Design and Development of INTEGRATED COLLECTOR STORAGE SOLAR WATER HEATER WITH COMPOUND PARABOLIC CONCENTRATOR
The demand for space/water heating using solar energy has increased drastically over past few decades. To overcome the need, Integrated collector storage solar water heater with compound parabolic concentrator (CPC) is one of the advance solar water heater due to its simple construction and lower co
2025-06-28 16:26:17 - Adil Khan
Design and Development of INTEGRATED COLLECTOR STORAGE SOLAR WATER HEATER WITH COMPOUND PARABOLIC CONCENTRATOR
Project Area of Specialization Mechanical EngineeringProject SummaryThe demand for space/water heating using solar energy has increased drastically over past few decades. To overcome the need, Integrated collector storage solar water heater with compound parabolic concentrator (CPC) is one of the advance solar water heater due to its simple construction and lower cost as compared to flat plate or vacuum tube thermo siphon type water heaters. A new ICS with Compound Parabolic Concentrator (CPC) for domestic uses will go through the process of design, construction, test and numerical study. This project contains solar water heater integrated with water storage cylinder with compound parabolic concentrator. The system will include all the compulsory equipment including CPC, water storage cylinder, water pumps, necessary valves and control system. Numerical study will be accomplished by using software for simulation solving energy balance equations of the ICS. This program will enhance the study for CPC reflectivity and overall thermal performance of the system. The final system will then be used for space/water heating at domestic level and also for industrial sectors with the slight modifications.
Project ObjectivesFollowing are the Objectives.
- To study the literature on ICS and CPCs.
- To study and understand the working principle of various types of Integrated Collector Storage (ICS).
- To model the CPC based ICS optically and thermally.
- To analyze the system performance for varying system parameter.
- Implementation of Mathematical modeling on a computer code.
- Manufacturing and Fabrication of CPC and ICS.
- Experimentation and Performance evaluation of the unit
The demand for space/water heating using solar energy has increased drastically over past few decades . To overcome need integrated collector storage solar water heaters with compound parabolic collectors is one of the most advance solar heater due to it's simple construction and lower cost at compared to flate plate or vacuum tube siphon type water heaters.A new ICS with CPC for domesticn usage will go through the process of design, construction, test and numerical study. These systems can be used in areas at domestic as well as commercial and industrial scale it can be used in apartments , building and residential areas where demand for hot water at low cost is very high. Industrial applications include pre-heating process for boilers in order to reduce the consumption of non renewable fuel. At commercial scale it can be used as heated water for swimming pools where intermediate temperature is required but our implementation would be apartment or house for space heating
Benefits of the Project- ICPCSSWH can be used in areas at domestic scale and as well as on industrial/ commercial scale.
- These systems can be used in residential buildings, apartments and factories where demand for hot water at low cost is very high.
- It can be used for Space heating in cold countries where temperature reaches below 0 degree Celsius.
- Process applications such as drying laundry etc.
- Industrial Application includes the pre-heating process for boilers in order to reduce the consumption of non-renewable fuels.
- Commercial uses include heated water for swimming pools where only intermediate temperature is required for huge pools.
For the mathematical modeling we consider a volume of 15 liters should be in storage tank the of length of storage tank is considered as 2ft further area of cylinder, area of glass plate and concentration ratio was calculated. After these basic Calculations the solar radiation, radiation heat transfer coefficient from cylinder to glass, convective heat transfer co-effeicient from cylinder to glass , radiative heat transfer co-effeicient from glass to ambient and convection heat transfer co-effeicient from glass to ambient was calculated. calculation of heat loss was made on different acceptance angles and values were futher iterated which gave us different results. These values were compared to already existing graphs that are present in books of different authors and the values are very close to the graph. Simulations were carried out on solid works. All these parameters are being iterated once we have optimal value then we will move towards manufacturing and fabrication. Once fabrication is complete experiments will be carried out to verify thermal performance of developed unit
Final Deliverable of the Project HW/SW integrated systemCore Industry Energy Other Industries Others Core Technology OthersOther TechnologiesSustainable Development Goals Clean Water and Sanitation, Affordable and Clean EnergyRequired Resources| Item Name | Type | No. of Units | Per Unit Cost (in Rs) | Total (in Rs) |
|---|---|---|---|---|
| Total in (Rs) | 61704 | |||
| CPC stand/bench | Equipment | 1 | 15000 | 15000 |
| Glass | Equipment | 1 | 300 | 300 |
| Pipe cast iron/Storage tank | Equipment | 1 | 15000 | 15000 |
| Insulation | Equipment | 3 | 175 | 525 |
| Black enamel paint | Equipment | 1 | 3000 | 3000 |
| Thermocouples | Equipment | 10 | 270 | 2700 |
| Hydraulic connections | Equipment | 15 | 870 | 13050 |
| Stainless steel plate | Equipment | 12 | 561 | 6729 |
| Printing | Miscellaneous | 3 | 1800 | 5400 |