Robust energy procurement of large electricity consumers / Sayyad Nojavan, Mahdi Shafieezadeh, Noradin Ghadimi, editors
نوع المادة : نصاللغة: الإنجليزية الناشر:Cham, Switzerland : Springer, 2019وصف:x, 254 pages : illustrations ; 24 cmنوع المحتوى:- text
- unmediated
- volume
- 9783030032289
- HD9502 .R638 2019
نوع المادة | المكتبة الحالية | رقم الطلب | رقم النسخة | حالة | تاريخ الإستحقاق | الباركود | |
---|---|---|---|---|---|---|---|
كتاب | UAE Federation Library | مكتبة اتحاد الإمارات General Collection | المجموعات العامة | HD9502 .R638 2019 (إستعراض الرف(يفتح أدناه)) | C.1 | Library Use Only | داخل المكتبة فقط | 30030000004657 | ||
كتاب | UAE Federation Library | مكتبة اتحاد الإمارات General Collection | المجموعات العامة | HD9502 .R638 2019 (إستعراض الرف(يفتح أدناه)) | C.2 | المتاح | 30030000004658 |
Browsing UAE Federation Library | مكتبة اتحاد الإمارات shelves, Shelving location: General Collection | المجموعات العامة إغلاق مستعرض الرف(يخفي مستعرض الرف)
Includes bibliographical references and index
This book identifies the challenges faced by large electricity consumers when they use several sources to procure their energy. The huge penetration of distributed energy resources and the intermittent nature of renewables can put the operations of the large electricity consumer at risk. The book discusses the different types of energy sources including the pool market, bilateral contracts, electrical vehicles, energy storage systems, and demand response programs in detail and presents solutions for robust and risk based scheduling. The author provides models for determining and considering uncertainties and optimal bidding strategies. The book is useful to engineers and students involved in the integration of various energy types as well as those working in state and federal governmental organizations who regulate different aspects of electricity market operation and planning.Presents solutions for robust and risk based scheduling;Discusses the operation and planning of energy storage systems;Presents the most-up-to-date technological approaches to energy integration