Abstract: Continuous gross rate of each of a plurality of wells is estimated. Information provided by sensors configured with each of a plurality of electrical submersible pumps is received. Information associated with a respective model of each of the plurality of electrical submersible pumps is accessed. Utilizing at least one of artificial intelligence and machine learning, the information provided by sensors and the information associated with the respective model of each of the plurality of electrical submersible pumps is processed to estimate a first gross rate of each of the plurality of wells. A second gross rate of each of the plurality of wells is estimated via a pipeline simulation that applies a physics-based model. A continuous gross rate for each of the plurality of wells is estimated as a function the first gross rate and the second gross rate.

Abstract: A battery pack assembly includes, among other things, a tray and a lid. The lid is secured to the tray to provide an enclosure having an interior. At least one battery module is disposed within the interior. A cross-member is disposed within the interior adjacent to at least one battery module. A touch latch secures the tray or the lid to the cross-member.

Abstract: An exemplary method includes, among other things, providing first and second blanks that are nominally identical and that include an array of raised features. The method further includes removing a first combination of individual raised features from the first blank to provide a first battery component with a first flow path, and removing a different, second combination of individual raised features from the second blank to provide a second battery component with a different, second flow path. An exemplary battery assembly includes, among other things, a blank having a plurality of ribs extending from a floor. The blank is configured such that a first combination of the ribs are removable from the blank to provide a first battery component having first flow path, and a different, second combination of the ribs are removable from the blank to provide a second battery component having a different, second flow path.

Abstract: An exemplary method includes, among other things, providing first and second blanks that are nominally identical and that include an array of raised features. The method further includes removing a first combination of individual raised features from the first blank to provide a first battery component with a first flow path, and removing a different, second combination of individual raised features from the second blank to provide a second battery component with a different, second flow path. An exemplary battery assembly includes, among other things, a blank having a plurality of ribs extending from a floor. The blank is configured such that a first combination of the ribs are removable from the blank to provide a first battery component having first flow path, and a different, second combination of the ribs are removable from the blank to provide a second battery component having a different, second flow path.

Abstract: The present invention is directed to a process for the production of high density polyethylene by polymerisation of ethylene in the presence of a supported chromium oxide based catalyst which is modified with an organic compound comprising oxygen and a nitrogen atom which is selected from the group consisting of saturated heterocyclic organic compounds with a five or six membered ring, amino esters and amino alcohols. Such organic compounds allow manufacturing of HDPE with increases molecular weight distribution and increased molecular weight.

Abstract: A method and apparatus for determining the social capital of a node in a social network, wherein the social capital is determined by the number of receiving nodes connecting and receiving posts from the node, and the social capital is determined by number of receiving nodes commenting on, sharing, and liking post from the node. The receiving nodes are categorized into “need,” “trust,” admire,” and opposition categories according to the number of “comments,” “shares,” and “likes” of each respective receiving node. The method and apparatus further include optimally allocating resources to influence the behavior of agents corresponding to the receiving nodes, wherein the allocation of resource is optimized using a cost-benefit function valuing the benefit of the node proportional to the calculated social capital of the node.

Abstract: The invention is directed to a process for the production of high density polyethylene by polymerization of ethylene in the presence of a supported chromium oxide based catalyst and an activator characterized in that the activator comprises the reaction mixture of a boron compound and/or an alkyl aluminum compound and a nitrogen containing compound wherein the boron compound is a (C1-C10) alkyl boron compound or a (C5-C20) aromatic boron compound, wherein the alkyl aluminum compound is an organo aluminum compound having the formula AIR3 in which R is a hydrocarbon radical containing 1-10 carbon atom and wherein the nitrogen containing compound comprises —NH2, —NHR, —NR2, wherein R may be an alkyl or a substituted alkyl having from 1 to 40 carbon atoms.

Abstract: The present invention is directed to a process for the production of high density polyethylene by polymerisation of ethylene in the presence of a supported chromium oxide based catalyst which is modified with an organic compound comprising oxygen and a nitrogen atom which is selected from the group consisting of saturated heterocyclic organic compounds with a five or six membered ring, amino esters and amino alcohols. Such organic compounds allow manufacturing of HDPE with increases molecular weight distribution and increased molecular weight.

Abstract: The invention is directed to a process for the production of high density polyethylene by polymerisation of ethylene in the presence of a supported chromium oxide based catalyst and an activator characterised in that the activator comprises the reaction mixture of a boron compound and/or an alkyl aluminium compound and a nitrogen containing compound wherein the boron compound is a (C1-C10) alkyl boron compound or a (C5-C20) aromatic boron compound, wherein the alkyl aluminum compound is an organo aluminium compound having the formula AIR3 in which R is a hydrocarbon radical containing 1-10 carbon atom and wherein the nitrogen containing compound comprises —NH2, —NHR, —NR2, wherein R may be an alkyl or a substituted alkyl having from 1 to 40 carbon atoms.

Abstract: The tunneling method for dental block grafting is surgical method for increasing the thickness of the soft tissue of the mouth prior to performing block grafting procedures for dental implants. The method includes cutting a pair of incisions in the mucosa. A tunnel is formed through the mucosa which extends between, and connects, the pair of incisions. The tunnel is then extended coronally to undermine tissue covering the recipient site. An acellular dermal matrix is then sutured to an exposed end of a dental implement pulled through the tunnel to position the acellular dermal matrix within the tunnel. The acellular dermal matrix is then positioned over the recipient site using a periosteal elevator, and the acellular dermal matrix is fixed coronally by suspension sutures. The pair of incisions are closed with interrupted sutures, and a block graft is fixed to the recipient site by a pair of titanium screws.

Abstract: The tunneling method for dental block grafting is surgical method for increasing the thickness of the soft tissue of the mouth prior to performing block grafting procedures for dental implants. The method includes cutting a pair of incisions in the mucosa. A tunnel is formed through the mucosa which extends between, and connects, the pair of incisions. The tunnel is then extended coronally to undermine tissue covering the recipient site. An acellular dermal matrix is then sutured to an exposed end of a dental implement pulled through the tunnel to position the acellular dermal matrix within the tunnel. The acellular dermal matrix is then positioned over the recipient site using a periosteal elevator, and the acellular dermal matrix is fixed coronally by suspension sutures. The pair of incisions are closed with interrupted sutures, and a block graft is fixed to the recipient site by a pair of titanium screws.