens in water (e.g., Sodium hypochlorite (NaOCl), Ozone (O₃).
5. Anti-Scalants: Chemicals that prevent scale buildup from minerals in water systems (e.g., Polyphosphates, EDTA).
6. Oxidizing Agents: Chemicals that react with contaminants, altering their chemical structure (e.g., Potassium permanganate (KMnO₄)).
7. Adsorbents: Materials that capture and remove dissolved substances from water (e.g., Activated carbon, Zeolites).
8. Ion-Exchange Resins: Polymers that replace unwanted ions with desirable ones (e.g., Cation resins, Anion resins).
➡️ Chemical Terms 🧪🔬in Analyses:
1. TDS (Total Dissolved Solids): Measures dissolved substances in water, expressed in mg/L or ppm.
2. Turbidity: Indicates water clarity, measured in NTU.
3. BOD (Biochemical Oxygen Demand): The amount of oxygen needed to decompose organic matter in water, measured in mg/L.
4. COD (Chemical Oxygen Demand): Total oxygen required to oxidize matter in water, measured in mg/L.
5. pH: A scale measuring the acidity or alkalinity of water, ranging from 0 to 14.
6. Hardness: Concentration of calcium and magnesium ions, measured in mg/L as CaCO₃.
7. Conductivity: Indicates water's ability to conduct electricity, measured in µS/cm.
8. Chlorine Residual: The amount of chlorine left in water after disinfection, measured in mg/L.
9. Alkalinity: Water’s ability to neutralize acids, expressed in mg/L as CaCO₃.
10. Nitrate (NO₃⁻): A nutrient compound, measured in mg/L.
11. Phosphate (PO₄³⁻): A key nutrient, measured in mg/L.
12. Heavy Metals: Elements like Lead (Pb), Mercury (Hg), and Arsenic (As), measured in µg/L or mg/L.
✅ Understanding these terms builds a solid foundation for appreciating the science behind water treatment.🌍✨