Joel George (talk | contribs) No edit summary |
Joel George (talk | contribs) No edit summary |
||
Line 1: | Line 1: | ||
{{MOST}}{{Lit}} | {{MOST}}{{Lit}} | ||
== Wood based CHP== | == Wood based CHP== | ||
==CHP & Photovoltaic== | ==CHP & Photovoltaic== | ||
1. Noel Augustine, Sindhu Suresh, Prajakta Moghe, Kashif Sheikh,[https://ieeexplore.ieee.org/document/6175747 "Economic dispatch for a microgrid considering renewable energy cost functions"], 2012 IEEE PES Innovative Smart Grid Technologies (ISGT), January 2012, pp.1-7 | 1. Noel Augustine, Sindhu Suresh, Prajakta Moghe, Kashif Sheikh,[https://ieeexplore.ieee.org/document/6175747 "Economic dispatch for a microgrid considering renewable energy cost functions"], 2012 IEEE PES Innovative Smart Grid Technologies (ISGT), January 2012, pp.1-7 | ||
Line 33: | Line 35: | ||
* Solar energy fluctuation and factors affecting it (cloud cover) | * Solar energy fluctuation and factors affecting it (cloud cover) | ||
* Secondary room heating using CHP in winter season | * Secondary room heating using CHP in winter season | ||
5. Amir Nosrat, Joshua M. Pearce, [https://reader.elsevier.com/reader/sd/pii/S0306261911001632?token=33CF636DC2CD829EEF925A7C6C7AFE5153DB59329D9D7A8A4DFEA116B3E0D0756D2D758BA970810F14BF85438F9E131B "Dispatch strategy and model for hybrid photovoltaic and trigeneration power systems"] | |||
* Search: Google scholar "CHP and photovoltaics" | |||
* Waste heat recovery in PV trigeneration system with Diesel generator CHP | |||
* Absorption chiller for cooling PV-CHP system from excess heat | |||
* Heat/Energy dispatch strategy for space heating and domestic hot water supply | |||
* Battery storage | |||
* Variation in efficiency of system according to seasons | |||
==Wood fuel distribution, costs== | ==Wood fuel distribution, costs== |
Revision as of 15:20, 28 January 2020
Wood based CHP
CHP & Photovoltaic
1. Noel Augustine, Sindhu Suresh, Prajakta Moghe, Kashif Sheikh,"Economic dispatch for a microgrid considering renewable energy cost functions", 2012 IEEE PES Innovative Smart Grid Technologies (ISGT), January 2012, pp.1-7 Search: Economic dispatch for microgrid with renewable sources
- Economics of microgrid with solar, wind, CHP and diesel generators
- Hourly cost of generation considering the investment, fuel and maintenance cost
- Economic Load dispatch based on solar and wind forecast
- Solar credits and its effect on total operation cost
- Profitability comparison study between modes of operation
2. Kunal K. Shah, Aishwarya S. Mundada, Joshua M. Pearce,"Performance of U.S. hybrid distributed energy systems: Solar photovoltaic, battery and combined heat and power" Energy Conversion and Management 105, pp. 71–80
- Off-grid residential Hybrid microgrid with PV, Battery, and CHP
- PV, Battery, and CHP sizing
- Viability study in North America using HOMER Pro Microgrid Analysis Tool
- System efficiency improvements using Battery & PV combined system and thereby reducing the runtime of CHP
- Natural gas - IC Engine for CHP (Fossil fuel)
- Objective to reduce dependency on grid power thereby reduce GHG emissions
3. Mehdi Baneshi, Farhad Hadianfard,"Techno-economic feasibility of hybrid diesel/PV/wind/battery electricity generation systems for non-residential large electricity consumers under southern Iran climate conditions" Energy Conversion and Management Volume 127, 1 November 2016, Pages 233-244
- Study location - Iran
- Hybrid cogen system with PV and Wind turbine for non-residential load (9911kWh)
- Techno-economic and environmental study using HOMER
- Both ON-Grid and Off-Grid hybrid system operation with battery discussed
- Renewable energy credits and policies discussed
- Power output calculations of PV array
- CO2 emissions and carbon taxes
4. P. Derewonko and J.M. Pearce,"Optimizing Design of Household Scale Hybrid Solar Photovoltaic + Combined Heat and Power Systems for Ontario"
- Hybrid PV & CHP with battery as baseload power to grid (on-grid) on a residential scale
- 1.2kW PV and CHP understudy
- Natural Gad combustion engines and Hydrogen fuel cells taken into consideration for CHP
- Solar energy fluctuation and factors affecting it (cloud cover)
- Secondary room heating using CHP in winter season
5. Amir Nosrat, Joshua M. Pearce, "Dispatch strategy and model for hybrid photovoltaic and trigeneration power systems"
- Search: Google scholar "CHP and photovoltaics"
- Waste heat recovery in PV trigeneration system with Diesel generator CHP
- Absorption chiller for cooling PV-CHP system from excess heat
- Heat/Energy dispatch strategy for space heating and domestic hot water supply
- Battery storage
- Variation in efficiency of system according to seasons