GC53G-1301
A future Demand Side Management (DSM) opportunity for utility as variable renewable penetrate scale up using agriculture.

Friday, 18 December 2015
Poster Hall (Moscone South)
Arindam Bhattacharjee1, Vijay Modi2, Andrew William Robertson3, Amor Ines4, Upmanu Lall5, Selin Kocaman Ayse2, Sanjay Chaudhary6, Amitesh Kumar7, Ashokan Ganapathy8, Amit Kumar8 and Vimal Mishra9, (1)Earth Institute, Palisades, NY, United States, (2)Columbia University, New York, NY, United States, (3)Columbia University of New York, International Research Institute for Climate and Society, Palisades, NY, United States, (4)Michigan State University, Departments of Plant, Soil and Micriobial Sciences, and Biosystems and Agricultural Engineering, East Lansing, MI, United States, (5)Columbia University of New York, Palisades, NY, United States, (6)Institute of Engineering and Technology, Ahmedabad, Computer Science, Ahmedabad, India, (7)Paripos.com, Bangalore, India, (8)Paripos, Bangalore, India, (9)Indian Institute of Technology Gandhinagar, Ahmedabad, India
Abstract:
Energy demand management, also known as demand side management (DSM), is the modification of consumer demand for energy through various methods such as smart metering, incentive based schemes, payments for turning off loads or rescheduling loads. Usually, the goal of demand side management is to encourage the consumer to use less power during periods of peak demand, or to move the time of energy use to off-peak times. Peak demand management does not necessarily decrease total energy consumption, but could be expected to reduce the need for investments in networks and/or power plants for meeting peak demands.

Electricity use can vary dramatically on short and medium time frames, and the pricing system may not reflect the instantaneous cost as additional higher-cost that are brought on-line. In addition, the capacity or willingness of electricity consumers to adjust to prices by altering elasticity of demand may be low, particularly over short time frames. In the scenario of Indian grid setup, the retail customers do not follow real-time pricing and it is difficult to incentivize the utility companies for continuing the peak demand supply. A question for the future is how deeper penetration of renewable will be handled? This is a challenging problem since one has to deal with high variability, while managing loss of load probabilities.

In the case of managing the peak demand using agriculture, in the future as smart metering matures with automatic turn on/off for a pump, it will become possible to provide an ensured amount of water or energy to the farmer while keeping the grid energized for 24 hours. Supply scenarios will include the possibility of much larger penetration of solar and wind into the grid. While, in absolute terms these sources are small contributors, their role will inevitably grow but DSM using agriculture could help reduce the capital cost. The other option is of advancing or delaying pump operating cycle even by several hours, will still ensure soil moisture requirements met while, balancing the overall system load with generation, reducing critical power mismatches. Through this presentation the author will describe different techniques and results from field experiments in India.

<< Previous Abstract | Next Abstract