Peak power management is one of the demand-side management methods aiming at regulating energy usage throughout the day. This paper discusses peak load, which relates to a consumer's peak demand during specific hourly hours and how to manage it. Shifting loads from demand hours to non peak hours relieves pressure on utilities to meet demand and supply while also lowering the cost to consumers. The Peak Load Management Model offers a more effective framework for lowering peak loads and moving loads from peak to off-peak hours. A cascaded artificial neural network is utilised to construct a demand side management strategy for managing peak electricity in residential buildings in this paper. The peak load control model's results and discussion...
Future building energy management systems will have to be capable of adapting to variation in the ra...
This article proposes a new technique to manage the domestic peak load demand through peer-to-peer e...
Abstract — This paper formulates and develops a peak demand control tool for electric systems within...
xviii, 184 pages : color illustrationsPolyU Library Call No.: [THS] LG51 .H577P EE 2017 MaiIn order ...
A technique is proposed and developed to predict the household hourly electricity demand. The develo...
The power output capacity of a local electrical utility is dictated by its customers’ cumulative pea...
Summarization: In broad terms, Demand Response refers to the operational, regulatory and technical f...
Summarization: Demand Response (DR) is a fundamental aspect of the smart grid concept, as it refers ...
Demand Response (DR) is a fundamental aspect of the smart grid concept, as it refers to the necessar...
An innovative strategy involving the development of renewable energy sources (RES), state-of-the-art...
This paper presents results from an evaluation of a demand response (DR) strategy applied to residen...
In this paper, we describe the development of a control system for Demand-Side Management in the res...
International audienceRecent developments in energy metering technologies have allowed electric load...
Supplying peak energy demand in a cost effective, reliable manner is a critical focus for utilities ...
Supplying peak energy demand in a cost effective, reliable manner is a critical focus for utili-ties...
Future building energy management systems will have to be capable of adapting to variation in the ra...
This article proposes a new technique to manage the domestic peak load demand through peer-to-peer e...
Abstract — This paper formulates and develops a peak demand control tool for electric systems within...
xviii, 184 pages : color illustrationsPolyU Library Call No.: [THS] LG51 .H577P EE 2017 MaiIn order ...
A technique is proposed and developed to predict the household hourly electricity demand. The develo...
The power output capacity of a local electrical utility is dictated by its customers’ cumulative pea...
Summarization: In broad terms, Demand Response refers to the operational, regulatory and technical f...
Summarization: Demand Response (DR) is a fundamental aspect of the smart grid concept, as it refers ...
Demand Response (DR) is a fundamental aspect of the smart grid concept, as it refers to the necessar...
An innovative strategy involving the development of renewable energy sources (RES), state-of-the-art...
This paper presents results from an evaluation of a demand response (DR) strategy applied to residen...
In this paper, we describe the development of a control system for Demand-Side Management in the res...
International audienceRecent developments in energy metering technologies have allowed electric load...
Supplying peak energy demand in a cost effective, reliable manner is a critical focus for utilities ...
Supplying peak energy demand in a cost effective, reliable manner is a critical focus for utili-ties...
Future building energy management systems will have to be capable of adapting to variation in the ra...
This article proposes a new technique to manage the domestic peak load demand through peer-to-peer e...
Abstract — This paper formulates and develops a peak demand control tool for electric systems within...