HVAC engineers

 Urgent Requirement for Gujarat / Noida/Bhatinda location 1. Mech Engineers (Piping / Structural Fabrication) Location:-Gujarat  Experience :- 5 Yrs Exp 2. Jr.Safety Officer -   location:-  Bhatinda Experience:-3-5 Yes Exp with ADIS 3. Store Officer -  Location:- Jamnagar  Experience:-5 Yrs Exp 4. Planning Engineers -  Location:- Noida  Experience:- 5 Yrs Exp Oil and gas / Refinery Experience must Qualification - Dip/ Degree in Mech with 6-7 Yrs exp Contract 3-6 Months Extend B.Accdmn + Food +Transp - Provided (Except Noida location) Duty - 12 Hrs Salary - Negotiable Joining - Urgently within 7-10 Days Send CV / Edu & Exp cert / Aadhar card copy on.  sachind@aarviencon.com

 We have some requirements, if you’re interested then please send me your updated resume for position HVAC Requirement 1.Billing Engineer (Mechanical) Yrs. of Exp 10-12 Yrs. Qualification Diploma/Degree 2.HVAC (Industrial execution) Yrs. of Exp. 6-8 Yrs. Qualification Diploma/Degree Job Profile details - Location: MUNDRA Duty Hours and Days: 12 hrs Food: By candidate Accommodation: By client Transportation: BY client Contract Duration: 12 months EXPECTED CTC for Each Position: Provide us your current and expected Send me your resume and Please provide me this below details:  Position applying for : Current CTC monthly : Expected CTC monthly : Notice period : Current location : Education : Total experience : Interested candidates kindly share your CV on what's App: Nikunj Vaidya: +918799196267

Evaporator coils are a crucial component in refrigeration and air conditioning systems, responsible for: 1. Heat absorption:  Absorbing heat from the surrounding air or fluid. 2. Evaporation:   Cooling the refrigerant liquid, causing it to evaporate into a gas. Types of evaporator coils: 1. Direct expansion (DX) coils:  Refrigerant flows directly through the coils. 2. Chilled water coils:  Chilled water flows through the coils to absorb heat. 3. Plate heat exchanger coils:  Use plates to transfer heat. Key characteristics: 1. Material:   Typically made of copper, aluminum, or steel. 2. Design:  Coils can be circular, oval, or rectangular. 3. Size:  Varies depending on the system's cooling capacity. 4. Fins:   Added to increase surface area for heat transfer. Factors affecting evaporator coil performance: 1. Temperature:   Ambient temperature and refrigerant temperature. 2. Airflow:  Adequate airflow is crucial for heat transfer. 3. ...

 Condenser coils are a crucial component in refrigeration and air conditioning systems, responsible for: 1. Heat transfer:  Releasing heat from the hot refrigerant gas to the surrounding air. 2. Condensation:  Cooling the refrigerant gas, causing it to condense into a liquid. Types of condenser coils: 1. Air-cooled condenser coils:  Use ambient air for cooling. 2. Water-cooled condenser coils:  Use water for cooling. 3. Evaporative condenser coils:  Use evaporation to cool. Key characteristics: 1. Material:  Typically made of copper, aluminum, or steel. 2. Design:  Coils can be circular, oval, or rectangular. 3. Size:   Varies depending on the system's cooling capacity. 4. Fins:  Added to increase surface area for heat transfer. Factors affecting condenser coil performance: 1. Temperature:  Ambient temperature and refrigerant temperature. 2. Airflow:   Adequate airflow is crucial for heat transfer. 3. Cleanliness:   Dirty ...

 A compressor is a crucial component in various systems, including: 1. Refrigeration systems (air conditioning, refrigeration, etc.) 2. Air compressors (pneumatic tools, industrial processes, etc.) 3. Gas compressors (natural gas, biogas, etc.) Types of compressors: 1. Reciprocating compressor (piston-driven) 2. Rotary compressor (rotating impeller) 3. Screw compressor (helical rotors) 4. Centrifugal compressor (impeller-driven) 5. Axial compressor (axial flow) Compressor functions: 1. Compression (increasing pressure) 2. Displacement (moving fluid) 3. Energy transfer (converting energy) Key compressor components: 1. Cylinders (reciprocating) or impellers (rotary) 2. Valves (control flow) 3. Crankshaft (converts energy) 4. Bearings (supports moving parts) 5. Seals (prevents leaks) Considerations for compressor selection: 1. Flow rate and pressure requirements 2. Fluid properties (gas, liquid, etc.) 3. Efficiency and power consumption 4. Noise level and vibration 5. Maintenance and...

 Radiant floor heating involves installing heating elements, such as pipes or electric mats, under the floor to warm the space. Here are some key aspects: Types: 1. Hydronic Radiant Floor Heating:  Involves circulating hot water through pipes under the floor. 2. Electric Radiant Floor Heating:  Uses electric mats or cables under the floor. Benefits: 1. Comfortable and even heat distribution 2. Energy efficiency 3. Low operating costs 4. Flexibility in design and installation 5. Reduced allergens and dust circulation 6. Quiet operation Components: 1. Heating elements (pipes or electric mats) 2. Manifolds (control and distribute hot water) 3. Pumps (circulate hot water) 4. Thermostats (regulate temperature) 5. Insulation (ensures efficient heat transfer) Installation: 1. Subfloor preparation 2. Installation of heating elements 3. Connection to boiler or electric power 4. Testing and balancing Considerations: 1. Initial cost and installation complexity 2. Floor type and comp...

 A heat pump is a device that transfers heat from one location to another, often used for space heating and cooling. Here are some key aspects of heat pumps: Air-Source Heat Pump: 1. Transfers heat from outside air to inside air (heating) or vice versa (cooling) 2. Types: Split systems, packaged systems, and window units 3. Efficiency: Measured by SEER (Seasonal Energy Efficiency Ratio) and HSPF (Heating Seasonal Performance Factor) 4. Benefits: Energy-efficient, cost-effective, and environmentally friendly Ground-Source Heat Pump: 1. Transfers heat from the ground to the building (heating) or vice versa (cooling) 2. Types: Closed-loop, open-loop, and hybrid systems 3. Efficiency: Measured by COP (Coefficient of Performance) 4. Benefits: Highly efficient, reliable, and long-lasting Shared Benefits: 1. Space heating and cooling in one system 2. Energy efficiency and cost savings 3. Low environmental impact 4. Flexibility in installation and design Considerations: 1. Initial cost...