How To Crack Someones Steam Account
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Merely being aware of scam types and also red flags indicating your Steam account might be under hijack can go a long way in safeguarding your account and private information. Some of those red flags include random requests for login and password information, unsolicited messages from Steam Support(unless received from support.steampowered.com domain), and mysterious downloads with malicious programs.
I'm so sorry but I accidentally reported your account to the steam admin for scamming me and duping items instead of someone who impersonated your profile and that impersonator is a scammer who scammed me :(
Steam cracking is a petrochemical process in which saturated hydrocarbons are broken down into smaller, often unsaturated, hydrocarbons. It is the principal industrial method for producing the lighter alkenes (or commonly olefins), including ethene (or ethylene) and propene (or propylene). Steam cracker units are facilities in which a feedstock such as naphtha, liquefied petroleum gas (LPG), ethane, propane or butane is thermally cracked through the use of steam in steam cracking furnaces to produce lighter hydrocarbons. The propane dehydrogenation process may be accomplished through different commercial technologies. The main differences between each of them concerns the catalyst employed, design of the reactor and strategies to achieve higher conversion rates.[1]
In steam cracking, a gaseous or liquid hydrocarbon feed like naphtha, LPG, or ethane is diluted with steam and briefly heated in a furnace in the absence of oxygen.[3] Typically, the reaction temperature is very high, at around 850 °C. The reaction occurs rapidly: the residence time is on the order of milliseconds. Flow rates approach the speed of sound. After the cracking temperature has been reached, the gas is quickly quenched to stop the reaction in a transfer line heat exchanger or inside a quenching header using quench oil.[2]
The products produced in the reaction depend on the composition of the feed, the hydrocarbon-to-steam ratio, and on the cracking temperature and furnace residence time. Light hydrocarbon feeds such as ethane, LPGs, or light naphtha give mainly lighter alkenes, including ethylene, propylene, and butadiene. Heavier hydrocarbon (full range and heavy naphthas as well as other refinery products) feeds give some of these same products, but also those rich in aromatic hydrocarbons and hydrocarbons suitable for inclusion in gasoline or fuel oil.[citation needed]
A higher cracking temperature (also referred to as severity) favors the production of ethene and benzene, whereas lower severity produces higher amounts of propene, C4-hydrocarbons and liquid products. The process also results in the slow deposition of coke, a form of carbon, on the reactor walls. This degrades the efficiency of the reactor, so reaction conditions are designed to minimize this. Nonetheless, a steam cracking furnace can usually only run for a few months at a time between de-cokings. Decokes require the furnace to be isolated from the process and then a flow of steam or a steam/air mixture is passed through the furnace coils. This converts the hard solid carbon layer to carbon monoxide and carbon dioxide. Once this reaction is complete, the furnace can be returned to service.[citation needed]
Since ethylene production is energy intensive, much effort has been dedicated to recovering heat from the gas leaving the furnaces. Most of the energy recovered from the cracked gas is used to make high pressure (1200 psig (8300 kPa)) steam. This steam is in turn used to drive the turbines for compressing cracked gas, the propylene refrigeration compressor, and the ethylene refrigeration compressor. An ethylene plant, once running, does not need to import steam to drive its steam turbines. A typical world scale ethylene plant (about 1.5 billion pounds (680 KTA) of ethylene per year) uses a 45,000 horsepower (34,000 kW) cracked gas compressor, a 30,000 hp (22,000 kW) propylene compressor, and a 15,000 hp (11,000 kW) ethylene compressor.
Even though the thorough energy integration within a steam cracking plant, this process produces an unsurmountable amount of carbon dioxide. Per tonne of ethylene, 1 - 1.6 tonne of carbon dioxide (depending on the feedstock) is being produced.[4] Resulting in a staggering amount of more than 300 million tonnes of carbon dioxide that is annually emitted into the atmosphere of which 70-90% is directly attributed to the combustion of fossil fuel. In the last few decades, several advances in steam cracking technology have been implemented to increase its energy efficiency. These changes include oxy-fuel combustion, new burner technology, and 3D reactor geometries.[4] However, as is common within mature technologies these changes only led to marginal gains in energy efficiency. To drastically curb the greenhouse gas emission of steam cracking, electrification does offer a solution as renewable electricity can be directly transformed into heat by, for example, resistive and inductive heating.[4] As a result, several petrochemical companies joined forces resulting in the development of several joint agreements in which they combine R&D efforts to investigate how naphtha or gas steam crackers could be operated using renewable electricity instead of fossil fuel combustion.[5][6]
Weak and easy-to-guess passwords make even the soundest cybersecurity strategy easy to bypass. If a hacker guesses or cracks a password, the intruder can access your account or system without raising the alarm and compromise whatever asset you kept safe behind a password.
Provided you have things such as 2-step verification on your account, and multiple password reset methods (email, phone, etc.), then it will be very hard for him to prove he "owns" your account to steam support when he claims to have lost access to multiple things at once. Even if he does get into your account (which is highly unlikely, and more likely impossible to start with), you possess far more information than him and should be able to get back into your own account far easier than him, and potentially get his main/other accounts banned/suspended too.
Hello All, I woke up the other morning to a bunch of bounced emails in my inbox (and tonnes of weird, like ones in my sent box(mail delivery failure type emails), and alot of weird videos in my search and watch history, and also some in my watch later playlist. These videos were about software program cracks, crypto, etc.. On top of this, my steam account was totally hacked; the email and password was changed. The countermeasures were follows:
Thanks for your reply. I'm still confused how they bypassed 2FA and compromised other programs/accounts like Steam. Could they have cracked my account without malware having to be present on my devices (i.e. it was just bad luck??)
It's now going to be harder to buy games cheaply if you're from a first world country, as Steam is finally beginning to crack down on account region swapping abuse. Check out the comment that was tweeted by Steam Database below:
A failure was reported in an alloy 800 (UNS N08800) high pressure steam superheater piping downstream of a thermal oxidizer in a Sulfur Recovery Unit of a Gas Plant. Unexpected cracking on the circumference was observed. No evidence of corrosion was found on the piping. A metallurgical failure analysis investigation established that the piping had failed due to intergranular environmental stress corrosion cracking (IGSCC), specifically Caustic Stress Corrosion Cracking (CSCC) cracking. The cracks most probably originated as a result of unexpected wet conditions and caustic carryover. It was recommended to review the water treatment program, prevent water condensation and inspect the rest of the piping for similar cracks.
Previously, Alloy 800 (UNS N08800) was tested in steam environment containing caustic soda and chlorides. The wet/dry steam environment experiment with caustic soda was carried out for 18 weeks and no cracking was reported.(5) Furthermore, the chloride environment carried out for 36 weeks and no cracking was reported for the non-welded specimens.(5) Another test, also in a chloride environment was performed on welded specimens which cracked intergranularly in the heat-affected zone (large-grained) after 6-13 weeks. The cracked specimens were not annealed after welding.(5) However, the annealed specimens did not fail after 13 weeks. (5) In susceptible corrosion resistance alloys, damage at grain-boundary can occur due to sensitized conditions.
It all depends on the depth of the crack. Shallow earth cracks emit only steam, as they are not deep enough for volcanic gases to seep up. However, deep faults and fractures that extend down to magma allow gases a pathway to the surface, as at Ha'akulamanu.
The separation train of an ethylene plant is a very complex process sequence. Our engineering experts work closely with our customers to optimize every step in this process flow with a view to maximizing return on investment and minimizing energy consumption. Depending on the feedstock, target yield and product specifications, we tailor our superior steam cracking and ethylene separation technologies to customer-specific demands. Customers can thus rely on our ethylene plants for the highest process safety, lowest CAPEX, best OPEX, high availability, robustness and ease of operation/maintenance. As a leading ethylene licensor and T-EPC contractor, our one-stop service includes all necessary sublicenses so customers can look forward to a seamless, end-to-end cracker design.
Our holistic approach is based on a methodology specifically developed to assess steam crackers and entire petrochemical sites. Combined with a broad toolbox of dedicated technical solutions for either avoidance/reduction or elimination, we help to optimize carbon management and sustainability in existing and newly built facilities by focusing on the following: 2b1af7f3a8